0432970 PISTON, Stbd. standard EVINRUDE
BE250CXECB, BE250CXEDA, BE250CXEUM, E120TLCEM, E120TLEIE, E120TLEND, E120TLERC, E120TLESB, E120TLETF, E125ESXENR, E125ESXERK, E125ESXESS, E125ESXETA, E125ESXW, E140CXARC, E140CXATF, E140CXCEC, E140CXEIA, E140CXENM, E140CXESR, E250CXARC, E250CXATF, E2
PISTON
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RAREELECTRICAL New Piston Kit Is Compatible With Johnson/Evinrude 120-300 Hp 88-04 Looper Starboard Standard 2000-2003 By Part 100-135Sk 0432073 0432970 0435576 5006672 5006676 5006685
Rareelectrical Rareelectrical Brand Compatible with Johnson / Evinrude || Replaces: Manufacturer Part Number: 100-135SKOEM Interchange Part Number 1: 0432073OEM Interchange Part Number 2: 0432970OEM Interchange Part Number 3: 0435576OEM Interchange Part Number 4: 5006672OEM Interchange Part Number 5: 5006676OEM Interchange Part Number 6: 5006685 ... || Full One Year Warranty || Computer tested for consistent Quality and unsurpassed reliability || Piston Kit - Source: Aftermarket
Rareelectrical Rareelectrical Brand Compatible with Johnson / Evinrude || Replaces: Manufacturer Part Number: 100-135SKOEM Interchange Part Number 1: 0432073OEM Interchange Part Number 2: 0432970OEM Interchange Part Number 3: 0435576OEM Interchange Part Number 4: 5006672OEM Interchange Part Number 5: 5006676OEM Interchange Part Number 6: 5006685 ... || Full One Year Warranty || Computer tested for consistent Quality and unsurpassed reliability || Piston Kit - Source: Aftermarket
RAREELECTRICAL New Piston Kit Compatible With Johnson/Evinrude 120-300 Hp 88-04 Looper Starboard Standard 2000-2003 By Part 100-135Sk 0432073 0432970 0435576 5006672 5006676 5006685
Rareelectrical Rareelectrical Brand Compatible with Johnson / Evinrude || Replaces: Manufacturer Part Number: 100-135SKOEM Interchange Part Number 1: 0432073OEM Interchange Part Number 2: 0432970OEM Interchange Part Number 3: 0435576OEM Interchange Part Number 4: 5006672OEM Interchange Part Number 5: 5006676OEM Interchange Part Number 6: 5006685 ... || Full One Year Warranty || Computer tested for consistent Quality and unsurpassed reliability || Piston Kit - Source: Aftermarket
Rareelectrical Rareelectrical Brand Compatible with Johnson / Evinrude || Replaces: Manufacturer Part Number: 100-135SKOEM Interchange Part Number 1: 0432073OEM Interchange Part Number 2: 0432970OEM Interchange Part Number 3: 0435576OEM Interchange Part Number 4: 5006672OEM Interchange Part Number 5: 5006676OEM Interchange Part Number 6: 5006685 ... || Full One Year Warranty || Computer tested for consistent Quality and unsurpassed reliability || Piston Kit - Source: Aftermarket
$54.95
13-09-2017
2.00[0.90] pounds
OMC: OMC
0432970 5006676 Johnson Evinrude Piston STBD 120-300hp
OMC||0432970, 5006676, 432970||Used, no scratches||1989-1998||120-300hp
OMC||0432970, 5006676, 432970||Used, no scratches||1989-1998||120-300hp
Number on catalog scheme: 23
Compatible models:
BE250CXECB
BE250CXEDA
BE250CXEUM
E120TLCEM
E120TLEIE
E120TLEND
E120TLERC
E120TLESB
