UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
INDICE Introducción 1.0 FUNDAMENTO TEORICO
Definiciones Cemento (Tipos de cementos) Agregados Aditivos Concreto Simple y Armado Detalles del Acero de Refuerzo (Corrugado y Liso) Gancho Estándar Diámetro mínimos de doblado Limite para el espaciamiento del refuerzo Paquetes de barras Recubrimiento para el refuerzo Soldadura del Refuerzo Encofrados Conductos y Tuberías embebidos en el concreto
Concreto en Obra
Preparación para la colocación del concreto Medida de los Materiales Mezclado Transporte Colocación Protección Curado Consideraciones a tener en cuenta para la fabricación y colocación del Concreto en Climas Fríos Consideraciones a tener en cuenta para la fabricación y colocación del Concreto en Climas Cálidos
2.0 PROCESO CONSTRUCTIVO DEL CONCRETO ARMADO (ENCOFRADO, ACERO Y CONCRETO), CON AYUDA DE FOTOGRAFIAS Y/O VIDEOS DE SU OBRA. 3.0 TEMAS IMPORTANTES A DESARROLLAR CON APLICACIÓN A OBRA TESIS DE INVESTIGACION: Corrosión del concreto de mediana a baja resistencia res istencia Investigación del Concreto de alta resistencia Estudio de la adherencia entre el concreto y el acero Estudio de materiales de construcción en el Departamento de Amazonas.
CONCLUSIONES
CONTRUCCION II
1
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
INTRODUCCION
Continuando con los trabajos trabajos encomendados, encomendados, partiendo de los cimientos los cuales ya hemos hablado el trabajo 1, y la albañilería que se encuentran en el segundo trabajo. En esta ocasión se hablará de una de las últimas etapas etapas en la construcción, no por eso la menos importante, este proceso tiene tiene que ver todo lo referente a encofrados, concreto, aditivos, mano de obra y el trabajo trabajo en sí, realizado en en campo, alternamente alternamente se tienen tienen algunos conceptos de suma importancia para la realización del mismo la cual nos dan una visión más amplia y desarrollada que complementa lo visto en las aulas , a su vez vez hemos desarrollado una pequeña investigación investigación sobre tesis y trabajos ya emitidos en nuestra facultad.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
ENCOFRADO, ACERO y CONCRETO ARMADO
I.
FUNDAMENTO TEORICO
CEMENTO (TIPOS DE CEMENTOS) Material pulverizado que por adición de una cantidad conveniente de agua forma una pasta aglomerante capaz de endurecer, tanto bajo el agua como en el aire. Quedan excluidas las cales hidráulicas, las cales aéreas y los yesos.
El cemento debe cumplir con los requisitos de las NTP correspondientes.
El cemento empleado en la obra obra debe corresponder al que se ha tomado como base para la selección de la dosificación del conc reto.
AGREGADOS Se define como agregado al conjunto de partículas inorgánicas de origen natural o artificial cuyas dimensiones están comprendidas entre los límites fijados en la NTP 400. 011. Los agregados son la fase discontinua del concreto y son materiales que están embebidos en la pasta; ocupan el 75%, aproximadamente, del volumen de la unidad cúbica del concreto. Según su naturaleza, los agregados pueden ser naturales o artificiales, siendo los naturales de mayor uso; más aún, se pueden clasificar en:
a) El agregado fino, se define como aquel que pasa el tamiz 3/8” y queda retenido en la malla Nº200, el más usual es la arena; producto produc to resultante de la desintegración de las rocas.
b) El agregado grueso, es aquel que queda retenido en el tamiz Nº4 y proviene de la desintegración de la rocas; puede, a su vez, clasificarse en piedra chancada y grava.
c) El hormigón (agregado global), es el material conformado por una mezcla de arena y grava. Este material mezclado, en proporciones arbitrarias, se encuentra en forma natural en la corteza terrestre y se emplea tal cual se extrae en la cantera.
O D A M R A O T E R C N O C y O R E C A , O
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Los agregados para concreto deben cumplir c on las NTP correspondientes. Los agregados que no cumplan con los requisitos indicados en las NTP, podrán ser utilizados siempre que el Constructor demuestre, a través de ensayos y por experiencias de obra, que producen concretos con la resistencia y durabilidad requeridas.
