Nº Ciclos
Tc-RH90C-I
1
0:02:06
0:07:32
2
0:02:31
0:07:29
3
0:02:44
0:06:52
4
0:02:40
0:07:44
5
0:02:20
0:07:17
6
0:02:36
0:07:07
7
0:02:42
0:07:10
8
0:03:05
0:07:00
9
0:02:04
0:06:42
10
0:02:25
0:07:01
11
0:02:19
0:07:13
12
0:02:40
0:06:25
13
0:02:44
0:07:11
Su! P"o#$ios
0:32:56
1:32:43
0:02:32
0:07:08
Dis%o&i'ili$!$ #c(&ic! )DM*+ Tiempo programado(Hrs. programado(Hrs.)) Mantenimiento(Hrs.) Reparacion(Hrs.)
DM =
TIEMPOS TOMA TVC
616 11 153.3
(Tiempo programado programado − Mantenimiento Tiempo programado programado
DM ,
7333 73 33 +
E..$# /i#%o o /ili$!$ E.#c/i! )+*
Eff . Tpo
=
W T
× 100
W = Horas trabajadas T = Horas Horas totaes E.. T%o ,
10 hras. 1! hras. 333 3 33 +
"apacidad nomina de a to#a ("n) $eso espec%&co de a roca insit' t'ra de anco *istancia de acarreo *isponibiidad mec+nica ,&ciencia de tiempo $endiente
60.2 !.6 1! 1500
0.7333 0.8333 10
,sponjamiento $eso especi&co de materia roto /actor de enado Tiempo tota por cico
30- !.6 313
P"o$uccio& o"!"i! )PROD*
PROD PR OD =
EF F × Cn × Fll Fl l 6 0 × DM × EFF T TC
PROD ,
1117
4CM5"!
I FORMLACI8N DE ALO 1 P"o$ucci:& ; Dis%o&i'ili$!$ M#c(&ic! 4CM P R O D=
6 0 × D M × 0.8 3 3 3× 6 0.2 × 1 8.3 8
PROD =
Su!
152.27 DM DM)+* 10!0300506020001000 +
y = a0n + a1 ∑x∑ xy = a0 ∑x + a1∑X^2∑ Y = a0 + a1X Y = PROD X = DM
PROD 15.! 30.5 5.2 60. 26.1 1. 106.6 1!1. 132.0 15!.3 3 7
DM62 0.0 0.0 0.1 0.! 0.3 0. 0.5 0.6 0. 1.0 3 10 5.5 0.666666662 40.6666666662
,sponjamiento $eso especi&co de materia roto /actor de enado Tiempo tota por cico
30- !.6 313
P"o$uccio& o"!"i! )PROD*
PROD PR OD =
EF F × Cn × Fll Fl l 6 0 × DM × EFF T TC
PROD ,
1117
4CM5"!
I FORMLACI8N DE ALO 1 P"o$ucci:& ; Dis%o&i'ili$!$ M#c(&ic! 4CM P R O D=
6 0 × D M × 0.8 3 3 3× 6 0.2 × 1 8.3 8
PROD =
Su!
152.27 DM DM)+* 10!0300506020001000 +
y = a0n + a1 ∑x∑ xy = a0 ∑x + a1∑X^2∑ Y = a0 + a1X Y = PROD X = DM
PROD 15.! 30.5 5.2 60. 26.1 1. 106.6 1!1. 132.0 15!.3 3 7
DM62 0.0 0.0 0.1 0.! 0.3 0. 0.5 0.6 0. 1.0 3 10 5.5 0.666666662 40.6666666662
160.0 10.0 1!0.0 100.0
PRODUCCIÓN HORARIA
0.0 60.0 0.0 !0.0 0.0 10-
!0-
30-
0-
50
DISPONIBI De la !neal!"a#!$n !neal!"a#! $n %$& M'n!($) *a,&a,$) &e)l-a el .l/$&!-($
PROD , -113<7>106-13 ? 1227DM
2 P"o$ucci:& ; E.ici#&ci! 4CM
PR P R OD = PROD =
S"#$
60 × 0.7333 × E ff × 60.2 × 0 18.38 133. E! EFF)+* 10!0300506020001000 +
PROD 13.3 !6.2 0.12 53.56 66.5 0.3 3.23 102.1! 1!0.51 133. 73<9=
EFF62 0.01 0.0 0.0 0.16 0.!5 0.36 0. 0.6 0.1 1 3 10 5.5
