Search Results

Standard

Weldability Test for Weld Filler Metal Wire

2011-04-13

HISTORICAL

ARP1876B

This SAE Aerospace Recommended Practice defines a method for determining the weldability of weld filler metal in continuous coil or cut length form. It is applicable to all solid (non flux-containing) wires. It is intended as a referee method for testing weld filler metals in case of dispute between purchaser and vendor.

Standard

WELDABILITY TEST FOR WELD FILLER METAL WIRE

1993-12-01

HISTORICAL

ARP1876

Standard

Training and Approval of Heat-Treating Personnel

2019-06-11

CURRENT

ARP1962B

This SAE Aerospace Recommended Practice (ARP) describes training and approval of personnel performing certain heat-treating and associated operations that could have a material impact on the properties of materials being heat treated. It also recommends that only approved personnel perform or monitor the functions listed in Table 1.

Standard

Training and Approval of Heat-Treating Personnel

2007-05-01

HISTORICAL

ARP1962A

This document requires that the company (facility) employing the personnel ensure a verifiable program of on-the-job training, experience, education, classroom instruction, and evaluation of personnel using either company-created programs or programs described herein.

Standard

The Pre-Treatment and Protection of Steel Items of Specified Maximum Tensile Strength Exceeding 1450 MPa

2017-03-21

CURRENT

AMS03_4A

This SAE Standard specifies the special treatments and precautions that are to be observed when protective and other surface treatments are applied to items, including springs, made from steel of specified maximum tensile strength exceeding 1450 MPa. The requirements of this Standard qualify those in process specifications and override the latter where there is conflict. The Standard also gives advice on design, manufacture, and preparation of items prior to cleaning and protection.

Standard

The Pre-Treatment and Protection of Steel Items of Specified Maximum Tensile Strength Exceeding 1450 MPa

2015-04-27

HISTORICAL

AMS03_4

This SAE Standard specifies the special treatments and precautions that are to be observed when protective and other surface treatments are applied to items, including springs, made from steel of specified maximum tensile strength exceeding 1450 MPa. The requirements of this Standard qualify those in process specifications and override the latter where there is conflict. The Standard also gives advice on design, manufacture, and preparation of items prior to cleaning and protection.

Standard

Selective (Brush) Nickel Plating Low-Stressed, Low Hardness Deposit

2000-10-01

CURRENT

AMS2441A

This specification covers the engineering requirements for selective (brush) electrodeposition of nickel and the properties of the deposit. This process has been used typically to provide moderate corrosion and oxidation resistance and dimensional build-up and restoration of parts which may operate in service up to 700 degrees F (371 degrees C), where low tensile stress in the deposit is required to avoid marked reduction of fatigue strength, but usage is not limited to such applications.

Standard

Selective (Brush) Nickel Plating Low-Stressed, Hard Deposit

2000-10-01

CURRENT

AMS2439A

This specification covers the engineering requirements for selective (brush) electrodeposition of nickel and the properties of the deposit. This process has been used typically to provide good wear resistance and dimensional build-up and restoration of parts which may operate in service up to 450 degrees F (232 degrees C), where low tensile stress in the deposit is required, but usage is not limited to such applications. Diffusion heat treatment of the deposit is not required.

Standard

SILVER PLATING Nickel Strike - High Bake

1951-10-01

HISTORICAL

AMS2410A

Standard

SILVER PLATING Nickel Strike - High Bake

1945-08-01

HISTORICAL

AMS2410

Standard

SILVER BRAZING Unhardened Steels and Alloys

1968-05-01

HISTORICAL

AMS2664

Standard

SILVER BRAZING Unhardened Steels and Alloys

1972-11-01

HISTORICAL

AMS2664B

This specification covers the engineering requirements for production of brazed joints in parts made of iron, nickel, and cobalt base alloys by use of silver alloys and the properties of such joints.

Standard

SILVER BRAZING Unhardened Steels and Alloys

1969-11-01

HISTORICAL

AMS2664A

Standard

SILVER BRAZING Unhardened Steels and Alloys

1973-12-01

HISTORICAL

AMS2664C

This specification covers the engineering requirements for production of brazed joints in parts made of iron, nickel, and cobalt base alloys by use of silver alloys and the properties of such joints.

Standard

SILVER AND RHODIUM PLATING

1961-01-01

HISTORICAL

AMS2413

Standard

SILVER AND RHODIUM PLATING

1966-09-01

HISTORICAL

AMS2413A

Standard

Qualification of Aerospace Personnel Performing Special Processes

2021-07-23

CURRENT

AS7767

Standard

Qualification and Certification of Etch Inspectors

2011-04-13

HISTORICAL

ARP1923A

This specification covers the requirements for qualification, requalification, and certification of etch inspectors.

Standard

QUALIFICATION AND CERTIFICATION OF ETCH INSPECTORS

1995-05-01

HISTORICAL

ARP1923

This specification covers the requirements for qualification, requalification, and certification of etch inspectors.

Standard

Plating, Silver, Nickel Strike, High Bake

2000-12-01

CURRENT

MAM2410A

This specification covers the engineering requirements for electrodeposition of silver on other metals, usually with a nickel strike between the basis metal and the silver, and the properties of the deposit. AMS 2410 is the inch/pound version of this MAM. This processes has been used typically to provide a bearing surface and to prevent galling or seizing of surfaces of parts made of corrosion-resistant steels and alloys and of parts made of other metals not deleteriously affected by high-temperature baking, but usage is not limited to such applications.