0432271 LINK & PIN, Middle arm EVINRUDE
BE50DTLEDC, BE50DTLEUR, BE60ELEDR, BE60ELEUA, BE60TLECM, BE70ELECB, BE70ELEDA, BE70ELEUM, E50DTLECA, E50DTLEOS, E50TTLECA, E50TTLEDC, E50TTLEOS, E50TTLEUR, E60ELCCR, E60ELCEA, E60ELEIB, E60ELENE, E60ELEOC, E60ELERS, E60ELESM, E60ELETD, E60TTLECM, E60
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#102691 0432271
2024-07-08
#102686 0432271
2024-07-07
Compatible models:
BE50DTLEDC
BE50DTLEUR
BE60ELEDR
BE60ELEUA
BE60TLECM
BE70ELECB
BE70ELEDA
BE70ELEUM
E50DTLECA
E50DTLEOS
E50TTLECA
E50TTLEDC
E50TTLEOS
E50TTLEUR
E60ELCCR
E60ELCEA
E60ELEIB
E60ELENE
E60ELEOC
E60ELERS
E60ELESM
E60ELETD
E60TTLECM
E60TTLEDR
E60TTLEIB
E60TTLENE
E60TTLEOC
E60TTLERS
E60TTLETD
E60TTLEUA
E65RSLC
E65RSLM
E65RSLZ2
E65WELEES
E65WELSIR
E65WELSSC
E65WMLEIB
E65WMLENE
E65WMLEOC
E65WMLERS
E65WMLESM
E65WMLETD
E65WMLZ
E65WRLEEO
E65WRLSIR
E65WRLSSC
E70ELCEM
E70ELEIE
E70ELEND
E70ELEOR
E70ELERC
E70ELESB
E70ELETS
E70TTLEIE
E70TTLEND
E70TTLEOR
E70TTLERC
E70TTLETS
E75ECCA
SE65RSLD
SE65WMLD
SE65WMLM
SE65WMLZ2
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- INTAKE MANIFOLD » 0432271
BE60ELEDR, BE60TLEDR, E60ELEDR, E60TLEDR 1996
BE60ELEUA, BE60TLEUA, E60ELEUA, E60TLEUA 1997
BE60TLECM, E60TLECM 1998
BE70ELECB, BE70TLECB, E70TLECB 1998
BE70ELEDA, BE70TLEDA, E70TLEDA, HE70TXEDA 1996
BE70ELEUM, BE70TLEUM, E70TLEUM, HE70TXEUM 1997
E50DTLECA 1998
E50DTLEOS, E50ELEOS 1995
E50TTLECA 1998
E50TTLEDC 1996
E50TTLEOS 1995
E50TTLEUR 1997
E60ELCCR, E60TLCCR, E60TTLCCR 1988
E60ELCEA, E60TLCEA, E60TTLCEA, TE60TLCEA, TE60TLESF 1989
E60ELEIB, E60TLEIB, TE60TLEIB, VE60ELEIB, VE60TLEIB 1991
E60ELENE, E60TLENE, TE60TLENE, VE60ELENE, VE60TLENE 1992
E60ELEOC, E60TLEOC 1995
E60ELERS, E60ELERV, E60TLERS, E60TLERV 1994
E60ELESM, E60TLESM, E60TTLESM, TE60TLESF, TE60TLESM, VE60ELESM, VE60TLESM 1990
E60ELETD, E60TLETD, TE60TLETD, VE60ELETD 1993
E60TTLECM 1998
E60TTLEDR 1996
E60TTLEIB 1991
E60TTLENE 1992
E60TTLEOC 1995
E60TTLERS, E60TTLERV 1994
E60TTLETD 1993
E60TTLEUA 1997
E65RSLC 1995
E65RSLM, SE65RSLM, SE65RSYM 1996
E65RSLZ2, SE65RSLZ2, SE65RSYZ2 1997
E65WELEES 1999
E65WELSIR 2001
E65WELSSC 2000
E65WMLEIB 1991
E65WMLENE 1992
E65WMLEOC 1995
E65WMLERS 1994
E65WMLESM 1990
E65WMLETD 1993
E65WMLZ 1989
E65WRLEEO, E65WRLEES, E65WRYEEO, E65WRYEES 1999
E65WRLSIR, E65WRYSIR 2001
E65WRLSSC, E65WRYSSC 2000
E70ELCEM, E70TLCEM, TE70TLCEM, TE70TLESF 1989
E70ELEIE, E70TLEIE, VE70ELEIE, VE70TLEIE 1991
E70ELEND, E70TLEND, VE70ELEND, VE70TLEND 1992
E70ELEOR, E70TLEOR 1995
E70ELERC, E70ELERV, E70TLERC, E70TLERV 1994
E70ELESB, E70TLESB, TE70TLESB, TE70TLESF, VE70ELESB, VE70TLESB 1990
E70ELETS, E70TLETS, VE70ELETS, VE70TLETS 1993
E70TTLEIE 1991
E70TTLEND 1992
E70TTLEOR 1995
E70TTLERC, E70TTLERV 1994
E70TTLETS 1993
E75ECCA 1988
SE65RSLD, SE65RSYD 1998
SE65WMLD, SE65WMYD 1998
SE65WMLM, SE65WMYM 1996
SE65WMLZ2, SE65WMYZ2 1997
Information:
Service Hours and Fuel Consumption
Experience has shown that maintenance intervals are most accurately based on fuel consumption. Fuel consumption corresponds more accurately to the engine load. Table 1 lists fuel consumption and service hours for a load factor of approximately 35 percent. Use fuel consumption or service hours, whichever comes first to determine overhaul intervals.