y = a0n + a1 ∑x∑ xy = a0 ∑x + a1∑X^2∑ Y = a0 + a1X Y = PROD X = Eff
0.666666662 40.6666666662
GRAFICO Nº Nº 02 02
10 10 1!0 1!0 100 100 0 PRODUCCIÓN HORARIA HORARIA 60 0 !0 0 10-
!0-
30-
0-
50-
60-
EFICIENCIA De la l!neal!"a#!$n l!neal!"a# !$n %$& M'n!($) *a,&a,$) &e)l-a el .l/$&!-($
PROD , 13399 > EFF
3 A&(lisis $# l! P"o$ucci:& ; l! $is/!&ci! 4CM
PROD PR OD = PROD =
60 × 0.7333 × 0.8333 × 60. TTC TT C 2052.6% &''C
Pa&a ,!)-an#!a) ,!fe&en-e) e) ,e#!& -!e(%$) ,e #!#l$ ,!fe&en-e) )e $-!ene el R Dis/!&ci! )* !50 500 1000 1500 !000 !500 3000 3500 000 500 5000 5500 @ 250
500 1000 1500 !000 !500 3000 3500
TC 253 253 253 253 253 253 253 253 253 253 253 253
!1.2 16.12 1!.3 111.2 1.5 2.1! 62.0 60.05
TVC 1.1 !.3 .25 2.13 .51 11. 1.!6 16.6 1.01 !1.3 !3.22 !6.1 L&)@* 5.5! 6.!1 6.1 2.31 2.60 2.! .01 .16
000 500 5000 5500 3320
Su!/o"i!
53.! .22 .5 1.06 117=0
.! .1 .5! .61 913
; , A& ? 4BL&)>* B A BL&> ? 4BL&)@62 *, *L&>B)
1! 1.3
, A ? 4 L&)@* , PROD @ , Dis/
5.6221162 40.2365623
GRAFICO Nº 03 300.00 !50.00 !00.00
PRODUCCIÓN HORARIA
150.00 100.00 50.00 0.00 !50
500
1000
1500
!000
!500
3
DIS'ANCI De la l!neal!"a#!n %$& M'n!($) *a,&a,$) &e)l-a el .l/$&!-($
PROD , <02937017 - <<27701= > L&)$is/*
= P"o$ucci:& ; C!%!ci$!$ Noi&!l $# l! Tol! 4CM
PROD =
60 × 0.7333 × 0.8333 × Cn 18 .38
PROD =
1.85 C( C& !0 !5 30 35 0 5 50
PROD 32 6.!5 55.5 6.25 2 3.!5 !.5
C&62 00 6!5 00 1!!5 1600 !0!5 !500
55 60 65 20 25 0 5 0 5 100 1020
S"#$)*+,$
101.25 111 1!0.!5 1!.5 13.25 1 152.!5 166.5 125.25 15 17
30!5 3600 !!5 00 56!5 600 2!!5 100 0!5 10000 71=00 12 10!0
; , A& ? 4 B@ B >; , AB@ ? 4B@62B , A ? 4@
0.1126205 40.005!35!
= C(
, PROD
GRAFICO Nº !00 150
PRODUCCIÓN HORARIA
100 50 0 !0
!5
30
35
0
5
50
55
CAPACIDAD N
De la l!neal!"a#!n %$& M'n!($) *a,&a,$) &e)l-a el .l/$&!-($
PROD ,1>C&
P"o$ucci:& ; F!c/o" $# ll#&!$o 4CM P R O D= PROD =
60 × 0.7333 × 0.8333 × 60.2 × 18.38 120.06 F-Fll
PROD
Fll62
10!0300506020001005.5
Su!/o"i!
1!.006 !.01! 36.01 .0! 60.03 2!.036 .0! 6.0 10.05 1!0.06 660.33
0.01 0.0 0.0 0.16 0.!5 0.36 0. 0.6 0.1 1.00 3.5
; , A& ? 4 B@ B >; , AB@ ? 4B@62B
10 5.5
, A ? 4@
0.666666662 40.6666666662
= F--
, PROD
GRAFICO Nº 05 10 1!0 100 0
PRODUCCIÓN HORARIA
60 0 !0 0 10-
!0-
30-
0-
50-
60-
FAC'OR DE LLENA
De la l!neal!"a#!n %$& M'n!($) *a,&a,$) &e)l-a el .l/$&!-($
PROD , -113<7>106-13 ? 1200<>Fll
< P"o$ucci:& ; P#&$i#&/# 4CM P#&$i#&/#)+* 1!3562-
Dis/!&ci!