E120TLETF
E125ESXENR
E125ESXERK
E125ESXESS
E125ESXETA
E125ESXW
E140CXARC
E140CXATF
E140CXCEC
E140CXEIA
E140CXENM
E140CXESR
E250CXARC
E250CXATF
E250CXEIE
E250CXEND
E250CXEOR
E300CXCEM
E300CXEIE
E300CXEND
E300CXEOR
E300CXERC
E300CXESB
E300CXETF
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- CRANKSHAFT & PISTON » 0432970
BE250CXEUM, BE250TXEUM 1997
E120TLCEM, E120TXCEM, TE120TXCEM 1989
E120TLEIE, E120TXEIE, VE120TLEIE, VE120TXEIE 1991
E120TLEND, E120TXEND, VE120TLEND, VE120TXEND 1992
E120TLERC, E120TLERK, E120TXARC, E120TXARK, E120TXERC, E120TXERK 1994
E120TLESB, E120TXESB, VE120TLESB, VE120TXESB 1990
E120TLETF, E120TLETS, E120TXATF, E120TXATS, E120TXETF, E120TXETS, VE120TLETF, VE120TLETS, VE120TXETF, VE120TXETS 1993
E125ESXENR 1992
E125ESXERK 1994
E125ESXESS 1990
E125ESXETA, E125ESXETF 1993
E125ESXW 1989
E140CXARC, E140CXARK, E140CXERE, E140CXERK, E140TLERK, E140TLERR, E140TXARC, E140TXARK, E140TXERK, E140TXERR 1994
E140CXATF, E140CXATS, E140CXETB, E140CXETF, E140TLATC, E140TLATF, E140TLETC, E140TLETF, E140TXATF, E140TXATS, E140TXETC, E140TXETF, VE140TLETC, VE140TLETF, VE140TXETC, VE140TXETF 1993
E140CXCEC, E140TLCEB, E140TXCEB 1989
E140CXEIA, E140TLEID, E140TXEID, VE140TLEID, VE140TXEID 1991
E140CXENM, E140TLENS, E140TXENS, VE140TLENS, VE140TXENS 1992
E140CXESR, E140TLESE, E140TXESE, VE140TLESE, VE140TXESE 1990
E250CXARC, E250CXERC, E250CZERC, E250TXARC, E250TXERC, E250TZERC 1994
E250CXATF, E250CXATS, E250CXETF, E250CXETS, E250CZATF, E250CZATS, E250CZETF, E250CZETS, E250TXATF, E250TXATS, E250TXETF, E250TXETS, E250TZATF, E250TZATS, E250TZETF, E250TZETS 1993
E250CXEIE, E250TXEIE 1991
E250CXEND, E250CZEND, E250TXEND, E250TZEND 1992
E250CXEOR, E250CZEOR, E250TXEOR, E250TZEOR 1995
E300CXCEM, E300PLCEM, E300PXCEM 1989
E300CXEIE, E300PLEIE, E300PXEIE 1991
E300CXEND, E300PLEND, E300PXEND 1992
E300CXEOR, E300PLEOR, E300PXEOR 1995
E300CXERC, E300PLERC, E300PXERC 1994
E300CXESB, E300PLESB, E300PXESB 1990
E300CXETF, E300CXETS, E300PLETF, E300PLETS, E300PXETF, E300PXETS 1993
Information:
Complete the procedure in the order in which the steps are listed.Probable causes
Diagnostic codes
High exhaust temperature
Exhaust systemNote: The procedures have been listed in order of probability. Complete the procedure in the order in which the steps are listed.
Table 2
Troubleshooting Test Steps Values Results
1. Check for Diagnostic Trouble Codes
A. Turn the keyswitch to the ON position. Do not start the engine.
B. Connect to the electronic service tool.
C. Check for associated diagnostic trouble codes.
Diagnostic trouble codes
Result: A 4360-X, E946 (2), or E947 code is active or recently logged.
Proceed to Test Step 2.
Result: An associated code other than 4360-X, E946 (2), or E947 is active or recently logged.
Repair: Troubleshoot the logged or active code. Refer to Troubleshooting, "Diagnostic Trouble Codes".
Result: No codes are active or recently logged.
Proceed to Test Step 5.
2. Check the Operation of the SCR Catalyst Inlet Temperature Sensor
Note : Only perform this step on a cold engine.