Table 1
Overhaul Interval Schedule
Service Hours and Fuel Consumption for the C175 Locomotive Engine(1)(2)
Interval Rated 1501 RPM to 1800 RPM
Overhaul (Intermediate) 18000 Service Hours
4921033 L (1300000 US gal)
Overhaul (Major) 36000 Service Hours
9842066 L (2600000 US gal)
(1) Fuel consumption is based on a load factor of approximately 35 percent. If average load factor exceeds 35 percent, life to overhaul will be shortened proportionately.
(2) Maximum Intermediate or Major Overhaul limit is restricted to 24000 Service Hours.Use the actual records of fuel consumption, when possible. If the actual records are not available, use the following procedure to estimate the fuel consumption.
Estimate the average percent of the load for the operation of the engine.
Refer to the fuel consumption data in the Technical Marketing Information (TMI) for your engine. Use this figure as variable "F" for the equation in Table 2. For more information about the Technical Marketing Information (TMI) for your engine, consult your Cat dealer.
Table 2
Equation For Calculating Overhaul Intervals
F/R = H
“F” is the estimated total amount of fuel consumption of the engine.
“R” is the rate of fuel consumption in liters per hour or gallons per hour.
“H” is the number of estimated hours until the overhaul interval. Oil Consumption as an Overhaul Indicator
Oil consumption, fuel consumption, and maintenance information can be used to estimate the total operating cost for your Cat engine. Oil consumption can also be used to estimate the required capacity of a makeup oil tank that is suitable for the maintenance intervals.Oil consumption is in proportion to the percentage of the rated engine load. As the percentage of the engine load is increased, the amount of oil that is consumed per hour also increases.The oil consumption rate (brake-specific oil consumption) is measured in grams per kW/h (lb per bhp). The brake-specific oil consumption (BSOC) depends on the engine load. Consult your Cat dealer for assistance in determining the typical oil consumption rate for your engine.When an engine oil consumption has risen to three times the original oil consumption rate due to normal wear, an engine overhaul should be scheduled. There may be a corresponding increase in blowby and a slight increase in fuel consumption.Severe Operation
Severe operation is the use of an engine that exceeds current published standards for that engine. Caterpillar maintains standards for the following engine parameters:
Horsepower
Range of rpm
Fuel consumption
Fuel quality
Altitude
Maintenance intervals
Selection of oil
Selection of coolant
Environmental qualities
InstallationRefer to the standards for your engine or consult your Cat dealer to determine if your engine is operating within the defined parameters.Severe operation can accelerate component wear. Engines that are operating under severe conditions may need more frequent maintenance intervals for the following reasons:
Maximum reliability
Retention of full service lifeBecause of individual applications, identifying all the factors which can contribute to severe operation may not be possible. Consult your Cat dealer about the maintenance that is needed for your specific engine.The following factors can contribute to severe operation: environment, improper operating procedures, and improper maintenance practices.Environmental Factors
Extreme Ambient Temperatures
Extended operation in environments that are cold or hot can damage components. Valve components can be damaged by carbon buildup if the engine is frequently started and stopped in cold temperatures. Hot inlet air reduces the performance capabilities of the engine.Note: See this Operation and Maintenance Manual, "Cold-Weather Operation" topic (Operation Section), or see Special Publication, SEBU5898, "Cold-Weather Recommendations".Cleanliness
Unless the equipment is cleaned regularly, extended operation in a dirty environment and in a dusty environment can damage components. Built up mud, dirt, and dust can encase components. These conditions can make maintenance difficult. The buildup can contain corrosive chemicals. Corrosive chemicals and salt can damage some components.The high-pressure fuel system is sensitive to debris. The debris can lead to early erosion and replacement for many of the high-pressure fuel system components and lack of performance. Caution should be taken by covering any fuel system opening during maintenance with a CLEAN cover. Refer to Special Instruction, SEBF9107, "CR1100 Fuel System Flushing Procedure" and Special Instruction, SEBF9109, "CR1100 Fuel System Assembly and Handling Guidelines" for information on handling and assembling fuel system components.Improper Operating Procedures
Extended operation at low idle
Minimum cool down periods after high load factor operation
Operating the engine beyond the guidelines for the engine rating
Operating the engine at loads that are greater than the rated load
Operating the engine at speeds that are greater than the rated speed
Use of the engine for an application that is not approvedImproper Maintenance Practices
Extension of maintenance intervals
Not using recommended fuel, lubricants, and coolant/antifreeze
Experience has shown that maintenance intervals are most accurately based on fuel consumption. Fuel consumption corresponds more accurately to the engine load. Table 1 lists fuel consumption and service hours for a load factor of approximately 35 percent. Use fuel consumption or service hours, whichever comes first to determine overhaul intervals.
