Cat Bridge Engine
2021年7月2日Download here: http://gg.gg/v7o32
Usage:
CAT 3176B Cylinder Head Bolts Bolts 1-26 Step 1 = 150 Nm, 110 lb.ft Step 2 = 275 Nm, 200 lb.ft Step 3 = repeat step 2 = 275 Nm, 200 lb.ft Bolts 27-33. The owner of this Cat Bridge engine had replaced the Bridge ECM a few years back with our performance ECM to “un-bridge” the engine, which then ran great and got better fuel mileage. However, when he took the engine to the Cat distributor for a rebuild, he let them put the Bridge parts back into the engine. Diesel Engine Control Systems for Caterpillar® engines listed on the cover of this section. Additional engine systems, components and dynamics are addressed in other sections of this Application and Installation Guide. Engine-specific information and data are available from a variety of sources.D340001T
*10 Biggest Engines In The World Subscribe: For copyright matters please contact us at: miniminter1992.29@gmail.com Some engines are f.
*We provide parts, service, diagnostics, repairs, and tuning for Commercial Diesel Trucks including Cummins, Caterpillar and Detroit Diesel. Since 1977 we continue to provide the best parts and service for diesel trucks. Our passion is improving fuel mileage, power, and reliability of every owner-operator’s truck.Caterpillar Products: Engines with ACERT Technology Machine Engines with ACERT TechnologyIndustrial Engine:with Turbochargers AllMarine Engine:with Turbochargers AllEngine:Truck AllEngine: All Commercial Gas EnginesMachine Engines: AllIntroduction
This Reuse and Salvage Guideline contains the necessary information in order to allow a dealer to establish a parts reusability program. Reuse and salvage information enables Caterpillar Dealers and customers to benefit from cost reductions. Every effort has been made in order to provide the most current information that is known to Caterpillar. Continuing improvement and advancement of product design might have caused changes to your product which are not included in this publication. This Reuse and Salvage Guideline must be used with the latest technical information that is available from Caterpillar.
For additional information about this guideline, consult Repair Process Engineering of the Marketing & Product Support Division at 1 (309) 675-5434.Summary
These instructions give failure modes of valves for engines using the basic principles of wear and fracture to determine the most probable root cause of failure. This guide should be used with the additional documents in the reference section to define the reusability of valves. References
ReferenceSee Guideline for Reusable Parts and Salvage Operations, SEBF8002-05, ’Valves, Valve Springs, Valve Rotators and Locks’.
Vinnie paz cornerstone of the corner store tracklist. Reference Zelda botw wii u dlc downloader. See Guideline for Applied Failure Analysis, SEBV0554, ’Principles of Wear’.
ReferenceSee Guideline for Applied Failure Analysis, SEBV0552, ’Principles of Fracture’.
ReferenceSee Guideline for Applied Failure Analysis, SEBV0551, ’Engine Valves’.Nomenclature for Valves
Illustration 1g01184370
(1) Groove for Retaining Valve Spring
(2) Stem
(3) Fillet
(4) Head
(5) Face
Note: The valve seat is the sealing surface between the valve face and the seat in the cylinder head.Tools and EquipmentShow/hide tableTable 1Required ToolsPart NumberPart Description9U-7231 Flashlight 8S-2257 Eye Loupe 1U-7262 Magnet Digital ProScope Microscope
optional Straight Edge Fretting
Fretting indicates repeated movement in a tight joint. Movement should not occur in the retaining area of the valve. Typically fretting is a result of the following items.
*Loose valve lash
*Engine over speed
*Sticking valves in guides
*Broken valve spring
Illustration 2g01183438
Fretting
Fractures will typically be brittle and/or fractures will be low cyclic fatigue due to an overloading in shock that is caused by excess velocities in seating of loose valve lash.Beach marks are clearly evident in the photo below indicating cyclic overloads.Show/hide table
Illustration 3g01183441
Beach Marks
Wear at the valve stems and/or valve bridges’ interface may also be present.