El tamaño máximo nominal del agregado g rueso no debe ser superior a ninguna de: (a) 1/5 de la menor separación entre los lados del encofrado. (b) 1/3 de la altura de la losa, de ser el caso. (c) 3/4 del espaciamiento mínimo libre entre las barras o alambres individuales de refuerzo, paquetes de barras, tendones individuales, paquetes paquetes de tendones t endones o ductos. Estas limitaciones se pueden omitir si se demuestra que la trabajabilidad y los métodos de compactación son tales que el concreto se puede colocar sin la formación de vacíos o cangrejeras.
Los agregados que no cuenten con un registro o aquellos provenientes de canteras explotadas directamente por el Contratista, podrán ser aprobados por la Supervisión si cumplen con los ensayos normalizados que considere convenientes. Este procedimiento no invalida los ensayos de control de lotes de agregados en obra.
ADITIVOS Los aditivos del concreto son productos capaces de disolverse en agua, que se adicionan durante el mezclado en porcentajes no mayores de[ 5% de la masa de cemento, con el propósito de producir una modificación en el comportamiento de] concreto en su estado fresco y/o en condiciones de trabajo. Esta definición excluye, por ejemplo, a las fibras metálicas, las puzolanas y otros. En la actualidad los aditivos permiten la producción de concretos con características diferentes a los tradicionales, han dado un creciente impulso a la construcción y se consideran como un nuevo ingrediente, conjuntamente con el cemento, el agua y los agregados.
TIPOS DE ADITIVOS, NORMALIZACIÓN Los aditivos pueden clasificarse tentativamente según las propiedades que modifican en el concreto fresco o endurecido.
En estado fresco:
Incrementar la trabajabilidad sin aumento de agua o reducir el contenido de agua con similar trabajabilidad. Retardar o acelerar el fraguado. Modificar el asentamiento. Disminuir la exudación . Reducir la segregación . Mejorar la actitud al bombeo.
En el concreto endurecido:
Acelerar la ganancia de resistencia temprana.
O D A M R A O T E R C N O C y O R E C A , O
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Incrementar la adherencia con las barras de acero de refuerzo. Impedir la corrosión de las barras de refuerzo. Controlar la reacción alcali-agregado
Paralelamente se ha producido un proceso de concentración en la industria de aditivos, con inversión en investigación, desarrollo, procesos tecnológicos y control do calidad para satisfacer los requerimientos del usuario. Las primeras normas ASTM se dieron en 196 2 para los sigui entes tipos de aditivos:
Reductores de agua (tipo A). Retardadores de fraguado (tipo B) Aceleradores de fraguado y resistencia temprana (tipo C). Reductores de agua y retardadores (tipo D). Reductores de agua y aceleradores (tipo E).
Los aditivos llamados de segunda generación fueron normalizados por ASTM en 1970, incluyéndolos como tipos E y G en la norma de aditivos químicos; con propiedades de actuar como reductores de agua y como retardadores de fraguado. A diferencia de los reductores de primera generación, que permiten una reducción del contenido de agua al 95%, los reductores de alto rango llegan al 88% como mínimo. Cabe señalar que las normas ASTM tienen un carácter do performance mientras que las normas de la Comunidad Europea tienen además especificaciones prescriptivas, como son la homogeneidad, el color, la densidad relativa, el contenido de¡ extracto seco, el valor del PH. En la actualidad una tercera generación de aditivos se introduce rápidamente, solucionando el problema de la pérdida de asentamiento con el tiempo, que afectaba al concreto premezclado, en especial en regiones cálidas. A nuestro juicio- los si siguientes guientes criterios en la selección y uso de aditivos químicos son pertinentes: Establecer cuál es la característica principal del concreto que es modificada por el aditivo, cuales son las características secundarias que son modificadas en menor medida y cuales son los parámetros a controlar, por eventuales desarreglos que pudieran presentarse. Conocer el tipo de constituyente básico del aditivo para aprovechar la experiencia y las investigaciones existentes. De ser necesario recurrir al análisis de infrarrojo (que prescribe la norma para el control de homogeneidad) que permite identificar el producto. En los casos de aditivos reductores de agua, con función de acelerar o retardar el fraguado. (Especialmente en los del tipo de alto rango) convinieron evaluar la compatibilidad del aditivo con el cemento utilizado, al efecto debe tenerse en cuenta que los cementos varían la composición de sus constituyentes mineralógicos, aluminato y el silicato
O D A M R A O T E R C N O C y O R E C A , O
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
ADITIVOS PARA CONCRETOS LUIDIFICANTES Este tipo de aditivo que se encuentra normalizado, pese que a muchas veces se confunde con los aditivos reductores de agua de alto rango. La norma los diferencia di ferencia al prescribir que deben producir un incremento de 9 cm en el asentamiento, medido en el cono. Se normalizan dos tipos, uno de ellos con propiedades retardantes. Estos aditivos permiten que el concreto acceda en elementos con alta cuantía de acero de refuerzo y facilitan el vaciado de grandes superficies con economía, los aditivos en el mercado son compuestos en base a los sigui entes materiales: materiales:
Formaldehído-melarnina sulfórico. Formaldehído naftaleno sulfónico. Lignosulfonatos modificados. Una combinación de uno de los tipos enunciados con aditivos químicos de tipo A (reductor de agua); de tipo B (reductor y retardador) o de tipo E (reductor acelerador.) También se utiliza altas dosificaciones del reductor tipo A y reductor acelerador de tipo E.
