0325433 FRICTION PLATE EVINRUDE
E35AELCDE, E35AELCUD, E40AELCCS, E40ECDE, E40ECEC, E40ECOB, E40ECRM, E40ECUD, E40EEIA, E40EENJ, E40EESR, E40EETB, E45RCCDS, E45RCCUC, E45RCE, E45RCEIA, E45RCENM, E45RCESR, E45RCETB, E50BECCS, E50BECDE, E50BECEC, E50BECIC, E50BECUD, E50BEEIA, E50BEENJ
FRICTION
Price: query
Rating:
Compatible models:
E35AELCDE
E35AELCUD
E40AELCCS
E40ECDE
E40ECEC
E40ECOB
E40ECRM
E40ECUD
E40EEIA
E40EENJ
E40EESR
E40EETB
E45RCCDS
E45RCCUC
E45RCE
E45RCEIA
E45RCENM
E45RCESR
E45RCETB
E50BECCS
E50BECDE
E50BECEC
E50BECIC
E50BECUD
E50BEEIA
E50BEENJ
E50BEESR
E50BEETB
E50TELCEC
E55RCIM
E55RLCSA
E55RSLN
E55RWLCDC
E55RWLCOS
E55RWLCRD
E55RWLCUC
E55RWLE
E55RWLEIA
E55RWLENM
E55RWLESR
E55RWLETB
E60ECIA
E60ECSR
E65RWLCDR
E65RWLCOC
E65RWLCRS
M55RWLR
R45RCLR
EVINRUDE
BRP EVINRUDE entire parts catalog list:
- REWIND STARTER » 0325433
E40AELCCS, E40ARLCCS, E40ATLCCS, E40ECCS, E40ELCCS, E40RCCS, E40RLCCS, E40TECCS, E40TELCCS, E40TLCCS, E40TTLCCS 1988
E40ECDE, E40ELCDE, E40RCDE, E40RLCDE, E40TECDE, E40TELCDE, E40TLCDE 1986
E40ECEC, E40ELCEC, E40RCEC, E40RLCEC, E40TECEC, E40TELCEC, E40TLCEC, E40TTLCEC, TE40ELCEC 1989
E40ECOB, E40ELCOB, E40RCOB, E40RLCOB, E40TECOB, E40TELCOB 1985
E40ECRM, E40ELCRM, E40RCRM, E40RLCRM, E40TECRM, E40TELCRM 1984
E40ECUD, E40ELCUD, E40RCUD, E40RLCUD, E40TECUD, E40TLCUD 1987
E40EEIA, E40ELEIA, E40REIA, E40RLEIA, E40TEEIA, E40TELEIA, E40TLEIA, E40TTLEIA, TE40ELEIA, VE40EEIA, VE40ELEIA, VE40TELEIA, VE40TLEIA 1991
E40EENJ, E40EENM, E40ELENJ, E40ELENM, E40RENM, E40RLENM, E40TEENJ, E40TEENM, E40TELENJ, E40TELENM, E40TLENJ, E40TLENM, E40TTLENM, TE40ELENJ, TE40ELENM, VE40EENJ, VE40EENM, VE40ELENJ, VE40ELENM, VE40TELENJ, VE40TELENM, VE40TLENJ, VE40TLENM 1992
E40EESR, E40ELESR, E40RESR, E40RLESR, E40TEESR, E40TELESR, E40TLESR, E40TTLESR, TE40ELESR, TE40TELESF, TE40TELESR, VE40EESR, VE40ELESR, VE40TELESR, VE40TLESR 1990
E40EETB, E40ELETB, E40RETB, E40RLETB, E40TEETB, E40TELETB, E40TLETB, E40TLETF, E40TTLETB, E40TTLETF, TE40ELETB, VE40EETB, VE40ELETB, VE40TELETB, VE40TLETB, VE40TLETF 1993
E45RCCDS, E45RCLCDS 1986
E45RCCUC, E45RCLCUC 1987
E45RCE, E45RCLE, E45WMLE 1989
E45RCEIA, E45RCLEIA, E45WMLEIA 1991
E45RCENM, E45RCLENM, E45WMLENM 1992
E45RCESR, E45RCLESR, E45WMLESR 1990
E45RCETB, E45RCLETB 1993
E50BECCS, E50BELCCS, E50TELCCS, E50TLCCS 1988
E50BECDE, E50BELCDE, E50TELCDE, E50TLCDE 1986
E50BECEC, E50BELCEC, E50TLCEC, TE50TLCEC, TE50TLESF 1989
E50BECIC, E50BELCIC 1981
E50BECUD, E50BELCUD, E50TELCUD, E50TLCUD 1987
E50BEEIA, E50BELEIA, E50JEIA, E50TELEIA, E50TLEIA, VE50BEEIA, VE50BELEIA, VE50TLEIA 1991
E50BEENJ, E50BEENM, E50BELENJ, E50BELENM, E50JENJ, E50JENM, E50TELENM, E50TLENJ, E50TLENM, VE50BEENJ, VE50BEENM, VE50BELENJ, VE50BELENM, VE50TELENM, VE50TLENJ, VE50TLENM 1992
E50BEESR, E50BELESR, E50TELESR, E50TLESR, TE50TLESF, TE50TLESR, VE50BEESR, VE50BELESR, VE50TLESR 1990
E50BEETB, E50BELETB, E50JETB, E50TELETB, E50TLETB, E50TLETF, VE50BEETB, VE50BELETB, VE50TLETB, VE50TLETF 1993
E50TELCEC 1989
E55RCIM, E55TLCIM 1981
E55RLCSA 1980
E55RSLN, E55RSLN-2, E55RSN, E55RSN-2, E55RSYN, E55RSYN-2 1983
E55RWLCDC 1986
E55RWLCOS 1985
E55RWLCRD 1984
E55RWLCUC 1987
E55RWLE 1989
E55RWLEIA 1991
E55RWLENM 1992
E55RWLESR 1990
E55RWLETB 1993
E60ECIA, E60ECIH, E60ELCIA, E60ELCIH, E60TLCIA, E60TLCIH 1981
E60ECSR, E60ELCSR 1980
E65RWLCDR, E65TELCDR 1986
E65RWLCOC, E65TELCOC 1985
E65RWLCRS, E65TELCRS, E65WTLCRS 1984
M55RWLR 1988
R45RCLR, R45RCR 1988
Information:
Illustration 1 g00390032
(1) Jacket water pump
(2) Tube
(3) Engine oil cooler
(4) Block
(5) Cylinder head
(6) Water manifold
(7) Aftercooler
(8) Regulator housing
(9) Tube
(10) Bypass tube
(11) Radiator or heat exchangerCoolant flows to jacket water pump (1) through an elbow that connects to the radiator or heat exchanger (11). Part of the coolant is sent to the aftercooler while most of the coolant is sent through engine oil cooler (3).Note: There is one opening on the pump outlet so that a remote pump can be connected to the system. The remote pump can be used if there is a failure of the pump on the engine.The coolant that is sent to the aftercooler goes through the aftercooler core. The coolant then goes through an elbow. The coolant goes into a passage in the block. The passage is near the center of the vee at the rear of the block. The coolant that is sent to the engine oil cooler goes through the engine oil cooler. The coolant flows into