A. Remove the SCR catalyst inlet temperature sensor and allow the sensor to rest in ambient air for 2 minutes.
B. Connect the electronic service tool to the diagnostic connector.
C. Monitor the value of the SCR catalyst inlet temperature sensor on the electronic service tool.
Sensor
Result : The value of the SCR catalyst inlet temperature sensor is within 9° C (15° F) of ambient temperature.
Repair : Reinstall the sensor. torque the sensor to the proper specification.
For a 4360-16 or E946 (2) code, proceed to Test Step 3.
For a 4360-17, E947 (1), 4360-18 or E947 (2) code proceed to Test Step 4.
Result : The value of the SCR catalyst inlet temperature sensor is not within 9° C (15° F) of ambient temperature.
Repair : Replace the SCR catalyst inlet temperature sensor. Refer to the Disassembly and Assembly manual for more information.
Proceed to Test Step 5.
3. Check for Cause of High Temperature
A. Check for evidence of an exothermic event in the DOC and DPF.
B. Check for evidence of excessive fuel reaching the DOC or DPF
High temperature
Result: There has been an exothermic event in the DOC or DPF.
Repair: Replace the Clean Emissions Module (CEM).
Result: There is evidence of excessive fuel reaching the DOC or DPF.
Repair: Investigate the cause of the excess fuel.
4. Check the Exhaust System
A. Check the exhaust system for gas leaks between the Exhaust Back Pressure Regulator (EBPR) and the exhaust tail pipe.
B. Check for gas leaks around the following items in the Clean Emissions Module (CEM):
Soot antennas
Temperature sensors
SCR intake NOx sensor
DEF injector
C. Check for signs of internal exhaust gas leaks on the outer casing of the CEM.
D. Check for missing or damaged exhaust system insulation.
E. Make sure that the exhaust piping between the EBPR and the CEM is no longer than 1.83 m (6 ft).
F. Make sure that the cooling air flow over the CEM is not excessive for the ambient conditions.
Exhaust System
Result: The exhaust system or the CEM has a gas leak.
Repair: Make the necessary repairs.
Proceed to Test Step 6.
Result: The exhaust system insulation is damaged or missing.
Repair: Make the necessary repairs.
Proceed to Test Step 6.
Result: Review and correct the routing of the exhaust system. If necessary, consult the Dealer Solutions Network (DSN) for further advice.
Proceed to Test Step 6.
Result: There is excessive cooling air flow over the CEM.
Repair: Reduce the cooling air flow. If necessary, consult the Dealer Solutions Network (DSN) for further advice.
Proceed to Test Step 6.
Result: The exhaust system is OK.
Proceed to Test Step 5.
5. Inspect the DPF
A. Inspect the inlet of the DPF. Inspect the DPF for a damaged or missing DPF core.
Damaged DPF core
Result: The DPF has a damaged or missing DPF core.
Repair: Repair the damaged DPF or missing DPF core. Proceed to Test Step 6.
5. Check the SCR Catalyst Temperature
A. Connect to the electronic service tool.
B. Run the engine.
C. Perform the "Manual Hydrocarbon Dosing Capability Test".
Manual hydrocarbon dosing capability test
Result: The "Manual Hydrocarbon Dosing Capability Test" completed successfully.
Return the unit to service.
Result: The "Manual Hydrocarbon Dosing Capability Test" failed. An error identifier is generated by the electronic service tool.
Repair: Troubleshoot the error identifier. Refer to Troubleshooting, "Service tool Error Identifiers". Repeat Test Step 4.
Result: The "Manual Hydrocarbon Dosing Capability Test" failed. No error identifiers are generated.
Contact the Dealer Solutions Network (DSN).
Diagnostic codes
High exhaust temperature
Exhaust systemNote: The procedures have been listed in order of probability. Complete the procedure in the order in which the steps are listed.
Table 2
Troubleshooting Test Steps Values Results
1. Check for Diagnostic Trouble Codes
A. Turn the keyswitch to the ON position. Do not start the engine.
B. Connect to the electronic service tool.
C. Check for associated diagnostic trouble codes.
Diagnostic trouble codes
Result: A 4360-X, E946 (2), or E947 code is active or recently logged.