ADITIVOS PARA CONCRETOS AUTO COMPACTANTES Estos aditivos constituyen un nuevo tipo de aditivo reductor de alto rango que modifica la plasticidad del concreto dotándolo de acentuada fluidez sin producir segregación. Su empleo es requerido por la industria de la prefabricación para reducir el tiempo de la puesta en molde y curado, además de eliminar en su totalidad los procedimientos de consolidación. los procedimientos de normalización se encuentran en el comité de ASTM C 09 de] ASTM.
ADITIVOS PARA MEJORAR LA BOMBEABILIDAD Desde hace muchos años se obtiene en el mercado productos. incrementan la productividad del concreto bombeado, mejorando la cohesividad, disminuyendo la exudación y limitando ¡a segregación del agua. Estos aditivos mejoran las mezclas deficientes en finos o de graduación incompleta de los agregados. Reducen los problemas del taponamiento y permiten mantener la presión de sumini stro continuo. Estos aditivos se encuentran en proceso de normalización en el ASTM, procurando definir métodos de ensayos apropiados.
ADITIVOS PARA CONCRETO LANZADO (SHOTCRETE) Los aditivos convencionales normalizados también son empleados para mejorar las condiciones de aplicación del concreto lanzado. El cloruro de calcio como acelerador en cantidades no mayores M 2% y cuando se incorporan fibras metálicas, aditivos libres de cloruros. En las mezclas húmedas se emplean los reductores de agua y cuando es requerido incorporadores de aire, Sin embargo, se pueden encontrar en el mercado aditivos que mejoran el rendimiento y la performance de los concretos lanzados, que actúan sobre las siguientes características: Regular el fraguado inicial y final, generalmente entre 2 y 13 minutos. Incrementar el espesor de la capa proyectada y reducir el material de desperdicio.
O D A M R A O T E R C N O C y O R E C A , O
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
agregado. Los aditivos químicos fueron aplicados inicialmente en la década de los 60 habiendo adquirido recientemente nueva presencia. Se emplean principalmente sales de litio en porcentajes vecinos al 1 % y sales de bario, entre 2 y 7%, en relación a la masa de cemento. La expansión de esta técnica esta limitada por el costo de los aditivos y la prevención que existe por la modificación de la resistencia. Su empleo es restringido debido a que la información sobre experiencias es poca y su costo resulta elevado, con relación a otras alternativas para minimizar el riesgo. En efecto, es posible usar cementos apropiados, combinar los agregados dañinos con otros sanos. etc. La inclusión de este aditivo en el presente trabajo es con carácter referencial, pues no existe ningún requerimiento en nuestro medio.
ADITIVOS E INHIBIDORES DE CORROSION Existen varios tipos de inhibidores de la corrosión del refuerzo de acero, sea por causa de la penetración de cloruros o por la acción de C02 del ambiente. Pese a ser conocido durante décadas el nitrito de calcio recién en 1960 fue identificado y patentado. Se ha comprobado que en porcentajes de 31% de masa de cemento reduce la expansión y no produce efectos adversos en el concreto. Otros tipos de inhibidores, con diferente forma de acción tienen diminuta presencia en el mercado, corno es el caso del lignosulfonato de calcio. Sin embargo, en la tecnología del concreto existen alternativas mas desarrolladas como son las barras de acero revestidas, la protección catódica o las barreras protectoras.