TC
1500
253
1500
253
1500
253
1500
253
1500
253
1500
253
1500
253
10+
PROD
1500
253
1500
253
100
23
60 × 0.7333 × 0.8333 × 60 .
=
TTC
PROD =
2052.6% &''C
Su!/o"i!
2
1!35621055-
121.23 16!.06 153.! 15.66 13.65 13!.!2 1!6.6 1!1.1 116.!5 111.2 132.3
0.0001 0.000 0.000 0.0016 0.00!5 0.0036 0.00 0.006 0.001 0.01 0.035
= A( 4 B 4 C 2 4 D3 = A 4 B2 4 C3 4 D% 2 = A2 4 B3 4 C% 4 D5 3 = A3 4 B% 4 C5 4 D6 , A ? 4@ ? C@62 ? D@63 , PROD @ , PENDIENTE
GRAFICO Nº 06 !00.00
150.00
100.00
PRODUCCIÓN HORARIA 50.00
0.00 1-
!-
3-
-
5-
PENDIEN'E
6-
.l/$&!-($
PROD , 1231=<9 - 111<<<<3 P#&$ ? 97=033= P#&$62 - 1=92<=
U),-,$(* -* $-9*+,)#* : +:-$;,<( : ;$$ $+,$>-: ;*(*;,$ : 9:(:+$( -* $)* : -$ '$>-$ Nº 07 PRODUCCIÓN BCM&@+$ 0 0 100 110 1!0 130
EFICIENCIA
D. MECÁNICA
606225!02-
535662!25-
II APLICACI8N DE LA RERESI8N LI
F ( A, B ) = a0 A
a1
B
a2
1. RELACIÓN DE LA PRODUCCIÓN EFICIENCIA DISP F ( A, B ) = a0 A B A = EFF B = DM F ( A, B ) = PROD . a1
PROD 0 0 100 110 1!0 130
a2
EFF 606225!02-
n ∑ Ln( E F F ) ∑ Ln( D M ) 6 41.5 4!.31
DM 535662!25Su!/o"i!
∑ L n( E F F ) ∑ L n( ∑ ( L n( E F F )) ∑ ( L n ∑ ( L n( E F F ) * L n( D M ) ∑ ( Ln 2
41.5 0.5 0.25
4!.31 0.25 1.06
1.!!600136 41.5102631 .05!!366!1
41.5102631 1.52111! 41.32!2316
.05!!366!1 41.32!2316 !!.22360101
:*y$ al/$&!-($ ,e &ela#!n e)
P"o$)EFFGDM* , 1=117=EFF60393DM60<1=
2. RELACIÓN DE LA PRODUCCIÓN CAPACIDAD NOMIN F ( A, B ) = a 0 A B A = Cn B = Fll F ( A, B ) = PROD . a1
PROD 0 0 100 110 1!0 130
a2
C& 3.!0 .60 5.10 5.50 6.0 20.30
Fll 62253!10010-
S"#$)*+,$ n ∑ Ln(Cn) ∑ Ln( Fll )
∑ Ln(Cn) ∑ L ∑ ( Ln(Cn)) ∑ ( L ∑ ( Ln(Cn) * Ln( Fll ) ∑ ( L 2
6 !.15 40.
!.15 2.3 43.3
40. 43.3 0.!
13!1.6513215! 4316.625633 31.625!65!
4316.6256332 25.050153 426.32026161!
31.625!65! 426.32026161! 3.11213!1
:*y$ al/$&!-($ ,e &ela#!n e)
P"o$)C&GFll* , 02333C&61=9<Fll6-0=923
3. RELACIÓN DE LA PRODUCCIÓN DIS'ANCIA LA PE F ( A, B ) = a 0 A B A = Dist a1
a2
F ( A, B )
=
PROD .
PROD
Dis/
P#&$
0 0 100 110 1!0 130
!620.32 !!6.3 12.2 16.!! 160.3 1!55.2
0.12 0.15 0.1! 0.10 0.0 0.06 Su!/o"i!
∑ L n( D ist ) ∑ ∑ ( L n( D ist )) ∑( ∑ ( L n( D ist ) * L n( P en d ) ∑ (
n ∑ L n( D ist ) ∑ L n( P en d )
2
6 5.0 413.3
5.0 33.! 4100.3
4122.3!133 151.11!36!63 4101.36!151
413.3 4100.3 30.!