Proceed to Test Step 2.
Result: An associated code other than 4360-X, E946 (2), or E947 is active or recently logged.
Repair: Troubleshoot the logged or active code. Refer to Troubleshooting, "Diagnostic Trouble Codes".
Result: No codes are active or recently logged.
Proceed to Test Step 5.
2. Check the Operation of the SCR Catalyst Inlet Temperature Sensor
Note : Only perform this step on a cold engine.
A. Remove the SCR catalyst inlet temperature sensor and allow the sensor to rest in ambient air for 2 minutes.
B. Connect the electronic service tool to the diagnostic connector.
C. Monitor the value of the SCR catalyst inlet temperature sensor on the electronic service tool.
Sensor
Result : The value of the SCR catalyst inlet temperature sensor is within 9° C (15° F) of ambient temperature.
Repair : Reinstall the sensor. torque the sensor to the proper specification.
For a 4360-16 or E946 (2) code, proceed to Test Step 3.
For a 4360-17, E947 (1), 4360-18 or E947 (2) code proceed to Test Step 4.
Result : The value of the SCR catalyst inlet temperature sensor is not within 9° C (15° F) of ambient temperature.
Repair : Replace the SCR catalyst inlet temperature sensor. Refer to the Disassembly and Assembly manual for more information.
Proceed to Test Step 5.
3. Check for Cause of High Temperature
A. Check for evidence of an exothermic event in the DOC and DPF.
B. Check for evidence of excessive fuel reaching the DOC or DPF
High temperature
Result: There has been an exothermic event in the DOC or DPF.
Repair: Replace the Clean Emissions Module (CEM).
Result: There is evidence of excessive fuel reaching the DOC or DPF.
Repair: Investigate the cause of the excess fuel.
4. Check the Exhaust System
A. Check the exhaust system for gas leaks between the Exhaust Back Pressure Regulator (EBPR) and the exhaust tail pipe.
B. Check for gas leaks around the following items in the Clean Emissions Module (CEM):
Soot antennas
Temperature sensors
SCR intake NOx sensor
DEF injector
C. Check for signs of internal exhaust gas leaks on the outer casing of the CEM.
D. Check for missing or damaged exhaust system insulation.
E. Make sure that the exhaust piping between the EBPR and the CEM is no longer than 1.83 m (6 ft).
F. Make sure that the cooling air flow over the CEM is not excessive for the ambient conditions.
Exhaust System
Result: The exhaust system or the CEM has a gas leak.
Repair: Make the necessary repairs.
Proceed to Test Step 6.
Result: The exhaust system insulation is damaged or missing.
Repair: Make the necessary repairs.
Proceed to Test Step 6.
Result: Review and correct the routing of the exhaust system. If necessary, consult the Dealer Solutions Network (DSN) for further advice.
Proceed to Test Step 6.
Result: There is excessive cooling air flow over the CEM.
Repair: Reduce the cooling air flow. If necessary, consult the Dealer Solutions Network (DSN) for further advice.
Proceed to Test Step 6.
Result: The exhaust system is OK.
Proceed to Test Step 5.
5. Inspect the DPF
A. Inspect the inlet of the DPF. Inspect the DPF for a damaged or missing DPF core.
Damaged DPF core
Result: The DPF has a damaged or missing DPF core.
Repair: Repair the damaged DPF or missing DPF core. Proceed to Test Step 6.
5. Check the SCR Catalyst Temperature
A. Connect to the electronic service tool.
B. Run the engine.
C. Perform the "Manual Hydrocarbon Dosing Capability Test".
Manual hydrocarbon dosing capability test
Result: The "Manual Hydrocarbon Dosing Capability Test" completed successfully.
Return the unit to service.
Result: The "Manual Hydrocarbon Dosing Capability Test" failed. An error identifier is generated by the electronic service tool.
Repair: Troubleshoot the error identifier. Refer to Troubleshooting, "Service tool Error Identifiers". Repeat Test Step 4.
Result: The "Manual Hydrocarbon Dosing Capability Test" failed. No error identifiers are generated.
