0326956 O-RING,Shift rod,lower EVINRUDE
BE2REDE, BE2REUD, BE3ROEDE, BE3ROEUD, E25RCSA, E2RECS, E2ROEOB, E2WREES, E2WRSIR, E2WRSSC, E35ECIG, E35ECND, E35ECSM, E3ROECS, E3ROEOB, E3ROSIA, E3ROSSR, E3WREES, E3WRSIR, E3WRSSC, E40DELSDA, E40DELSOR, E40DELSRC, E40DRLAAA, E40DRLABA, E40DRLIIS, E40
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Price: query
Rating:
Compatible models:
BE2REDE
BE2REUD
BE3ROEDE
BE3ROEUD
E25RCSA
E2RECS
E2ROEOB
E2WREES
E2WRSIR
E2WRSSC
E35ECIG
E35ECND
E35ECSM
E3ROECS
E3ROEOB
E3ROSIA
E3ROSSR
E3WREES
E3WRSIR
E3WRSSC
E40DELSDA
E40DELSOR
E40DELSRC
E40DRLAAA
E40DRLABA
E40DRLIIS
E40DRLINC
E40DRLISD
E40DRLISF
E40DRLSCB
E40DRLSDA
E40DRLSEE
E40DRLSOR
E40DRLSRC
E40DRLSUM
E55MJRLAAA
E55MJRLIIM
E55MJRLINB
E55MJRLISA
E55MJRLSCC
E55MJRLSEF
E55MJRLSER
E55MRLAAA
E55MRLIIM
E55MRLINB
E55MRLISA
E55MRLSCC
E55MRLSEF
E55MRLSER
E60WDRLSOS
E65WDRLIIA
E65WDRLINM
E65WDRLISF
E65WDRLISR
E65WDRLSCS
E65WDRLSEC
HE2DRETC
HE3REIC
HE3RENR
HE3RETC
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- STERN BRACKET & SWIVEL BRACKET » 0326956
BE3ROEDE, E3ROEDE, HE3ROEDE, HE3RSA, SE3ROEDE 1996
BE3ROEUD, E3ROEUD, HE3ROEUD, HE3RSK, SE3ROEUD 1997
E25RCSA, E25RLCSA, E25TECSA, E25TELCSA 1980
E2RECS, E2RSS 1998
E2ROEOB 1995
E2WREES 1999
E2WRSIR 2001
E2WRSSC 2000
E35ECIG, E35ELCG, E35ELCIG, E35RCIG, E35RLCIG 1981
E35ECND, E35ELCND, E35RCND, E35RLCND, E35TELCNB 1982
E35ECSM, E35ELCSM, E35TCSM, E35TLESM 1980
E3ROECS, E3ROLECS, E3RSS 1998
E3ROEOB 1995
E3ROSIA 2001
E3ROSSR 2000
E3WREES 1999
E3WRSIR 2001
E3WRSSC 2000
E40DELSDA 2006
E40DELSOR 2004,2005
E40DELSRC 2004
E40DRLAAA 2012
E40DRLABA, E40DRMLABA 2012
E40DRLIIS 2011
E40DRLINC 2012
E40DRLISD 2010
E40DRLISF 2010
E40DRLSCB 2008
E40DRLSDA 2006
E40DRLSEE 2009
E40DRLSOR 2004,2005
E40DRLSRC 2004
E40DRLSUM 2007
E55MJRLAAA 2012
E55MJRLIIM 2011
E55MJRLINB 2012
E55MJRLISA 2010
E55MJRLSCC 2008
E55MJRLSEF 2009
E55MJRLSER 2009
E55MRLAAA 2012
E55MRLIIM 2011
E55MRLINB 2012
E55MRLISA 2010
E55MRLSCC 2008
E55MRLSEF 2009
E55MRLSER 2009
E60WDRLSOS, E60WDRYSOS 2004,2005
E65WDRLIIA, E65WDRYIIA 2011
E65WDRLINM, E65WDRYINM 2012
E65WDRLISF, E65WDRYISF 2010
E65WDRLISR, E65WDRYISR 2010
E65WDRLSCS, E65WDRYSCS 2008
E65WDRLSEC, E65WDRYSEC 2009
HE2DRERM, HE2DRETC 1993,1994
HE3REIC 1991
HE3RENR 1992
HE3RERM, HE3RETC 1993,1994
Information:
Caterpillar has developed a maintenance management tool that evaluates oil degradation and detects the early signs of wear on internal components. The Caterpillar tool for oil analysis is called S O S oil analysis and the tool is part of the S O S Services program. S O S oil analysis divides oil analysis into four categories:
Component wear rate
Oil condition
Oil contamination
Oil identificationComponent Wear Rate analysis evaluates the wear that is taking place inside the lubricated compartment. The S O S Services analyst uses the results of elemental analysis and particle count tests to evaluate the wear. Trend analysis and proprietary wear tables are then used to determine if wear rates are normal or abnormal.Oil Condition analysis is used to determine if the oil has degraded. Tests are done to look at the oxidation, sulfation, and viscosity of the oil. The S O S Services analyst uses established guidelines or trend analysis to determine if the oil has reached the end of its useful life.Oil Contamination tests are performed to determine if anything harmful has entered the oil. This analysis relies on the results from the following tests: elemental analysis, soot, particle count, fuel dilution, water, and glycol. The S O S Services program has guidelines for the levels of contamination that are allowed in Cat engines.Oil Identification is another very important part of the S O S oil analysis program. The wrong oil in an engine can severely damage major