ADITIVOS DEL MILENIO Anteriormente el empleo de aditivos era discrecional, se prescribían por razones de economía y constituían una alternativa al diseño de la mezcla de concreto. En la actualidad los aditivos han pasado a ser un ingrediente más, conjuntamente con las adicione s minerales de los nuevos concretos, que son cualitativamente diferentes a los corcretos que han ocupado la mayor parte de[ siglo pasado. Los aditivos químicos no solamente permite reducir la relación a/c a porcentajes de 0.32, producir concretos trabajables sino que dan como resultados materiales de resistencia superior a mil kilos por cm2 y superior durabilidad ante diferentes condici ones climáticas.
O D A M R A
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
CONCRETO SIMPLE Y ARMADO Concreto simple — Concreto estructural sin armadura de refuerzo o con menos refuerzo que el mínimo especificado para concreto reforzado. Es el concreto que conocemos, pero sin la presencia de acero de refuerzo, este material solo podrá usarse en elementos sometidos a compresión. Tiene especial importancia estructural cuando su uso final es construcción de elementos que trabajan por gravedad (peso propio), ejemplo: concreto ciclópeo (concreto simple + roca con tamaño > 10´´), estribos de puentes puentes y muertos para anclaje anclaje de cables en puente colgante o atirantados, bases para ciertas estructuras o equipos. Concreto armado o reforzado — Concreto estructural reforzado con no menos de la cantidad mínima de acero, preesforzado o no. Se le da este nombre al concreto simple +acero de refuerzo; básicamente cuando tenemos un elemento estructural que trabajara a tensión y compresión. Ningún esfuerzo de tensión será soportado por el concreto, es por ello que se debe incluir un área de acero que nos asuma esta solicitación; dicho valor se traducirá en el número de varilla y su diámetro, así como su disposición.
DETALLES DEL ACERO DE REFUERZO (CORRUGADO Y LISO) El hierro químicamente puro, no tiene aplicación en la Ingeniería Civil. El hierro para ser acero tiene que ser fusionado, es decir, combinado con otros elementos como carbono, manganeso, cobre, silici o, molibdeno, níquel, cromo y tener un míni mo de impurezas, fósforo y azufre, para que sea un material utilizable. El acero es aquella aleación del hierro que puede forjarse sin tratamiento previo ni posterior.
GANCHO ESTÁNDAR El término gancho estándar se emplea con un o de los siguientes significados:
O D A M R A
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Ganchos de barras longitudinales, estribos y grapas suplementarias
DIÁMETRO MÍNIMOS DE DOBLADO
El diámetro de doblado, medido en la cara interior de la barra, excepto para estribos de diámetros desde1/4” hasta 5/8”, no debe ser menor que lo indicado en la Tabla. El diámetro interior de doblado para estribos no debe ser menor que 4 db para barras de 5/8” y menores. Para barras mayores que 5/8”, el diámetro de doblado debe cumplir con el estipulado siguiente:
DIÁMETROS INTERIORES MÍNIMOS DE DOBLADO
El diámetro interior de doblado en refuerzo electrosoldado de alambre (corrugado o liso) para estribos no debe ser menor que 4 db para alambre corrugado de diámetro mayor a 7 mm y2 db para diámetros menores. Ningún doblez con diámetro interior menor de 8 db debe estará menos de 4 db de la i ntersección soldada más cercana.
O D A M R A
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
LIMITE PARA EL ESPACIAMIENTO DEL REFUERZO
La distancia libre mínima entre barras paralelas de una capa debe ser db, pero no menor de 25 mm. Cuando el refuerzo paralelo se coloque en dos o más capas, las barras de las capas superiores deben colocarse exactamente sobre las de las capas inferiores, con una distancia libre entre capas no menor de 25 mm. En elementos a compresión reforzados transversalmente con espirales o estribos, la distancia libre entre barras longitudinales no debe ser menor de 1,5 db ni de 40 mm. La limitación de distancia libre entre barras también se debe aplicar a la distancia libre entre un empalme por traslape y los otros empalmes o barras adyacentes.
PAQUETES DE BARRAS
Los grupos de barras paralelas dispuestas en un paquete para trabajar como una unidad, deben limitarse a un máximo de 4 bar ras por cada paquete. Los paquetes de tres o cuatro barras deben alojarse dentro de las esquinas de los estribos. En vigas, el diámetro máximo de las barr as agrupadas en paquetes será de 1 3/8”. En elementos sometidos a flexión, cada una de las barras de un paquete que se corta dentro del tramo debe terminarse en lugares diferentes separados al menos 40 db. Cuando las limitaciones de espaciamiento y recubrimiento mínimo del concreto se basan en el diámetro de las barras (db), un paquete de barras debe considerarse como una sola barra de diámetro equivalente correspondiente a la suma de las áreas de las barras del paquete.