151.11!36!63 4101.36!151351 4!13.2!36363 153.6!!!!5 153.6!!!!5 410.0!036
:*y$ al/$&!-($ ,e &ela#!n e)
P"o$)Dis/GP#&$* , 21<3Dis/6-019<P#&$6-0323=
DEL PRODUC'O DE LOS 'RES ALGORI'MOS OB'ENID UE REPRESEN'A LA PRODUCCIÓN HORARIA DEL CA' P"o$63 , 720132EFF60393 > DM60<1= > C&61=9< > Fll6-0=9 P"o$ , 19311 > E..6012 > DM6017 > C&60 Dis/600< > P#&6010 > Fll601<=
D!/os %!"! #l c!so *M. ,. "n. /. $end. "osto de a'ier de "T 222/ =
D,)
PROD. HORABCM
23.33 3.33 60.! 310 3.22
;*)* &BCM
1!3.0 11.5 112.!6 115.36 113.6 11!.63 111.5 110.6 10. 10.1 10.53 102.5
300 500 700 900 1100 1300 1500 1700 1900 2100 2300 2500
0.35 0.32 0.32 0.3 0.3 0.3 0.3 0.0 0.0 0.0 0.0 0.1
GRÁFICO N 130.00 1!5.00 1!0.00 115.00
PRODUCCIÓN HORARIA 110.00 105.00 100.00 5.00 300
500
200
00
110
D#l !&(lisis $#l "(.ico s# o'/i#&# #l %u&/o O%/io Distancia (m) 32.
Punto Optimo Produccion (BCMs) 115
Costos ($/BCMs) 0.3
DOS DEL CAT 777F-11 312 TD TM
TVV
TTC
0:00:36
0:03:07
0:04:44
0:18:05
0:00:45
0:02:17
0:05:02
0:18:04
0:00:44
0:05:52
0:04:17
0:20:29
0:00:42
0:04:52
0:05:14
0:21:12
0:00:32
0:04:45
0:06:54
0:21:48
0:00:43
0:03:57
0:03:47
0:18:10
0:00:40
0:02:54
0:05:17
0:18:43
0:00:39
0:02:58
0:04:34
0:18:16
0:00:48
0:02:06
0:05:03
0:16:43
0:00:39
0:03:07
0:04:50
0:18:02
0:00:34
0:01:33
0:03:54
0:15:33
0:00:32
0:03:29
0:04:06
0:17:12
0:00:53
0:01:58
0:03:51
0:16:37
0:08:47
0:42:55
1:01:33
3:58:54
0:00:41
0:03:18
0:04:44
0:18:23
3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 3000 39000 3000
S# ,
03
23
''C =
− Re paración )
m3 Ton7m83 m. m. 9*
-
Dis/)/s*
18.38
#,(
× 100
*a%a#!,a, ,e la #aa .E 2:1 602 (3 788 y,3
"
Ton7m83 093 i&
DM E *n ll *
= D!)%$n!!l!,a, Me#n!#a = Ef!#!en#!a ,e !e(%$ = *a%a#!,a, n$(!nal ,e la -$la = a#-$& ,e llena,$ = !e(%$ $-al %$& *!#l$
ITMOS
.9 3
DMPROD 1.5 6.1 13.2 !. 3.1 5. 2.6 2.5 1!3.3 15!.3 <2= 5.5 3.5 40.6666666662 1.!1!1!1!1!1
a0 a1
$0 = $1 =
32.5 56.!
1.136868E013 152.27
-
60-
20-
0-
0-
100-
IDAD MECÁNICA
.93
EFFPROD 1.33 5.356 1!.051 !1.3 33.25 .!36 65.6551 5.2536 10.531 133. 1<1 5.5 3.5 40.6666666662 1.!1!1!1!1!1
$0 $1 $0 = $1 =
236.5 515.615
0 133.
20-
0-
0-
100-
× 0.93
FICO 03 TD 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6 0.6
TM 3.30 3.30 3.30 3.30 3.30 3.30 3.30 3.30 3.30 3.30 3.30 3.30
)L&)@**2 30. 3.6! 2.2! 53. 52.22 61.!! 6.10 66.5
L&)@* 1335.6 1!1.15 3.5! 12.12 6.1 611.1 53.6 0.0!