components. The S O S Services analyst uses elemental analysis and viscosity results to identify key characteristics of the oils.These four types of analysis are used to monitor the condition of your equipment, and to help you identify potential problems. A properly administered S O S Services oil analysis program will reduce repair costs and the program will lessen the impact of downtime.The S O S oil analysis program uses a wide range of tests to determine the condition of the oil and the condition of the lubricated compartment.Guidelines that are based on experience and a correlation to failures have been established for these tests. See the following chart for the guidelines. Exceeding one or more of these guidelines could indicate serious fluid degradation or a pending component failure. A trained person at your Caterpillar dealership should make the final analysis.Note: Cooling system problems will also reduce the life of engines. S O S coolant analysis together with S O S oil analysis provide a complete and accurate method for monitoring the health of all engine systems. Refer to the S O S Services coolant analysis information in this publication. A properly administered S O S Services program will reduce repair costs and lessen the impact of downtime.
Table 1
S O S Oil Analysis Guidelines    
Test Parameter     Guideline    
Oxidation     (1)    
Soot     (1)    
Sulfation     (1)    
Wear Metals     Trend Analysis and Cat Wear Table (1) norms    
Water     0.5% maximum    
Glycol     0%    
Fuel Dilution     Based on viscosity (1) and GC (2) fuel dilution in excess of 4%    
Viscosity "ASTM D445" measured at 100° C (212° F)     +/-3 centistokes (cSt) change from new oil viscosity.    
( 1 ) Acceptable values for these parameters are proprietary to the S O S oil analysis program.
( 2 ) Gas ChromatographConsult your Caterpillar dealer for complete information and assistance about the S O S oil analysis program.Obtaining S O S Oil Samples
Before you obtain an S O S oil sample, operate the engine until the oil is warm and the oil is well circulated. Then obtain the S O S oil sample.In order to obtain a good oil sample, do not take the oil sample from the drain stream. The drain stream method can allow a stream of dirty oil from the bottom of the compartment to contaminate the sample. Likewise, never dip an oil sample from an oil container or pour a sample from a used filter.There are two acceptable ways to obtain S O S oil samples. The following methods are listed in the order that is preferred:
Use an in-line sampling valve on the pressurized oil manifold.
Use a sampling gun (vacuum pump) that is inserted into the sump.Use of the in-line sampling valve is the preferred method. This method provides samples that are less likely to be contaminated. In order to obtain an oil sample from the engine, it may be necessary to increase the engine's speed. Normally, the oil sample is taken at low idle. If the flow rate is too low, increase engine speed to high idle in order to obtain the oil sample.
Do not use the same vacuum sampling pump for extracting oil samples that is used for extracting coolant samples.A small residue of either type sample may remain in the pump and may cause a false positive analysis for the sample being taken.Always use a separate pump for oil sampling and a separate pump for coolant sampling.Failure to do so may cause a false analysis which could lead to customer and dealer concerns.
Oil Sampling Interval
Take the oil samples as close as possible to the standard intervals. In order to receive the full value from S O S oil analysis, you must establish a consistent trend of data. In order to establish pertinent history of data, perform consistent oil samplings that are evenly spaced.