1. Propiedades Físico-Mecánicas del Acero Estructural 1.1 Punto de Fluencia: Fy, cuando se termina la proporcionalidad entre esfuerzos y deformaciones en un espécimen libre de esfuerzos residuales. Los aceros estructurales mantienen un rango definido de esfuerzo constante vs. Deformación en este nivel de esfuerzo unitario.
1.2 Resistencia a la fluencia: Fy , en ciertos aceros es necesario definir un concepto similar al anterior cuando no hay un Punto preciso de fluencia. Ocurre con aceros de alta resistencia o con tratamiento en frío.
1.3 Límite de Proporcionalidad: Fp, en ensayos con aceros no tratados
térmicamente (recocido) y que son la mayoría, se observa que se pierde la proporcionalidad antes de llegar al Punto de Fluencia y ello se debe a la presencia de los llamados Esfuerzos Residuales que se generan en el
O D A M R A O T E R
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
- Ensayo de Entalladura, para conocer la fragilidad del material. - Ensayo a la Fatiga, que tiene por objeto conocer el comportamiento que tendrá el acero bajo cambios de cargas frecuentes.
2. Composición Química del Acero y su influencia en las propiedades: Los aditivos más importantes del acero para muchas de sus propiedades mecánicas son el carbono y el manganeso.
Cromo: mejora la resistencia a la corrosión, da mayor resistencia al desgaste. Cobre: mejora la resistencia a la corrosión y la ductilidad del acero. Manganeso: presente en todos los aceros estructurales, mejora la resistencia, ductilidad e influye favorablemente en los tratamientos térmicos. Molibdeno: mejora la resistencia en altas temperaturas y la resistencia a la corrosión. Níquel: impide la fragilidad en temperaturas bajas y mejora la existencia a la corrosión. Silicio: mejora la resistencia. Los contenidos de Fósforo y Azufre deben ser mantenidos debajo del 0.1% en peso, por ser elementos indeseables en el acero.
3. Usos de los aceros estructurales ASTM: A36 Para propósitos generales en estructuras, especialmente de edificaciones, soldadas o empernadas. A242 Para puentes empernados o soldados, resistentes a la oxi dación. A572 Para perfiles estructurales, planchas, y barras para edificaciones empernadas o soldadas; puentes soldados sólo en los Grados 42 y 50.
4. Aceros Estructurales en Perú Son producidos por Sider-Perú en su planta de Chimbote y por Aceros nArequipa S.A. en su planta de Pisco. Uno de sus productos, la palanquilla, que se usa para el proceso de laminación de Angulos y varillas lisas, es de material bastante par ecido al del Acero ASTM A36. A 36. Sider-Perú fabrica, también, productos laminados planos, con la denominación ITINTEC P.341-083 y los suministra ya sea en forma de bobinas EG-24 o planchas PGE-24; su Punto de Fluencia es Fy = 2400 kg/cm2; su Esfuerzo de Fractura es Fu = 4200 kg/cm2 y su ductilidad es 21% (en probetas de 200 mm); es similar al acero ASTM A36. Con relación a los productos no planos, en Perú se laminan ángulos hasta de 4 pulgadas, de lados
O D A M R A O T E R
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
5.2 Suministro y almacenamiento: Todo envío de acero de refuerzo que llegue al sitio de la obra o al lugar donde vaya a ser doblado, deberá estar identificado con etiquetas en las cuales se indiquen la fábrica, el grado del acero y el lote correspondiente. El acero deberá ser almacenado en forma ordenada por encima del nivel del terreno, sobre plataformas, largueros u otros soportes de material adecuado y deberá ser protegido, hasta donde sea posible, contra daños mecánicos y deterioro superficial, incluyendo los efectos de la intemperie y ambientes corrosivos. Se debe proteger el acero de refuerzo de los fenómenos atmosféricos, principalmente en zonas con alta precipitación pluvial. En el caso del almacenamiento temporal, se evitará dañar, en la medida de lo posible, la vegetación existente en el lugar, ya que su no protección podría originar procesos erosivos del suelo.
5.3 Doblado: Las barras de refuerzo deberán ser dobladas en frío, de acuerdo con las listas de despiece aprobadas por el Supervisor. Los diámetros mínimos de doblamiento, medidos en el interior de la barra, con excepción de flejes y estribos, seran los indicados en la séte tabla:
Durante el doblado del fierro de construcción se recomienda revisar si hay rajaduras / fisuras en el ángulo de curvatura.