TVV 0.2 1.5 3.15 .23 6.31 2. .6 11.0 1!.61 1.1 15.22 12.3
TTC)i&* . 10.6 1.! 1.32 !!.3! !6.! 30.!3 3.1 3.1 !.0 6.0 50.00
6.2 20.26 2!.5 2.1 70<2<
6.1 10.!3 32.20 353.5 297
1.3 206.!6 40.2365623 0.06251331
000
3500
0.93
C&PROD 20 1156.!5 1665 !!66.!5 !60 326.!5 6!5
000
A B
A= B=
500
112.0 !.2
602.37016756 66.278701%366
5000
5500
556.!5 6660 216.!5 065 1006.!5 110 13366.!5 15 1666.!5 1500 132090
A B
10!0 2100 40.005!35! .03!!,4005
12 13!00
A= B=
0 1.85
%
60
65
20
MINAL DE LA 'OL/A
ll
FllPROD
25
0
5
0
5
100
1.!006 .0! 10.05 1.!06 30.015 3.!!16 5.! 26.3 2.!6 1!0.06 6!.!31 5.5 3.5 40.6666666662 1.!1!1!1!1!1
20-
0-
A B
A= B=
0-
660.33 6!.!31
1.136868E013 120.06
100-
DO
TVC
TD
TM
TVV
TTC)i&*
071
068
330
473
1195
143
068
330
473
1267
214
068
330
473
1338
285
068
330
473
1409
357
068
330
473
1481
428
068
330
473
1552
499
068
330
473
1623
570
068
330
473
1694
642
068
330
473
1766
713
0<
330
=73
137
3
%
5
6
0.000001 0.00000 0.0000!2 0.00006 0.0001!5 0.000!16 0.00033 0.00051! 0.0002! 0.001 0.0030!5
0.00000001 0.00000016 0.0000001 0.00000!56 0.000006!5 0.00001!6 0.0000!01 0.000006 0.00006561 0.0001 0.000!5333
1.000000,410 3.!00000,40 !.30000,40 1.0!000,402 3.1!5000,402 2.226000,402 1.60200,406 3.!2600,406 5.000,406 1.000000,405 !.!0!50,405
1,401! 6.,4011 2.!,4010 .06,400 1.56!5,400 .6656,400 1.126,4002 !.6!1,4002 5.311,4002 0.000001 1.205,4006
1.2! 3.! .60 5.3 6.3 2. .5 .6 10.6 11.12 20.
× 0.93
10 0.55 0.035 0.0030!5 3.2666666662 4!63. 5000 4!2222.22222
2-
-
0.55 0.035 0.0030!5 0.000!5333
0.035 0.0030!5 0.000!5333 !.!0!5,4005
0.0030!5 0.000!5333 !.!0!5,4005 1.205,4006
4!63. 5000.0000000006 4!2222.22222221 !1161.31! 4!2350.!23505 !6323.6320! 4!2350.!2 0036.5032 453103.10 !6323.632 453103.11 3!32503!3.25036
-
10-
A B C D A= B= C= D=
11 P#&$63
?$+$ ?+*";;,*(: @*+$+,$ C. NOMINAL BCM 3.!0 .60 5.10 5.50 6.0 20.30
F. LLENADO 0100 62253!10010-
DIS'ANCIA # !620.32 !!6.3 12.2 16.!! 160.3 1!55.2
PENDIEN'E 617 12151!106-
EAL MLTIPLE
NIBILIDAD MECÁNICA
L&)P"o$* .3 .50 .61 .20 .2 .2
L&)E..* 40.51 40.0 40.! 40.!0 40.11 40.03
L&)DM* 40.63 40.53 40.! 40.33 40.! 40.16
L&)E..*L&)P"o$* 4!.!3 41.0 41.3 40. 40.53 40.15
L&)E..*L&)DM* 0.3! 0.!1 0.1! 0.02 0.03 0.00
27.85
1.5%
2.31
6.