Contact the Dealer Solutions Network (DSN).
Parts piston EVINRUDE:
0322724
0322724 PISTON AND ROD ASSY.,Trim cylinder
100990S, 115790S, 115890C, 150840S, 150940C, 175740S, BE250CXECB, BE250CXEDA, BE250CXEUM, C155WTLM, CE275TLCDC, CE275TLCOS, CE300TLCDC, CE300TLCOS, E100MLCSC, E100STLCCA, E100STLCEM, E100STLESB, E100WMLCDR, E100WMLCOC, E100WMLCRS, E100WTLCUA, E100WTL
0390000
0390000 . . PISTON ASSY
100990S, 115890C, 150840S, 150940C, C155WTLM, E100MLCSC, E100STLCCA, E100STLESB, E100WMLCDR, E100WMLCOC, E100WMLCRS, E100WTLCUA, E100WTLEDR, E100WTLEIB, E100WTLENE, E100WTLEOC, E100WTLERS, E100WTLESM, E100WTLETD, E100WTLEUA, E100WTLZ, E110MLCCA, E110
0323848
0323848 PISTON, Pump control
100990S, 115890C, 150840S, 150940C, BE250CXECB, BE250CXEDA, BE250CXEUM, C155WTLM, CE275TLCDC, CE275TLCOS, CE300TLCDC, CE300TLCOS, E100MLCSC, E100STLCCA, E100STLCEM, E100STLESB, E100WMLCDR, E100WMLCOC, E100WMLCRS, E100WTLCUA, E100WTLEDR, E100WTLEIB, E
0985881
0985881 PISTON, Cylinder & rod
BE200CXEDR, BE225CXEDE, BE250CXEDA, BE250CXEUM, E185ESERK, E185ESXENR, E185ESXESS, E185ESXETA, E185ESXW, E200CXARC, E200CXATF, E200CXCCR, E200CXCEA, E200CXEIB, E200CXENE, E200CXEOC, E200CXESM, E225CXARC, E225CXATF, E225CXCCE, E225CXCED, E225CXEIC, E2
0433004
0433004 PISTON, Stbd.0,030" O.S.
BE250CXECB, BE250CXEDA, BE250CXEUM, E120TLCEM, E120TLEIE, E120TLEND, E120TLERC, E120TLESB, E120TLETF, E125ESXENR, E125ESXERK, E125ESXESS, E125ESXETA, E125ESXW, E140CXARC, E140CXATF, E140CXCEC, E140CXEIA, E140CXENM, E140CXESR, E250CXARC, E250CXATF, E2
0433003
0433003 PISTON, Port, 0.003" O.S.
BE250CXECB, BE250CXEDA, BE250CXEUM, E120TLCEM, E120TLEIE, E120TLEND, E120TLERC, E120TLESB, E120TLETF, E125ESXENR, E125ESXERK, E125ESXESS, E125ESXETA, E125ESXW, E140CXARC, E140CXATF, E140CXCEC, E140CXEIA, E140CXENM, E140CXESR, E250CXARC, E250CXATF, E2
0432969
0432969 PISTON, Port, Standard
BE250CXECB, BE250CXEDA, BE250CXEUM, E120TLCEM, E120TLEIE, E120TLEND, E120TLERC, E120TLESB, E120TLETF, E125ESXENR, E125ESXERK, E125ESXESS, E125ESXETA, E125ESXW, E140CXARC, E140CXATF, E140CXCEC, E140CXEIA, E140CXENM, E140CXESR, E250CXARC, E250CXATF, E2
0435263
0435263 PISTON ASSY.
BE115TLEDA, BE130TLECE, BE130TLEDM, BE130TLEUB, BE150ELECD, BE150ELEDB, BE150ELEUC, BE175EXECD, BE175EXEDB, BE175EXEUC, DE150CXAAA, DE150CXAAC, DE150CXINS, DE150PXAAA, DE150PXAAC, DE150PXINS, DE200CXAAA, DE200CXAAC, DE200HXAAA, DE200HXAAC, DE200HXAAD