Table 1
Overhaul Interval Schedule
Service Hours and Fuel Consumption for the C175 Locomotive Engine(1)(2)
Interval Rated 1501 RPM to 1800 RPM
Overhaul (Intermediate) 18000 Service Hours
4921033 L (1300000 US gal)
Overhaul (Major) 36000 Service Hours
9842066 L (2600000 US gal)
(1) Fuel consumption is based on a load factor of approximately 35 percent. If average load factor exceeds 35 percent, life to overhaul will be shortened proportionately.
(2) Maximum Intermediate or Major Overhaul limit is restricted to 24000 Service Hours.Use the actual records of fuel consumption, when possible. If the actual records are not available, use the following procedure to estimate the fuel consumption.
Estimate the average percent of the load for the operation of the engine.
Refer to the fuel consumption data in the Technical Marketing Information (TMI) for your engine. Use this figure as variable "F" for the equation in Table 2. For more information about the Technical Marketing Information (TMI) for your engine, consult your Cat dealer.
Table 2
Equation For Calculating Overhaul Intervals
F/R = H
“F” is the estimated total amount of fuel consumption of the engine.
“R” is the rate of fuel consumption in liters per hour or gallons per hour.
“H” is the number of estimated hours until the overhaul interval. Oil Consumption as an Overhaul Indicator
Oil consumption, fuel consumption, and maintenance information can be used to estimate the total operating cost for your Cat engine. Oil consumption can also be used to estimate the required capacity of a makeup oil tank that is suitable for the maintenance intervals.Oil consumption is in proportion to the percentage of the rated engine load. As the percentage of the engine load is increased, the amount of oil that is consumed per hour also increases.The oil consumption rate (brake-specific oil consumption) is measured in grams per kW/h (lb per bhp). The brake-specific oil consumption (BSOC) depends on the engine load. Consult your Cat dealer for assistance in determining the typical oil consumption rate for your engine.When an engine oil consumption has risen to three times the original oil consumption rate due to normal wear, an engine overhaul should be scheduled. There may be a corresponding increase in blowby and a slight increase in fuel consumption.Severe Operation
Severe operation is the use of an engine that exceeds current published standards for that engine. Caterpillar maintains standards for the following engine parameters:
Horsepower
Range of rpm
Fuel consumption
Fuel quality
Altitude
Maintenance intervals
Selection of oil
Selection of coolant
Environmental qualities
InstallationRefer to the standards for your engine or consult your Cat dealer to determine if your engine is operating within the defined parameters.Severe operation can accelerate component wear. Engines that are operating under severe conditions may need more frequent maintenance intervals for the following reasons:
Maximum reliability
Retention of full service lifeBecause of individual applications, identifying all the factors which can contribute to severe operation may not be possible. Consult your Cat dealer about the maintenance that is needed for your specific engine.The following factors can contribute to severe operation: environment, improper operating procedures, and improper maintenance practices.Environmental Factors
Extreme Ambient Temperatures