Table 2
Compartment     Engine    
Recommended Sampling Interval    
24140 kilometers (15000 miles)
(1) (2)    
Sampling Valve     Yes    
Oil Type     DEO, DEO-ULS    
Recommended Oil Change Interval     (3)    
( 1 ) Under certain conditions, the Caterpillar dealer or the Operation and Maintenance Manual may allow a longer interval between oil samplings.
( 2 ) Severe applications may require a more frequent sampling interval.
( 3 ) Consult the Operation and Maintenance Manual that came with your engine for the recommended oil change intervals.Consult your Caterpillar dealer for complete information and assistance in establishing an S O S Services program for your equipment.More
Component wear rate
Oil condition
Oil contamination
Oil identificationComponent Wear Rate analysis evaluates the wear that is taking place inside the lubricated compartment. The S O S Services analyst uses the results of elemental analysis and particle count tests to evaluate the wear. Trend analysis and proprietary wear tables are then used to determine if wear rates are normal or abnormal.Oil Condition analysis is used to determine if the oil has degraded. Tests are done to look at the oxidation, sulfation, and viscosity of the oil. The S O S Services analyst uses established guidelines or trend analysis to determine if the oil has reached the end of its useful life.Oil Contamination tests are performed to determine if anything harmful has entered the oil. This analysis relies on the results from the following tests: elemental analysis, soot, particle count, fuel dilution, water, and glycol. The S O S Services program has guidelines for the levels of contamination that are allowed in Cat engines.Oil Identification is another very important part of the S O S oil analysis program. The wrong oil in an engine can severely damage major components. The S O S Services analyst uses elemental analysis and viscosity results to identify key characteristics of the oils.These four types of analysis are used to monitor the condition of your equipment, and to help you identify potential problems. A properly administered S O S Services oil analysis program will reduce repair costs and the program will lessen the impact of downtime.The S O S oil analysis program uses a wide range of tests to determine the condition of the oil and the condition of the lubricated compartment.Guidelines that are based on experience and a correlation to failures have been established for these tests. See the following chart for the guidelines. Exceeding one or more of these guidelines could indicate serious fluid degradation or a pending component failure. A trained person at your Caterpillar dealership should make the final analysis.Note: Cooling system problems will also reduce the life of engines. S O S coolant analysis together with S O S oil analysis provide a complete and accurate method for monitoring the health of all engine systems. Refer to the S O S Services coolant analysis information in this publication. A properly administered S O S Services program will reduce repair costs and lessen the impact of downtime.
Table 1
S O S Oil Analysis Guidelines    
Test Parameter     Guideline    
Oxidation     (1)    
Soot     (1)    
Sulfation     (1)    
Wear Metals     Trend Analysis and Cat Wear Table (1) norms    
Water     0.5% maximum    
Glycol     0%    
Fuel Dilution     Based on viscosity (1) and GC (2) fuel dilution in excess of 4%    
Viscosity "ASTM D445" measured at 100° C (212° F)     +/-3 centistokes (cSt) change from new oil viscosity.    
( 1 ) Acceptable values for these parameters are proprietary to the S O S oil analysis program.
( 2 ) Gas ChromatographConsult your Caterpillar dealer for complete information and assistance about the S O S oil analysis program.Obtaining S O S Oil Samples
Before you obtain an S O S oil sample, operate the engine until the oil is warm and the oil is well circulated. Then obtain the S O S oil sample.In order to obtain a good oil sample, do not take the oil sample from the drain stream. The drain stream method can allow a stream of dirty oil from the bottom of the compartment to contaminate the sample. Likewise, never dip an oil sample from an oil container or pour a sample from a used filter.There are two acceptable ways to obtain S O S oil samples. The following methods are listed in the order that is preferred:
Use an in-line sampling valve on the pressurized oil manifold.
Use a sampling gun (vacuum pump) that is inserted into the sump.Use of the in-line sampling valve is the preferred method. This method provides samples that are less likely to be contaminated. In order to obtain an oil sample from the engine, it may be necessary to increase the engine's speed. Normally, the oil sample is taken at low idle. If the flow rate is too low, increase engine speed to high idle in order to obtain the oil sample.
Do not use the same vacuum sampling pump for extracting oil samples that is used for extracting coolant samples.A small residue of either type sample may remain in the pump and may cause a false positive analysis for the sample being taken.Always use a separate pump for oil sampling and a separate pump for coolant sampling.Failure to do so may cause a false analysis which could lead to customer and dealer concerns.
