1M1531 PINION (11T) Caterpillar parts
561B, 977D
Rating:
Alternative (cross code) number:
CA1M1531
1M-1531
1M1531
CA1M1531
1M-1531
1M1531
Weight: 30 pounds 13 kg.
PIPELAYER, TRACK LOADER,
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WVE by NTK 1M1531 Starter Solenoid
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
WVE by NTK 1M1531 Starter Solenoid
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
$109.14
18 Apr 2024
2.43[1.09] pounds
Amazon.com
WVE by NTK 1M1531 Starter Solenoid
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
WVE by NTK Starter solenoids complete the circuit between the battery and the starter and some align Bendix drive with teeth of flywheel ring gear and others are used to bypass coil resistance wire || When not replaced, vehicle may experience CEL/MIL illumination, high fuel consumption, loss of power and/or inaccurate transmission shift points || Designed to meet or exceed OE specifications in form, fit and function || Global coverage for import and/or domestic applications
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All Caterpillar-Built Diesel EnginesThe availability of fuel supplies around the world is changing. To meet the current demand, refineries are now purchasing crude oil from different worldwide sources which include more high sulfur crude oils than before.
The sulfur contents of the refined fuels vary geographically throughout the world from an average of .27 percent by weight to 1.92 percent by weight.
The sulfur content of refined diesel fuels is dependent on the amount of sulfur in the crude oils and on the economics of and/or the refiners' abilities to remove it. For this reason, the sulfur content of some of today's diesel fuels is increasing.
The Fuel Sulfur Problem
When diesel fuel is burned in an engine's combustion chamber, the fuel sulfur is chemically converted to sulfur oxides. These compounds, in turn, react with water vapor to form sulfurous and sulfuric acids. As the vapors condense in the valve guides and in the piston ring area, the acids can chemically attack the metal surfaces and cause corrosive wear.
Neutralizing The Acids
One function of the lubricating oil is to neutralize the acids and, thus, retard the corrosive damage. Certain additives used in lubricating oils contain alkaline compounds which are formulated to neutralize these acids.
The measure of this reserve alkalinity in a lubricating oil is known as its Total Base Number or TBN. The Total Base Number is measured by one of two procedures: American Society For Testing Materials (ASTM) D-2896 or ASTM D-664. Caterpillar's recommendations are based on ASTM D-2896.
The higher the initial TBN value generally indicates more reserve alkalinity or acid-neutralizing capacity. To minimize corrosive wear caused by increased fuel sulfur levels, engine oils which have higher TBN values are essential.
The New Oil Recommendations
Caterpillar's new recommendations provide a means of combating the undesirable effects of high sulfur fuels. New guidelines have been developed for the selection of oils that permit STANDARD OIL CHANGE INTERVALS (as per the applicable Maintenance Guide) when using diesel fuels with sulfur contents of up to 1.5 percent.
Caterpillar previously based its standard oil change intervals on a fuel sulfur content of 0.4 percent and recommended shortened change intervals when fuels with greater than 0.4 percent sulfur content were used.
In the past, Caterpillar has recommended specific service classifications of oil, such as API (American Petroleum Institute) Class CD, but has not specified or published any alkalinity reserve (TBN) information. Because the range of TBN values is wide and because there is an increase in the sulfur content of some diesel fuels, it is important that TBN information be readily available. To satisfy this need, the TBN information is now included in the Engine Manufacturers Association's "Lubricating Oils Data Book For Heavy Duty Automotive and Industrial Engines." This is available from Caterpillar by Form No. SEBU5939.
The Correct TBN
The first step to determine the correct TBN value is to find the fuel sulfur content. This information should be available from the fuel supplier. If it is not, a fuel sample should be analyzed by a competent, independent laboratory.
When the sulfur content
The sulfur contents of the refined fuels vary geographically throughout the world from an average of .27 percent by weight to 1.92 percent by weight.
The sulfur content of refined diesel fuels is dependent on the amount of sulfur in the crude oils and on the economics of and/or the refiners' abilities to remove it. For this reason, the sulfur content of some of today's diesel fuels is increasing.
The Fuel Sulfur Problem
When diesel fuel is burned in an engine's combustion chamber, the fuel sulfur is chemically converted to sulfur oxides. These compounds, in turn, react with water vapor to form sulfurous and sulfuric acids. As the vapors condense in the valve guides and in the piston ring area, the acids can chemically attack the metal surfaces and cause corrosive wear.
Neutralizing The Acids
One function of the lubricating oil is to neutralize the acids and, thus, retard the corrosive damage. Certain additives used in lubricating oils contain alkaline compounds which are formulated to neutralize these acids.
The measure of this reserve alkalinity in a lubricating oil is known as its Total Base Number or TBN. The Total Base Number is measured by one of two procedures: American Society For Testing Materials (ASTM) D-2896 or ASTM D-664. Caterpillar's recommendations are based on ASTM D-2896.
The higher the initial TBN value generally indicates more reserve alkalinity or acid-neutralizing capacity. To minimize corrosive wear caused by increased fuel sulfur levels, engine oils which have higher TBN values are essential.
The New Oil Recommendations
Caterpillar's new recommendations provide a means of combating the undesirable effects of high sulfur fuels. New guidelines have been developed for the selection of oils that permit STANDARD OIL CHANGE INTERVALS (as per the applicable Maintenance Guide) when using diesel fuels with sulfur contents of up to 1.5 percent.
Caterpillar previously based its standard oil change intervals on a fuel sulfur content of 0.4 percent and recommended shortened change intervals when fuels with greater than 0.4 percent sulfur content were used.
In the past, Caterpillar has recommended specific service classifications of oil, such as API (American Petroleum Institute) Class CD, but has not specified or published any alkalinity reserve (TBN) information. Because the range of TBN values is wide and because there is an increase in the sulfur content of some diesel fuels, it is important that TBN information be readily available. To satisfy this need, the TBN information is now included in the Engine Manufacturers Association's "Lubricating Oils Data Book For Heavy Duty Automotive and Industrial Engines." This is available from Caterpillar by Form No. SEBU5939.
The Correct TBN
The first step to determine the correct TBN value is to find the fuel sulfur content. This information should be available from the fuel supplier. If it is not, a fuel sample should be analyzed by a competent, independent laboratory.
When the sulfur content
Caterpillar parts catalog:
Parts pinion Caterpillar catalog:
977D, D315
7B5375
PINION (21T)
561B, 977D
561B, 977D
9F6182
PINION (12T)
977D
977D
7H7576
PINION (23T)
977D
977D
8B0192
PINION (24 & 28T)
561B, 977D
561B, 977D
9B3186
PINION (12 T)
977D
977D
977D
561B, 977D
561B, 977D
977D
9B3186
PINION (12 T)
977D
977D
8E1441
PINION-BEVEL
518, 527, 931B, D5C, D5HTSK II
518, 527, 931B, D5C, D5HTSK II
9W1288
PINION-BEVEL
D7H, D7R, D7R II, D8N
D7H, D7R, D7R II, D8N
8B0192
PINION (24 & 28T)
561B, 977D
561B, 977D
4M0602
PINION (45&12T.)
583H, D8H
583H, D8H
583H, D8H
955H
6Y2576
PINION-BEVEL
D8N, D8R, D8R II
D8N, D8R, D8R II
955C