the water jacket of the block at the right rear cylinder. The cooler coolant is mixed with the hotter coolant. The mixture goes to both sides of the block through distribution manifolds. The distribution manifolds are connected to the water jacket of all the cylinders. The main distribution manifold is located just above the main bearing oil gallery.The coolant flows upward through the water jackets. The coolant flows around the cylinder liners from the bottom to the top. Near the top of the cylinder liners, the water jacket is made smaller. This is the area that has the hottest temperature. This smaller area causes the coolant to flow faster for better liner cooling. Coolant from the top of the liners flows into the cylinder head which sends the coolant around the parts that have the hottest temperature. Coolant flows to the top of the cylinder head (one at each cylinder). The coolant flows out of the cylinder head through an elbow into water manifold (6). Coolant then flows through the manifold to the temperature regulator housing (thermostat).Regulator housing (8) has an upper flow section and a lower flow section. The regulator housing uses four temperature regulators. The sensing bulbs of the four temperature regulators are in the coolant in the lower section of the housing. Before the regulators open, cold coolant is sent through the bypass line back to the inlet of the water pump. As the temperature of the coolant increases, the regulators start to open. When the regulators open, the coolant flow in the bypass line is then restricted. Coolant is sent through the outlets to the radiator or heat exchanger (11).Separate Circuit Aftercooling
Illustration 2 g06217699
(1) Cylinder block
(2) Engine oil cooler
(3) Regulator housing
(4) Jacket water pump
(5) Radiator
(6) Aftercooler
(7) Separate circuit water pumpCoolant flows to jacket water pump (4) through an elbow connected to a coolant tank in radiator (5). The coolant flow is sent through engine oil cooler (2).The coolant flows through the engine oil cooler. The coolant then flows into the water jacket of cylinder block (1) at the right rear cylinder. The coolant flows to both sides of the block through the distribution manifolds. The distribution manifolds are connected to the water jacket of all the cylinders. The main distribution manifold is located just above the main bearing oil gallery.The coolant flows upward through the cylinder water jackets and around the cylinder liners from the bottom to the top. Near the top of the cylinder liners, the water jacket is made smaller. This is the area that has the hottest temperature. This smaller area causes the coolant to flow faster for better liner cooling. Coolant from the top of the liners flows into the cylinder head which sends the coolant around the parts that have the hottest temperature. Coolant flows to the top of the cylinder head (one at each cylinder). The coolant flows out of the cylinder head through an elbow into a water manifold and then through the manifold to the temperature regulator housing (thermostat) (3).Regulator housing (3) has an upper flow section and a lower flow section. The regulator housing uses four temperature regulators. The sensing bulbs of the four temperature regulators are in the coolant in the lower section of the housing. Before the regulators open, cold coolant is sent through the bypass line back to the inlet of the jacket water pump (4). As the temperature of the coolant increases, the regulators start to open. When the regulators open, the coolant flow in the bypass line is restricted. Some of the coolant is sent through the outlet of radiator (5) for the jacket water system (5).Coolant flows to separate circuit water pump (7) through an elbow connected to a coolant tank in radiator (5). The coolant flow is sent through aftercooler (6).Coolant flows through aftercooler (6) and back to the coolant tank in radiator (5). The coolant is then sent through the outlet of radiator (5) for the separate circuit cooling system.
Parts friction EVINRUDE:
0389267
0389267 FRICTION ADJUSTMENT LEVER
100990S, 150940C, 50902C, 70973R, C155WTLM, CE275TLCDC, CE275TLCOS, CE300TLCDC, CE300TLCOS, E100MLCSC, E100STLCCA, E100STLCEM, E100STLESB, E100WMLCDR, E100WMLCOC, E100WMLCRS, E100WTLCUA, E100WTLESM, E100WTLZ, E10EESC, E110MLCCA, E110MLCDC, E110MLCEM,
0326087