0.75
E F F ) * L n( D M ) ( D M )) 2
D M )
L($0 $1 $2
Ln( a 0 ) ∑ Ln( P RO D) a = ( ( ) * ( ) L n E F F L n P R O D 1 ∑ a 2 ∑ ( L n( D M ) * L n( P RO D) !2.5 46. 410.52
L($0 $1 $2
$0 =
.500 0.353 0.561
1%1.178%
L DE LA 'OL/A EL FAC'OR DE LLENADO
L&)P"o$* .3 .50 .61 .20 .2 .2
L&)C&* 3.22 3. 3. .0 .12 .!5
L&)Fll* 40.0 40.! 40.1 40.0 0.00 0.0
L&)C&*L&)P"o$* 16.50 12. 1.3 1.!1 1. !0.20
L&)C&*L&)Fll* 41.51 41.1! 40.2 40.3 0.00 0.33
27.8%
2%.15
0.88
112.2%
3.38
(Cn) * Ln( Fll ) ( Fll )) 2
( Fll )
L($0 $1 $2 L($0 $1 $2
DIEN'E
∑ Ln( PROD) Ln(a0 ) a = ( Ln ( Cn ) * Ln ( PROD ) ∑ 1 a2 ∑ ( Ln( Fll ) * Ln( PROD) !2. 11!.! 43.! 41.556 1.65 40.!3
$0 =
0.2333
L&)P"o$*
L&)Dis/*
L&)P#&$*
L&)Dis/*L&)P"o$*
L&)Dis/*L&)P#&$*
.3 .50 .61 .20 .2 .2
2. 2.2 2.5 2. 2.! 2.1
41.22 41.0 4!.1! 4!.30 4!.53 4!.1
3.56 3.3 3. 3.2 3.! 3.22
413.2 41.21 416.0 412.11 41. 4!0.06
27.85
%5.0
13.%3
20.0%
100.38
L n( D ist ) * L n( P en d ) 2 n( P en d )) n( P en d )
L($0 $1 $2 L($0 $1 $2
L n( a 0 ) ∑ L n( P R O D) a = L n D ist L n P R O D ( ( ) * ( ) 1 ∑ a 2 L n( P en d ) * L n( P R O D ( ) ∑
!2.5 !0.0 46!.6 5.325 40.156 40.3!3
$0 =
S SE 'ENDRÁ UN ALGORI'MO FINAL 777F 11372 23 > Dis/6019< > P#&$6-0323=
"Ms <7hr.
218.6553
07 PUN'O ÓP'IMO 0.1 0.0 0.3 0.3 0.32 0.36 0.35 0.3 0.33 0
1300
1500
DIS'ANCIA
1200
100
!100
!300
0.3! !500
COS'OS
1 >d83 = 0.2655 m83 1 m83 = 1.25 TM
i&
ndici:n de ,;ca#aci Fácil Mdio Di"%cil
/. 95 - 100 90 - 95 &0 - 90
T Matrial su Matrial #ulto d ta Matrial d 'oladura con
Mu, Di"%cil (ta+la .and+oo)
0 - &0
Matrial d 'oladur
OO HA UE CORREGIR EL 'IEMPO EN MINU'OS DECIMALES SI SE R = 0?0!?3! !.53 min. TC , 0?02?0 2.13 min. '/C = = 'D = = 0?00?1 0.6 min. 'M= = 0?03?1 3.3 min. 0?0? .23 min. '// = = 0?1?!3 1.3 min. ''C = = /:-. C$+9$ = /:-. /$;* =
210.38 317.12
#&#,( #&#,(
1!.6 1.0
K#&@ K#&@
0.1 2.13 0.0 @ @= 0.0;2.13 0.1
2 0.0! 0.06 0.1 0.!3 0.35 0. 0.6! 0.2 0. 1.1! .23 132.3 20. .23 0.36
182.31%860%7 1116.666538118 558.7%033%1308 1%25.6%110%27
3 0.0001212!6 0.001!62! 0.001!0 0.003!!!32 0.01233063! 0.0!52135! 0.03322!1! 0.06!0!5005 0.0261 0.1112320 0.36
: = 2.718281828 10!.31602 !.31602 !.31602 2!.31602 6!.31602 5!.31602
Ae hiBo con e &n de cac'ar a pendiente en a cac'adora
L&)DM*L&)P"o$* 4!.26 4!.3 41. 41.55 41.15 40.2
L&)E..*62 0.30 0.16 0.0 0.0 0.01 0.00
L&)DM*62 0.0 0.! 0.1 0.11 0.06 0.03
10.57
0.5
1.06
L&)Fll*L&)P"o$* 41.25 41.! 40.6 40.3 0.00 0.32
L&)C&*62 1.1 15.0 15.3 16.20 12.1 1.0
L&)Fll*62 0.16 0.0 0.03 0.01 0.00 0.01
3.2
7.38
0.2
L&)P#&$*L&)P"o$*
L&)Dis/*62
L&)P#&$*62
42.25 4.55 4.22 410.1 41!.1! 413.6 46!.6
6!.!5 5.1 52.61 55.35 53.1 50.
3.13 3.61 . 5.! 6.0 2.0
33.2%
30.82
ipo de Materia lto d tama!o uni"orm ma!o intrmdio (tirra arcilla) "ramntacin rlati*amnt +una
con "ramntacin .omona
EALIJAN CAMBIOS