Illustration 4g01183442
Wear on valve stem and/or bridgeTight Lash
Valves may not display oil degradation, adhesive wear, or fretting if valve lash was too tight. Also if valve lash was too tight valve heads may show repeated contact with the piston. Tight lash may affect only one valve in a cylinder or all the valves within the engine.Show/hide table
Illustration 5g01183449
Piston contact on valve
If the valve lash is too tight, compression and combustion gases may leak past the valve face and the valve seat. This will cause the visual signs of gas to be left behind on the valves’ face and valves’ fillet. The gas leaks may overheat the valve head and the valve stem which will cause the material of the valve to weaken.
Carbon buildup or thick oxide coatings on the valve face or the sealing area of the seat can crack causing gases to leak past the valve face. When the coating cracks, the hot gases have a path to escape.
Illustration 6g01183459
Traces of gasPiston Contact
Multiple cylinders displayed outlines of the piston crown and the piston crater on the valve heads. This intermittent contact indicated a valve to a piston contact. This contact can be seen in the following picture. Look at the valve stems for the following items.
*Oil coking problem on sticky valves
*Adhesive wear
*Bent valve stem or stems
*ECM for logged conditions over speedShow/hide table
Illustration 7g01183476
Piston contacts on valvesHigh Temperature
Valves for engines that operate in an overheated system will typically have a narrow band of oil coking near the bottom area of the valve guides’ travel. Mild adhesive and/or abrasive wear may be present. Valves in overheated systems may have deposits of oil coking on the remainder of the valve head and associated parts.
The following items are sometimes associated with high temperatures.
*Temper colors.
*Adhesive wear
*Oil coking
*Piston contact
Illustration 8g01183488
High temperature on valve stem
Mf doom. (1) Bottom of Guides’ Contact
(2) Initial Adhesive Wear
(3) Oil coking
Valves in overheated systems may lose some of the alloys due to the high temperatures. If alloys have been drawn out of the valves’ material, the valve may attract a magnet.
The following items are reasons of high temperatures.
*Overload from combustion
*Inlet and/or exhaust system restrictions
*Problems of efficiency in aftercooler
*Extreme applications
*Extreme high temperature environmentShow/hide table
Illustration 9g01183494
A valve attracts a magnet.
(1) Magnet
High pressures and temperatures during combustion can create damage. The system restrictions for the inlet air and/or exhaust gas temperatures can also create similar types of damage. Combustion usually creates higher pressures and temperatures that will cause greater amounts of damage to the valve and surrounding system. Plastic deformation to the valve head is known as tuliping. Tuliping is the result of higher than expected temperatures and pressures.Cat C12 Bridge Engine
Illustration 10g01183500
Valve TulipingCat C15 Bridge Engine
High temperatures may also reduce the viscosity of the oil that allows metal to metal contact with the valve guide. Metal-to-metal contact can create adhesive wear.Show/hide table
Illustration 11g01183506
Metal-to-metal wear
(1) Bottom of Guides’ Contact
(2) Oil coking
(3) Adhesive wearOil Quality
Varnished oil can accumulate on the valve stem near the bottom of the valve guides’ contact. This accumulation of varnish is similar to the happenings of valves at high temperature. The buildup of varnish can cause the valve to stick in the guide. Valves that stick in the guides are likely to contact the pistons.
The following items should be examined when a problem with the quality of oil is suspected.
*Quality of oil
*Oil change intervals
*Application of Machine
*Operating conditions
Illustration 12g01183511
Effects of various qualities of oil
(1) Corrosive Pitting
(2) Bottom of Guides’ Contact
The magnified view shows the surface of the valve stem to be pitted from corrosion. Pitting from corrosion is often confused as adhesive wear. Pitting that occurs in one valve stem usually will display the similar characteristics in all valves.Show/hide table
Illustration 13g01183516
Surface pitting on valve stem
As the oil condition continues to degrade, consumption will usually increase leaving deposits on the valves’ fillet and the valves’ face. Corrosion may occur in any areas in contact with oil.
Illustration 14g01183522
Deposits of oil on a valve
(1) Build up of oil coking.
(2) Corrosive pitting
Chordal fractures are the results of cyclic overloading. The chordal fractures usually begin in the area of the valves’ fillet. The overloading is localized to one side of the valve head. The following items are causes for chordal fractures.