Después de doblar el fierro de construcción, se recomienda no enderezarlo ni volverlo a doblar,
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Las barras se deberán amarrar con alambre en todas las intersecciones, excepto en el caso de espaciamientos menores de treinta centímetros (0,30 m), en el cual se amarrarán alternadamente. No se permitirá la soldadura de las intersecciones i ntersecciones de las barras de refuerzo. Si el refuerzo de malla se suministra en rollos para uso en superficies planas, la malla deberá ser enderezada en láminas planas, antes de su colocación. El Supervisor deberá revisar y aprobar el refuerzo de todas las partes de las estructuras, antes de que el Contratista inicie la colocación del concreto.
6. Barras de construcción ASTM A615 DENOMINACION: BACO ASTM A615-GRADO 60 DESCRIPCION: Barras de acero rectas de sección circular, con resaltes Hi-bond de alta adherencia con el concreto.
NORMAS TECNICAS: Composición Química, Propiedades Mecánicas y Tolerancias dimensionales: ASTM A615 Grado 60 - 96a / ITINTEC 341.031 Grado ARN420 - 91.
PRESENTACION: Se produce en barras de 9 m y 11.9 m de longitud en los sig uientes diámetros: 6 mm, 8 mm, 3/8", 12 mm, 1/2", 5/8", 3/4", 1". La medida 1 3/8" se produce en 12m. Previa consulta, se puede producir en otras longitudes requeridas por los clientes. Se suministra en paquetes de 2 TM. Las barras de 6 mm también se comercializan en rollos de 440 Kg.
USOS: En la fabricación de estructuras de concreto armado en viviendas, edificios, puentes, represas, canales de irrigación, etc.
7. BARRAS DE CONSTRUCCIÓN ASTM A706 DENOMINACION: BACO A706-G60.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
USOS: Para refuerzos de concreto armado, como refuerzo de temperatura, en losas y en muros de contención.
8. Cargas que pueden soportar Para conocer las cargas que pueden soportar los materiales, se efectúan ensayos para medir su comportamiento en distintas situaciones. El ensayo destructivo más importante es el ensayo de tracción, en donde se coloca una probeta en una máquina de ensayo consistente de dos mordazas, una fija y otra móvil. Se procede a medir la carga mientras se aplica el desplazamiento de la mordaza móvil. Un esquema de la máquina de ensayo de tr acción se muestra en la Figura:
Máquina de Ensayo de Tracción
La máquina de ensayo impone la deformación desplazando el cabezal móvil a una velocidad seleccionable. La celda de carga conectada a la mordaza fija entrega una señal que representa la carga aplicada, las máquinas poseen un plotter que grafica en un eje el desplazamiento y en el otro eje la carga leída. La siguiente figura muestra el gráfico obtenido en una máquina de ensayo de tracción para un acero.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Las curvas tienen una primera parte lineal llamada zona elástica, en donde la probeta se comporta como un resorte: si se quita la carga en esa zona, la probeta regresa a su longitud inicial. Se tiene entonces que en la zona elástica se cumple:
F = K (L - L0) F: fuerza K: cte del resorte L: longitud bajo carga L0: longitud inicial Cuando la curva se desvía de la recta inicial, el material alcanza el punto de fluencia, desde aquí el material comienza a adquirir una deformación permanente. A partir de este punto, si se quita la carga la probeta quedaría más larga que al principio. Deja de ser válida nuestra fórmula F = K (L - L0) y se define que ha comenzado la zona plástica del ensayo de tracción. El valor límite entre la zona elástica y la zona plástica es el punto de fluencia (yield point) y la fuerza que lo produjo la designamos como:
F = Fyp (yield point) Luego de la fluencia sigue una parte inestable, que depende de cada acero, para llegar a un máximo en F = Fmáx. Entre F = Fyp y F = Fmáx la probeta se alarga en forma f orma permanente y repartida, a lo largo de toda su longitud. En F = Fmáx la probeta muestra su punto débil, concentrando la deformación en una zona en la cual se forma un cuello.