Oil Sampling Interval
Take the oil samples as close as possible to the standard intervals. In order to receive the full value from S O S oil analysis, you must establish a consistent trend of data. In order to establish pertinent history of data, perform consistent oil samplings that are evenly spaced.
Table 2
Compartment     Engine    
Recommended Sampling Interval    
24140 kilometers (15000 miles)
(1) (2)    
Sampling Valve     Yes    
Oil Type     DEO, DEO-ULS    
Recommended Oil Change Interval     (3)    
( 1 ) Under certain conditions, the Caterpillar dealer or the Operation and Maintenance Manual may allow a longer interval between oil samplings.
( 2 ) Severe applications may require a more frequent sampling interval.
( 3 ) Consult the Operation and Maintenance Manual that came with your engine for the recommended oil change intervals.Consult your Caterpillar dealer for complete information and assistance in establishing an S O S Services program for your equipment.More
Parts o EVINRUDE:
0301877
0301877 "O" RING, Shift rod
10424G, 10524C, 10624G, 10724A, 10824M, 10924B, 15404G, 15504C, 15604A, 18002C, 18102S, 18202R, 18304A, 18802A, 18902B, 25002C, 25102S, 25202R, 25302A, 25402M, 25502B, 25602E, 25702H, 25802C, 25902B, 25904R, 33002M, 33802M, 33902A, 35602G, 40002A, 40
0313754
0313754 "O" RING, Upper bearing
40404S, 40504C, 40604A, 50172S, 50202C, 50302R, 50442M, 50542B, 50902C, 55642E, 55772D, 55872A, 55874S, 55972A, 60072B, 60172C, 65272S, 65372R, 70442M, 70572B, 70673D, 70773S, 70873C, 70973R, 75542B, 75642D, BE25ARECA, BE25AREDC, BE25AREUR, BE35ARECR
0314728
0314728 "O" RING, Driveshaft bearing
100193A, 100293R, 100990S, 115083D, 115393M, 115493B, 115593, 115693D, 115790S, 115793S, 115890C, 115983E, 125183C, 125283R, 135383M, 135443B, 135543E, 135643D, 150840S, 150940C, 175740S, 200640S, 85093B, 85193A, 85293R, 85393M, 85493B, 85593E, 85693
0317178
0317178 "O' RING
100193A, 100293R, 100990S, 115393M, 115493B, 115593, 115693D, 115790S, 115793S, 115890C, 125183C, 125283R, 135383M, 135443B, 135543E, 135643D, 150840S, 150940C, 175740S, 200640S, 25702H, 25802C, 25904R, 35602G, 50202C, 50302R, 50442M, 50542B, 50902C,
0318372
0318372 "O" RING, Shift rod
100990S, 115393M, 115493B, 115593, 115693D, 115790S, 115793S, 115890C, 135383M, 135443B, 135543E, 135643D, 150840S, 150940C, 175740S, 200640S, 50302R, 50442M, 50542B, 50902C, 55642E, 55772D, 55874S, 65372R, 70442M, 70572B, 70673D, 70773S, 70873C, 709
0321163
0321163 O-RING,Motor & reservoir to manifold
100990S, 115790S, 115890C, 150840S, 150940C, 175740S, 200640S, BE115ELEDR, BE115ELEUA, BE115GLECM, BE115TLEDA, BE130TLECE, BE130TLEDM, BE130TLEUB, BE150ELECD, BE150ELEDB, BE150ELEUC, BE175EXECD, BE175EXEDB, BE175EXEUC, BE200CXECM, BE200CXEDR, BE200CX
0319662
0319662 O-RING,End cap
100990S, 115790S, 115890C, 150840S, 150940C, 175740S, 200640S, 25702H, 25802C, 25904R, 35602G, B25JREUR, BE20SEECB, BE20SEEDA, BE20SEEUM, BE20SRECB, BE20SREDA, BE20SREUM, BE250CXECB, BE250CXEDA, BE250CXEUM, BE25BAECM, BE25BAEDR, BE25EECE, BE25EEDM, B
0331188
0331188 O-RING, Cover
BE115ELEDR, BE115ELEUA, BE115GLECM, BE115TLEDA, BE130TLECE, BE130TLEDM, BE130TLEUB, BE150ELECD, BE150ELEDB, BE150ELEUC, BE175EXECD, BE175EXEDB, BE175EXEUC, BE200CXECM, BE200CXEDR, BE200CXEUA, BE225CXECS, BE225CXEDE, BE225CXEUD, BE250CXECB, BE250CXEDA