*Valve, seat, and/or misalignment of guides
*Bent valve
*Foreign debris on valve face
*High temperatures of combustionShow/hide table
Illustration 15g01183525
Chordal fracturesIssues with Parts
Valves seldom fail due to problems with materials. Some failure modes that may occur are listed below.
*Faulty inertia welds
*Inclusions in the metal
*TIR of seat to guide (misalignment of guide to port hole in the fire deck)
Illustration 16g01183528
Fractured material
When the inertia weld is excessively hot, the face of the fracture will have a twisted appearance. The valve stem at the inertia weld may be attracted by a magnet.Show/hide table
Illustration 17g01183531
Twisted appearance on the face of the fracture
If the inertia weld is excessively cold, the face of fracture will have an appearance of a star and a magnet should not be attracted to the fractured head half of the valve.
Illustration 18g01183533
Appearance of a star on the face of the fracture
The magnified picture of the face of fracture below started at an inclusion.Show/hide table
Illustration 19g01183534
(1) InclusionGlossary
Fretting - Fretting causes a worn spot on metals by micro welding.
Lash - Lash is the distance between the rocker and the valve.
Adhesive wear - Adhesive wear is also known as an adhesive metal transfer.
Beach marks - Beach marks are markings on the face of fracture that are associated with the propagation of cracks due to fatigue.
ECM - Electronic Control Module
Plastic deformation - Plastic deformation is the permanent change in shape or size of an object without fracture. This is produced by a stress that is sustained beyond the elastic limit of a material.
Tuliping - Tuliping is plastic deformation of the valve head.
Oil coking - Oil coking is the solid residue that remains when oils undergo severe oxide and thermal breakdown.
Chordal fractures - Chordal fractures are propagating fractures from the circumference of an object.
TIR - Total Indicated Runout
Fire deck - The fire deck is the surface on the cylinder head that experiences the heat and pressures during combustion.
Inertia weld - Inertia welding connects two metals together by spinning one object and applying an axial pressure in order to join the two.
Download here: http://gg.gg/v7o32
https://diarynote-jp.indered.space
Usage:
CAT 3176B Cylinder Head Bolts Bolts 1-26 Step 1 = 150 Nm, 110 lb.ft Step 2 = 275 Nm, 200 lb.ft Step 3 = repeat step 2 = 275 Nm, 200 lb.ft Bolts 27-33. The owner of this Cat Bridge engine had replaced the Bridge ECM a few years back with our performance ECM to “un-bridge” the engine, which then ran great and got better fuel mileage. However, when he took the engine to the Cat distributor for a rebuild, he let them put the Bridge parts back into the engine. Diesel Engine Control Systems for Caterpillar® engines listed on the cover of this section. Additional engine systems, components and dynamics are addressed in other sections of this Application and Installation Guide. Engine-specific information and data are available from a variety of sources.D340001T
*10 Biggest Engines In The World Subscribe: For copyright matters please contact us at: miniminter1992.29@gmail.com Some engines are f.
*We provide parts, service, diagnostics, repairs, and tuning for Commercial Diesel Trucks including Cummins, Caterpillar and Detroit Diesel. Since 1977 we continue to provide the best parts and service for diesel trucks. Our passion is improving fuel mileage, power, and reliability of every owner-operator’s truck.Caterpillar Products: Engines with ACERT Technology Machine Engines with ACERT TechnologyIndustrial Engine:with Turbochargers AllMarine Engine:with Turbochargers AllEngine:Truck AllEngine: All Commercial Gas EnginesMachine Engines: AllIntroduction
This Reuse and Salvage Guideline contains the necessary information in order to allow a dealer to establish a parts reusability program. Reuse and salvage information enables Caterpillar Dealers and customers to benefit from cost reductions. Every effort has been made in order to provide the most current information that is known to Caterpillar. Continuing improvement and advancement of product design might have caused changes to your product which are not included in this publication. This Reuse and Salvage Guideline must be used with the latest technical information that is available from Caterpillar.