La deformación se concentra en la zona del cuello, provocando que la carga deje de subir. Al adelgazarse la probeta la carga queda aplicada en menor área, provocando la ruptura.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Para expresar la resistencia en términos independientes del tamaño de la probeta, se dividen las cargas por la sección transversal inicial Ao , obteniéndose: resistencia a la fluencia:
resistencia a la tracción:
σyp =
σult =
resistencia a la tracción:
σult =
Obs: σyp=Re σult = Rm (en alguna literatura) Unidades: Kg/mm2 o Mpa o Kpsi Considerando una probeta cilíndrica :
A0 =
RECUBRIMIENTO PARA EL REFUERZO Concreto construido en sitio (no preesforzado) Debe proporcionarse el siguiente recubrimiento mínimo de concreto al refuerzo, excepto cuando se requieran recubrimientos mayores ó se requiera protección especial contra el fuego: (a) Concreto colocado contra el suelo y expuesto permanentemente permanentemente a él......... él......... 70 mm (b) Concreto en contacto permanente con el suelo o la intemperie: Barras de ¾” y mayores.......................................................................... 50 mm Barras de 5/8” y m enores, mallas electrosoldadas................................... electrosoldadas......................... .......... 40 mm
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Concreto construido en sitio (preesforzado) Debe proporcionarse el siguiente recubrimiento mínimo de concreto al refuerzo preesforzado y no preesforzado, a los ductos de postensado y accesorios de los extremos, excepto cuando se requieran recubrimientos mayores mayores ó se requiera protección especial contra el fuego: fuego: a) Concreto colocado contra el suelo y expuesto permanentemente permanentemente a él ……..… 70 mm b) Concreto en contacto permanente con el suelo o a la intemperie: -
Paneles de muros y losas …..………………………….………...……….…... 25 mm Viguetas.............................................................................. 25 mm Otros elementos.................................................................... 40 mm
-
c)
Concreto no expuesto a la intemperie ni en c ontacto con el suelo: -
Paneles de muros y losas........................................................................... 20 mm Vigas y columnas: Refuerzo principal..................................................................................... 40 mm Estribos y espirales................................................................................... 25 mm
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
b) Concreto no expuesto a la acción de la intemperie ni en contacto con el suelo: -
Losas, muros, viguetas: Barras 1 11/16‖ y 2 1/4‖…………..…………………………………….……………………. …………..…………………………………….……………………... 30 mm Tendones de preesforzado mayores de 1 1/2 ‖ de diámetro....................... 30 mm Tendones de preesforzado de 1 1/2 ‖ de diámetro y menores…………….….... menores…………….…. ... 20 mm Barras de 1 3/8‖ y menores ………………….……...…….…………………………….….. 16 mm Mallas electrosoldadas……...…..…………………………….…………….... electrosoldadas……...…..…………………………….…………….... 16 mm Vigas, columnas: Refuerzo principal………..…………………… db, pero no menor de 16 mm sin necesidad de exceder de 40 mm Estribos y espirales...............................................................................10 mm Cáscaras y losas plegadas: Tendones de preesforzado.................................................................... 20 mm Barras de 3/4‖ y mayores..................................................................... 16 mm Barras No. 5/8‖ y menores ………………………………….………………………………… 10 mm Mallas electrosoldadas………..……… electrosoldadas………..………………………….…......... ………………….….................................. ......................... 10 mm
ENCOFRADOS o
Los encofrados deberán permitir obtener una estructura que cumpla con los perfiles,
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
o
Para determinar el tiempo de desencofrado deben considerarse todas las cargas de construcción y las posibles deflexiones que estas ocasionen. Debe considerarse que las cargas de construcción pueden ser tan altas como las cargas vivas de diseño y que, a edades tempranas, una estructura de concreto puede ser capaz de resistir las cargas aplicadas pero puede deformarse lo suficiente como para causar un daño permanente en la estructura.
