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Standard

Alternator Remanufacturing/Rebuilding Procedures Includes Passenger Car, Heavy Duty, Industrial, Agricultural, and Marine

2008-05-13

CURRENT

J2075_200805

These remanufacturing procedures are recommended minimum guidelines (with theunderstanding that being more critical is acceptable) for use by remanufacturers/rebuilders of alternators to promote consistent reliability, durability, and safety of remanufactured alternators. Installation of remanufactured or rebuilt products is often an economical way to repair an application even though the products may not be identical to original equipment parts. Before processing any part, a remanufacturer/rebuilder should determine if the original design and present condition of the core are suitable for remanufacturing/rebuilding so as to provide durable operation of the part as well as acceptable performance when installed on the application. The remanufacturer/rebuilder should also consider the safety aspects of the product and any recommendations of the original manufacturers related to remanufacturing or rebuilding this product.

Standard

Automotive Starter Remanufacturing Procedures

2008-06-09

CURRENT

J2073_200806

These manufacturing procedures are recommended minimum guidelines for use by remanufacturers of light-duty automotive starters to promote consistent reliability, durability, and safety of remanufactured starters. Installation of remanufactured or rebuilt products is often an economical way to repair a vehicle even though the products may not be identical to original equipment parts. Before processing any part, a remanufacturer should determine if the original design and present condition of the core are suitable for remanufacturing so as to provide durable operation of the part as well as acceptable performance when installed on the vehicle. The remanufacturer should also consider the safety aspects of the product and any recommendations of the original manufacturers related to remanufacturing or rebuilding their product.

Standard

Dynamic Flex Fatigue Test for Slab Polyurethane Foam

1998-06-01

CURRENT

J388_199806

This SAE Recommended Practice describes a laboratory test procedure for evaluating the loss of thickness and the amount of structural breakdown of slab polyurethane foam seating materials. A test specimen is measured for thickness under a specified load and subsequently subjected simultaneously to compressive and shear deformation in a controlled atmosphere. This is accomplished by subjecting the foam to a rolling shearing action under a constant load for a specified number of cycles. Specimen thickness under a constant load is obtained after a 1hr recovery period following dynamic fatigue to determine loss in foam thickness.

Standard

Engine Water Pump Remanufacture Procedures and Acceptance Criteria

2007-08-16

CURRENT

J1916_200708

This SAE Recommended Practice establishes remanufacturing procedures and acceptance criteria for engine water pumps.

Standard

Heavy-Duty Starter Remanufacturing Procedures

2008-11-26

CURRENT

J2237_200811

These remanufacturing procedures are recommended minimum guidelines (with the understanding that more stringent procedures are acceptable) for use by remanufacturers of heavy-duty starters to promote consistent reliability, durability, and safety of remanufactured starters. Installation of remanufactured or rebuilt products is often an economical way to repair an application even though the products may not be identical to original equipment parts. Before processing any part, a remanufacturer should determine if the original design and present condition of the core are suitable for remanufacturing so as to provide durable operation of the part as well as acceptable performance when installed on the application. The remanufacturer should also consider the safety aspects of the product and any recommendations of the original manufacturers related to remanufacturing or rebuilding their product.

Standard

NUMBERING SYSTEM FOR REAMERS

1990-11-01

HISTORICAL

J2124_199011

This SAE Recommended Practice provides a systematic method for the identification of various types of hand, machine, and shell reamers used in industrial applications. When used as recommended in this report, the numbering system will assist in obtaining consistent reamer descriptions in communications. The report was developed in cooperation with the Automotive Industry Action Group (AIAG).

Standard

NUMBERING SYSTEM FOR STANDARD DRILLS

1990-11-01

HISTORICAL

J2122_199011

This SAE recommended practice provides a systematic method for the identification of standard drills. It is intended to assist in the cataloging and supplying of these tools. The report was developed in cooperation with the Automotive Industry Action Group (AIAG).

Standard

NUMBERING SYSTEM FOR STANDARD TAPS

1990-11-01

HISTORICAL

J2123_199011

This SAE Recommended Practice provides a systematic method for the identification of standard taps. It is intended to assist in the cataloging and supplying of these tools. The report was developed in cooperation with the Automotive Industry Action Group (AIAG).

Standard

New-Vehicle Collision Repair Information

2019-10-28

CURRENT

J2376_201910

This SAE Recommended Practice defines the various types of information required by the collision repair industry to properly restore light-duty, highway vehicles to their pre-accident condition. Procedures and specifications are defined for damage-related repairs to body, mechanical, electrical, steering, suspension, and safety systems. The distribution method and publication timeliness are also considered.

Standard

New-Vehicle Collision Repair Information

2011-05-16

HISTORICAL

J2376_201105

This SAE Recommended Practice defines the various types of information required by the collision repair industry to properly restore light-duty, highway vehicles to their pre-accident condition. Procedures and specifications are defined for damage-related repairs to body, mechanical, electrical, steering, suspension, and safety systems. The distribution method and publication timeliness are also considered.