For additional information about this guideline, consult Repair Process Engineering of the Marketing & Product Support Division at 1 (309) 675-5434.Summary
These instructions give failure modes of valves for engines using the basic principles of wear and fracture to determine the most probable root cause of failure. This guide should be used with the additional documents in the reference section to define the reusability of valves. References
ReferenceSee Guideline for Reusable Parts and Salvage Operations, SEBF8002-05, ’Valves, Valve Springs, Valve Rotators and Locks’.
Vinnie paz cornerstone of the corner store tracklist. Reference Zelda botw wii u dlc downloader. See Guideline for Applied Failure Analysis, SEBV0554, ’Principles of Wear’.
ReferenceSee Guideline for Applied Failure Analysis, SEBV0552, ’Principles of Fracture’.
ReferenceSee Guideline for Applied Failure Analysis, SEBV0551, ’Engine Valves’.Nomenclature for Valves
Illustration 1g01184370
(1) Groove for Retaining Valve Spring
(2) Stem
(3) Fillet
(4) Head
(5) Face
Note: The valve seat is the sealing surface between the valve face and the seat in the cylinder head.Tools and EquipmentShow/hide tableTable 1Required ToolsPart NumberPart Description9U-7231 Flashlight 8S-2257 Eye Loupe 1U-7262 Magnet Digital ProScope Microscope
optional Straight Edge Fretting
Fretting indicates repeated movement in a tight joint. Movement should not occur in the retaining area of the valve. Typically fretting is a result of the following items.
*Loose valve lash
*Engine over speed
*Sticking valves in guides
*Broken valve spring
Illustration 2g01183438
Fretting
Fractures will typically be brittle and/or fractures will be low cyclic fatigue due to an overloading in shock that is caused by excess velocities in seating of loose valve lash.Beach marks are clearly evident in the photo below indicating cyclic overloads.Show/hide table
Illustration 3g01183441
Beach Marks
Wear at the valve stems and/or valve bridges’ interface may also be present.
Illustration 4g01183442
Wear on valve stem and/or bridgeTight Lash
Valves may not display oil degradation, adhesive wear, or fretting if valve lash was too tight. Also if valve lash was too tight valve heads may show repeated contact with the piston. Tight lash may affect only one valve in a cylinder or all the valves within the engine.Show/hide table
Illustration 5g01183449
Piston contact on valve
If the valve lash is too tight, compression and combustion gases may leak past the valve face and the valve seat. This will cause the visual signs of gas to be left behind on the valves’ face and valves’ fillet. The gas leaks may overheat the valve head and the valve stem which will cause the material of the valve to weaken.
Carbon buildup or thick oxide coatings on the valve face or the sealing area of the seat can crack causing gases to leak past the valve face. When the coating cracks, the hot gases have a path to escape.
Illustration 6g01183459
Traces of gasPiston Contact
Multiple cylinders displayed outlines of the piston crown and the piston crater on the valve heads. This intermittent contact indicated a valve to a piston contact. This contact can be seen in the following picture. Look at the valve stems for the following items.
*Oil coking problem on sticky valves
*Adhesive wear
*Bent valve stem or stems
*ECM for logged conditions over speedShow/hide table
Illustration 7g01183476
Piston contacts on valvesHigh Temperature
Valves for engines that operate in an overheated system will typically have a narrow band of oil coking near the bottom area of the valve guides’ travel. Mild adhesive and/or abrasive wear may be present. Valves in overheated systems may have deposits of oil coking on the remainder of the valve head and associated parts.
The following items are sometimes associated with high temperatures.
*Temper colors.
*Adhesive wear
*Oil coking
*Piston contact
Illustration 8g01183488
High temperature on valve stem
Mf doom. (1) Bottom of Guides’ Contact
(2) Initial Adhesive Wear
(3) Oil coking
Valves in overheated systems may lose some of the alloys due to the high temperatures. If alloys have been drawn out of the valves’ material, the valve may attract a magnet.
The following items are reasons of high temperatures.
*Overload from combustion
*Inlet and/or exhaust system restrictions
*Problems of efficiency in aftercooler
*Extreme applications
*Extreme high temperature environmentShow/hide table
Illustration 9g01183494
A valve attracts a magnet.