Retiro de puntales y reapuntalamiento Los requisitos de anteriores se deben cumplir en la construcción de vigas y losas excepto cuando se construyan apoyadas sobre el terreno. o Con anterioridad al inicio de la construcción, el constructor debe definir un procedimiento y una programación para la remoción de los apuntalamientos, para la instalación de los reapuntalamientos y para calcular las cargas transferidas a la estructura durante el proceso. Debe considerarse lo siguiente:
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
CONDUCTOS Y TUBERÍAS EMBEBIDOS EN EL CONCRETO o
o
o
o
Se permite, previa aprobación de la supervisión, embeber en el concreto tuberías, ductos e insertos de cualquier material que no sea perjudicial para el concreto y que esté dentro de las limitaciones de esta parte, siempre y cuando se considere que ellos no reemplazan estructuralmente al concreto desplazado. No deben dejarse embebidos en el concreto estructural, tuberías y ductos de aluminio, a menos que se recubran o se pinten adecuadamente para evitar la reacción concretoaluminio, o la acción electrolítica entre el aluminio y el acero. Los ductos, tuberías e insertos que pasen a través de losas, muros o vigas, no deben debilitar significativamente la resistencia de la estructura. Los ductos y tuberías, junto con sus conexiones, embebidas en una columna, no deben ocupar más del 4% del área de la sección transversal que se empleó para calcular su resistencia, o de la requerida para la protección contra el fuego.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
o
o
o
El recubrimiento de concreto para las tuberías y sus conexiones no debe ser menor de 40 mm en superficies de concreto expuestas a la intemperie o en contacto con el suelo, ni menor de 20 mm en aquellas que no estén directamente en contacto con el suelo o expuestas a la intemperie. Debe colocarse refuerzo en la dirección normal a la tubería, con un área no menor de 0,002 veces el área de la sección de concreto. Las tuberías y ductos deben fabricarse e instalarse de tal forma que no se requiera cortar, doblar o desplazar el refuerzo de su posición apropiada.
CONCRETO EN OBRA
Preparación para la colocación del concreto
La preparación previa a la colocación del concreto debe incluir lo siguiente: a) Las cotas y dimensiones de los encofrados y los elementos estructurales deben corresponder con las de los planos.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
o
o
o
Mezclado
La medida de los materiales en la obra deberá realizarse por medios que garanticen la obtención de las proporciones especificadas. Todo concreto debe mezclarse hasta que se logre una distribución uniforme de los materiales. La mezcladora debe descargarse completamente antes de volverla a cargar. El concreto premezclado debe mezclarse y entregarse de acuerdo con los requisitos de “Standard Specification for ReadyReady-Mixed Concrete” (ASTM C 94M) o “Standard Specification of Concrete Made by Volumetric Batching and Continuous Mixing” (ASTM C 685M). El concreto preparado en obra se debe mezclar de acuerdo con lo siguiente:
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
o
o
o
No se debe utilizar concreto al que después de preparado se le adicione agua, ni que haya sido mezclado después de su fraguado inicial, a menos que sea aprobado por la Supervisión. Una vez iniciada la colocación del concreto, ésta debe ser efectuada en una operación continua hasta que se termine el llenado del tramo o paño, definido por sus límites o juntas predeterminadas, predeterminadas, de acuerdo con lo indicado. Todo concreto debe ser compactado cuidadosamente por medios adecuados durante la colocación y debe ser acomodado por completo alrededor del refuerzo y de los elementos embebidos y en las esquinas del encofrado. Los vibradores no deberán
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
(a) (b)
El concreto deberá fabricarse con aire incorporado, de acuerdo a lo especificado en tablas de diseño. Deberá tenerse en obra equipo adecuado para calentar el agua y/o el agregado, así como para proteger el concreto cuando la temperatura ambiente esté por debajo de 5º C.
(c)
En el caso de usar concretos de alta resistencia, el tiempo de protección no será menor de 4 días.
(d)
Todos los materiales integrantes del concreto, así
las barras de refuerzo,
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
II.
PROCESO CONSTRUCTIVO DEL CONCRETO ARMADO (ENCOFRADO, ACERO Y CONCRETO), CON AYUDA DE FOTOGRAFIAS Y/O VIDEOS DE SU OBRA.
OBRA : I.E PEDRO LABARTHE – LABARTHE – LA VICTORIA Siempre se debe contar con la ayuda de los planos estructurales de la los a para realizarla, siguiendo las indicaciones y las especificaciones que da el ingeniero estructural estructural a cabalidad de manera que una vez finalizada la obra se hayan ob tenido las características que se desean en toda estructura:
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
A continuación se mencionan algunas de las herramientas, equipos y materiales comúnmente utilizados en la construcción de la I.E PEDRO LABARTHE
Herramientas: serrucho, escuadra, martillo, marco de sierra con segueta, gancho para amarrar el acero, pala, pico, palustre, boquillera, dobladora de cabilla, hilo de nylon, lápiz, nivel, plomo.
Equipo: mezcladora, andamio, escalera, baldes, banco para figurar el acero, carretilla, vibrador.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
UNIVERSIDAD NACIONAL DE INGENIERIA FACULTAD DE INGENIERIA CIVIL DEPARTAMENTO ACADEMICO DE CONSTRUCCIÓN
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.
Trusted by over 1 million members
Try Scribd FREE for 30 days to access over 125 million titles without ads or interruptions! Start Free Trial Cancel Anytime.