Extended operation in environments that are cold or hot can damage components. Valve components can be damaged by carbon buildup if the engine is frequently started and stopped in cold temperatures. Hot inlet air reduces the performance capabilities of the engine.Note: See this Operation and Maintenance Manual, "Cold-Weather Operation" topic (Operation Section), or see Special Publication, SEBU5898, "Cold-Weather Recommendations".Cleanliness
Unless the equipment is cleaned regularly, extended operation in a dirty environment and in a dusty environment can damage components. Built up mud, dirt, and dust can encase components. These conditions can make maintenance difficult. The buildup can contain corrosive chemicals. Corrosive chemicals and salt can damage some components.The high-pressure fuel system is sensitive to debris. The debris can lead to early erosion and replacement for many of the high-pressure fuel system components and lack of performance. Caution should be taken by covering any fuel system opening during maintenance with a CLEAN cover. Refer to Special Instruction, SEBF9107, "CR1100 Fuel System Flushing Procedure" and Special Instruction, SEBF9109, "CR1100 Fuel System Assembly and Handling Guidelines" for information on handling and assembling fuel system components.Improper Operating Procedures
Extended operation at low idle
Minimum cool down periods after high load factor operation
Operating the engine beyond the guidelines for the engine rating
Operating the engine at loads that are greater than the rated load
Operating the engine at speeds that are greater than the rated speed
Use of the engine for an application that is not approvedImproper Maintenance Practices
Extension of maintenance intervals
Not using recommended fuel, lubricants, and coolant/antifreeze
Parts link EVINRUDE:
0316610
0316610 LINK,Reverse lock
60172C, 65272S, 65372R, 70442M, 70572B, 70773S, 70873C, 70973R, 75542B, 75642D, E60ELCDS, E60ELCUC, E70ELCIH, E70ELCNB, E70ELCOS, E70ELCRD, E70ELCSA, E70ELCTE, E75ECCA, E75ECDC, E75ECOS, E75ECRD, E75ECUR, E75ERCIH, E75ERCNB, E75ERCSA, E75ERCTE
0323369
0323369 LINK, Anchor
100990S, 10824M, 10924B, 115890C, 150840S, 150940C, 25802C, 25904R, 4806E, 50902C, 55874S, 6804B, 6904E, 70873C, 70973R, E100MLCSC, E100STLCCA, E100STLCEM, E100STLEIE, E100STLEND, E100STLESB, E100STLETS, E10ECCD, E10ECDB, E10ECES, E10ECOM, E10ECSE, E
0330275
0330275 LINK, Spark advance
E60ELCCR, E60ELCDS, E60ELCUC, E65WMLCDR, E65WMLCOC, E70ELCOS, E70ELCRD, E75ECCA, E75ECDC, E75ECOS, E75ECRD, E75ECUR
0332180
0332180 LINK, Spark advance
E60ELCEA, E60ELESM, E65WMLCUA, E65WMLESM, E65WMLZ, E70ELCCA, E70ELCDC, E70ELCEM, E70ELCUR, E70ELESB, T65WMLM
0332875
0332875 LINK, Reverse lock, port
BE115TLEDA, BE50DTLEDC, BE50DTLEUR, BE60ELEDR, BE60ELEUA, BE60TLECM, BE70ELECB, BE70ELEDA, BE70ELEUM, E100STLCEM, E100STLEIE, E100STLEND, E100STLERC, E100STLESB, E100STLETS, E105WELEEN, E105WELSIF, E105WELSSC, E105WRLEES, E105WRLSIF, E105WRLSSC, E110
0332687
0332687 LINK, Reverse lock, starboard
BE115TLEDA, BE50DTLEDC, BE50DTLEUR, BE60ELEDR, BE60ELEUA, BE60TLECM, BE70ELECB, BE70ELEDA, BE70ELEUM, E100STLCCA, E100STLCEM, E100STLEIE, E100STLEND, E100STLERC, E100STLESB, E100STLETS, E105WELEEN, E105WELSIF, E105WELSSC, E105WRLEES, E105WRLSIF, E105
0336491
0336491 LINK, Dwell
BE50DTLEDC, BE50DTLEUR, BE60ELEDR, BE60ELEUA, BE60TLECM, BE70ELECB, BE70ELEDA, BE70ELEUM, E50DTLECA, E50DTLEOS, E60ELEIB, E60ELENE, E60ELEOC, E60ELERS, E60ELETD, E65WELEES, E65WELSIR, E65WELSSC, E65WMLEIB, E65WMLENE, E65WMLEOC, E65WMLERS, E65WMLETD,
0336424
0336424 LINK, Throttle lever to cam
BE50DTLEDC, BE50DTLEUR, BE60ELEDR, BE60ELEUA, BE60TLECM, BE70ELECB, BE70ELEDA, BE70ELEUM, E50DTLECA, E50DTLEOS, E60ELEIB, E60ELENE, E60ELEOC, E60ELERS, E60ELETD, E65WELEES, E65WELSIR, E65WELSSC, E65WMLEIB, E65WMLENE, E65WMLEOC, E65WMLERS, E65WMLETD,