(1) Magnet
High pressures and temperatures during combustion can create damage. The system restrictions for the inlet air and/or exhaust gas temperatures can also create similar types of damage. Combustion usually creates higher pressures and temperatures that will cause greater amounts of damage to the valve and surrounding system. Plastic deformation to the valve head is known as tuliping. Tuliping is the result of higher than expected temperatures and pressures.Cat C12 Bridge Engine
Illustration 10g01183500
Valve TulipingCat C15 Bridge Engine
High temperatures may also reduce the viscosity of the oil that allows metal to metal contact with the valve guide. Metal-to-metal contact can create adhesive wear.Show/hide table
Illustration 11g01183506
Metal-to-metal wear
(1) Bottom of Guides’ Contact
(2) Oil coking
(3) Adhesive wearOil Quality
Varnished oil can accumulate on the valve stem near the bottom of the valve guides’ contact. This accumulation of varnish is similar to the happenings of valves at high temperature. The buildup of varnish can cause the valve to stick in the guide. Valves that stick in the guides are likely to contact the pistons.
The following items should be examined when a problem with the quality of oil is suspected.
*Quality of oil
*Oil change intervals
*Application of Machine
*Operating conditions
Illustration 12g01183511
Effects of various qualities of oil
(1) Corrosive Pitting
(2) Bottom of Guides’ Contact
The magnified view shows the surface of the valve stem to be pitted from corrosion. Pitting from corrosion is often confused as adhesive wear. Pitting that occurs in one valve stem usually will display the similar characteristics in all valves.Show/hide table
Illustration 13g01183516
Surface pitting on valve stem
As the oil condition continues to degrade, consumption will usually increase leaving deposits on the valves’ fillet and the valves’ face. Corrosion may occur in any areas in contact with oil.
Illustration 14g01183522
Deposits of oil on a valve
(1) Build up of oil coking.
(2) Corrosive pitting
Chordal fractures are the results of cyclic overloading. The chordal fractures usually begin in the area of the valves’ fillet. The overloading is localized to one side of the valve head. The following items are causes for chordal fractures.
*Valve, seat, and/or misalignment of guides
*Bent valve
*Foreign debris on valve face
*High temperatures of combustionShow/hide table
Illustration 15g01183525
Chordal fracturesIssues with Parts
Valves seldom fail due to problems with materials. Some failure modes that may occur are listed below.
*Faulty inertia welds
*Inclusions in the metal
*TIR of seat to guide (misalignment of guide to port hole in the fire deck)
Illustration 16g01183528
Fractured material
When the inertia weld is excessively hot, the face of the fracture will have a twisted appearance. The valve stem at the inertia weld may be attracted by a magnet.Show/hide table
Illustration 17g01183531
Twisted appearance on the face of the fracture
If the inertia weld is excessively cold, the face of fracture will have an appearance of a star and a magnet should not be attracted to the fractured head half of the valve.
Illustration 18g01183533
Appearance of a star on the face of the fracture
The magnified picture of the face of fracture below started at an inclusion.Show/hide table
Illustration 19g01183534
(1) InclusionGlossary
Fretting - Fretting causes a worn spot on metals by micro welding.
Lash - Lash is the distance between the rocker and the valve.
Adhesive wear - Adhesive wear is also known as an adhesive metal transfer.
Beach marks - Beach marks are markings on the face of fracture that are associated with the propagation of cracks due to fatigue.
ECM - Electronic Control Module
Plastic deformation - Plastic deformation is the permanent change in shape or size of an object without fracture. This is produced by a stress that is sustained beyond the elastic limit of a material.
Tuliping - Tuliping is plastic deformation of the valve head.
Oil coking - Oil coking is the solid residue that remains when oils undergo severe oxide and thermal breakdown.
Chordal fractures - Chordal fractures are propagating fractures from the circumference of an object.
TIR - Total Indicated Runout
Fire deck - The fire deck is the surface on the cylinder head that experiences the heat and pressures during combustion.
Inertia weld - Inertia welding connects two metals together by spinning one object and applying an axial pressure in order to join the two.
Download here: http://gg.gg/v7o32
https://diarynote-jp.indered.space
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