Standard

Numbering System for Multiple Diameter Cutting Tools

2019-10-09

CURRENT

J2276_201910

This SAE Recommended Practice provides a systematic method for the identification of multiple diameter cutting tools. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designators to prevent specifying cutting tools that cannot be physically or economically manufactured. NOTE 2— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering System for Multiple Diameter Cutting Tools

1998-10-13

HISTORICAL

J2276_199810

This SAE Recommended Practice provides a systematic method for the identification of multiple diameter cutting tools. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designators to prevent specifying cutting tools that cannot be physically or economically manufactured. NOTE 2— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering System for Single Diameter and Taper Reamers

2019-10-09

CURRENT

J2124_201910

This SAE Recommended Practice provides a systematic method for the identification of single diameter and taper reamers. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designators to prevent specifying reamers that cannot be physically or economically manufactured. NOTE 2— The Code Number coming from the manufacturer MUST reflect the actual tool construction. NOTE 3— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering System for Single Diameter and Taper Reamers

1998-10-14

HISTORICAL

J2124_199810

This SAE Recommended Practice provides a systematic method for the identification of single diameter and taper reamers. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designators to prevent specifying reamers that cannot be physically or economically manufactured. NOTE 2— The Code Number coming from the manufacturer MUST reflect the actual tool construction. NOTE 3— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering System for Taps

1998-10-14

HISTORICAL

J2123_199810

This SAE Recommended Practice provides a systematic method for the identification of ground thread taps for inch sizes up to 9.999 in with a Maximum Thread-per-Inch of 99.9, and Metric sizes up to 99.9 mm with a Maximum pitch of 9.99 mm. It is intended to assist in the cataloging and supplying of these tools. It is not intended for ACME, Buttress, or similar type thread forms. NOTE 1— Caution must be taken when assigning codes to prevent specifying taps that cannot be physically or economically manufactured. NOTE 2— The Code Number coming from the manufacturer MUST reflect the actual tool construction. NOTE 3— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering System for Taps

2019-10-09

CURRENT

J2123_201910

This SAE Recommended Practice provides a systematic method for the identification of ground thread taps for inch sizes up to 9.999 in with a Maximum Thread-per-Inch of 99.9, and Metric sizes up to 99.9 mm with a Maximum pitch of 9.99 mm. It is intended to assist in the cataloging and supplying of these tools. It is not intended for ACME, Buttress, or similar type thread forms. NOTE 1— Caution must be taken when assigning codes to prevent specifying taps that cannot be physically or economically manufactured. NOTE 2— The Code Number coming from the manufacturer MUST reflect the actual tool construction. NOTE 3— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering Systems for End Mills

2019-10-09

CURRENT

J2342_201910

This SAE Recommended Practice provides a systematic method for the identification of End Mills. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designation to prevent specifying cutting tools that cannot be physically or economically manufactured. NOTE 2— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

Numbering Systems for End Mills

1999-01-20

HISTORICAL

J2342_199901

This SAE Recommended Practice provides a systematic method for the identification of End Mills. It is intended to assist in the cataloging and supplying of these tools. NOTE 1— Caution must be taken when assigning codes for designation to prevent specifying cutting tools that cannot be physically or economically manufactured. NOTE 2— In particular without limitation, SAE disclaims all responsibility for the accuracy or completeness of information contained within this report if the standards of this report are retrieved, combined, or used in connection with any software.

Standard

OEM Plastic Parts Repair

2019-10-24

CURRENT

J1573_201910

This SAE Recommended Practice defines the information required to repair the various types of plastics found on modern light-duty highway vehicles. Information is included for the repair and refinishing of most plastic body parts, both interior and exterior. Repair information is described for all commonly used plastics including, but not limited to, polyurethanes, polycarbonate blends, modified polypropylenes, polyethylenes and nylons. Repairs can be made to these types of plastics using two-part (2K) repair adhesives, plastic welding, and other materials available from body shop suppliers. When a new type of plastic is being introduced to the market through a new vehicle program, specific repair and refinishing procedures should be provided, following the format in this document. Sheet-molded compounds (SMC), fiber-reinforced plastics (FRP) and carbon fiber reinforced plastics can also be repaired using slightly different procedures and repair materials.

Standard

OEM Plastic Parts Repair

2011-12-20

HISTORICAL

J1573_201112

This SAE Recommended Practice defines the information required to repair the various types of plastics found on modern light-duty highway vehicles. Information is included for the repair and refinishing of most plastic body parts, both interior and exterior. Repair information is described for all commonly used plastics including, but not limited to, polyurethanes, polycarbonate blends, modified polypropylenes, polyethylenes and nylons. Repairs can be made to these types of plastics using two-part (2K) repair adhesives, plastic welding, and other materials available from body shop suppliers. When a new type of plastic is being introduced to the market through a new vehicle program, specific repair and refinishing procedures should be provided, following the format in this document. Sheet-molded compounds (SMC), fiber-reinforced plastics (FRP) and carbon fiber reinforced plastics can also be repaired using slightly different procedures and repair materials.