Search Results

Standard

Electron Beam Directed Energy Deposition-Wire Additive Manufacturing Process (EB-DED-Wire)

2020-11-18

CURRENT

AMS7027

This specification establishes process controls for the repeatable production of aerospace parts by EB-DED-Wire. It is intended to be used for metal aerospace parts produced by additive manufacturing (AM), but usage is not limited to such applications.

Standard

Precipitation Hardenable Steel Alloy, Corrosion and Heat-Resistant, Powder for Binder Jet Additive Manufacturing, 16.0Cr - 4.0Ni - 4.0Cu - 0.30Nb

2021-06-22

CURRENT

AMS7035

This specification covers a corrosion and heat-resistant steel alloy in the form of pre-alloyed powder.

Standard

Aluminum Alloy Powder 4.6Cu - 3.4Ti - 1.4B - 0.75Ag - 0.27Mg

2021-06-22

CURRENT

AMS7033

This specification covers an aluminum alloy in the form of pre-alloyed powder.

Standard

Aluminum Alloy Powder 7.0Si - 0.55Mg - 0.12Ti

2021-11-09

CURRENT

AMS7020

This specification covers an aluminum alloy in the form of pre-alloyed powder.

Standard

Electron Beam-Powder Bed Fusion (EB-PBF) Produced Preforms and Parts Titanium Alloy, 6Al - 4V Hot Isostatically Pressed

2022-11-22

CURRENT

AMS7011

This specification covers a titanium alloy in the form of preforms and parts produced by electron beam-powder bed fusion (EB-PBF) that are subjected to post-deposition hot isostatic press (HIP). Preforms may require subsequent machining or surface finishing to meet requirements for their intended final part application.

Standard

Electron Beam Powder Bed Fusion Process

2020-07-01

CURRENT

AMS7007

This specification establishes process controls for the repeatable production of aerospace parts by Electron Beam Powder Bed Fusion (EB-PBF). It is intended to be used for aerospace parts manufactured using additive manufacturing (AM) metal alloys, but usage is not limited to such applications.

Standard

Titanium Alloy Preforms from Plasma Arc Directed Energy Deposition Additive Manufacturing on Substrate Ti-6Al-4V Stress Relieved

2019-01-31

CURRENT

AMS7004

This specification covers preforms fabricated up through 5.5 inches (140 mm) inclusive in deposition width thickness (see 8.2.5) using a Plasma Arc Directed Energy Deposition (PA-DED) additive manufacturing process on a Ti-6Al-4V substrate that are subjected to post-deposition stress relief heat treatment. This is a wire fed additive manufacturing process. If required by the CEO, preforms may require subsequent machining to meet requirements for their intended final part application.

Standard

Aluminum Alloy Powder 10.0Si - 0.35Mg

2020-05-11

CURRENT

AMS7018

This specification covers an aluminum alloy in the form of pre-alloyed powder.

Standard

Titanium 6-Aluminum 4-Vanadium Powder for Additive Manufacturing

2022-04-22

CURRENT

AMS7015

This specification covers a titanium alloy in the form of pre-alloyed powder.

Standard

Nickel Alloy, Corrosion and Heat-Resistant, Powder for Additive Manufacturing, 60Ni - 22Cr - 2.0Mo - 14W - 0.35Al - 0.03La

2019-01-03

CURRENT

AMS7013

The intended upper bound of this specification is that the particle size distribution (PSD) of powders supplied shall be <60 mesh (250 µm) and that no powder (0.0 wt.%) greater than 40 mesh (425 µm) is allowed.

Standard

Laser-Powder Bed Fusion (L-PBF) Produced Parts, Nickel Alloy, Corrosion and Heat-Resistant, 62Ni - 21.5Cr - 9.0Mo - 3.65Nb Stress Relieved, Hot Isostatic Pressed and Solution Annealed

2018-06-08

HISTORICAL

AMS7000

This specification covers a corrosion and heat-resistant nickel alloy in the form of parts produced by laser-powder bed fusion (L-PBF) that are subjected to post-deposition stress relief (SR), hot isostatic press (HIP) and solution anneal operations. Parts may require subsequent machining or surface finishing to meet specific application requirements.

Standard

Titanium Alloy Laser Deposited Products 6Al - 4V Annealed

2002-02-20

HISTORICAL

AMS4999

This specification covers metal products fabricated by laser deposition.

Standard

Titanium Alloy Direct Deposited Products 6Al - 4V Annealed

2016-09-26

CURRENT

AMS4999A

This specification covers metal products fabricated by direct metal deposition.

Standard

Binder Jet Additive Manufacturing (BJAM) Process

2020-11-19

CURRENT

AMS7022

This specification establishes process controls for the repeatable production of sintered parts by binder jet additive manufacturing (BJAM). It is primarily intended to be used to manufacture metallic or ceramic aerospace parts, but usage is not limited to such applications.

Standard

Powder History Metric and Labeling Schema

2022-11-22

CURRENT

ARP7044

This SAE Aerospace Recommended Practice (ARP) describes a method to measure, track, and characterize the history of powder feedstock when consumed in the production of parts via additive manufacturing (AM). The history captured as part of this ARP includes AM process exposure, feedstock consumption, blending, and losses associated with the totality of the AM workflow. This document also outlines a two-part metric schema for used powder feedstock consequential of its process exposure history. This metric schema also enables aligning risk determination and usage practices for used powder when based on a correlation between tabulated values in the scheme and user-identified metrics. These correlated metrics with schema values may also be used when establishing powder blending workflows or identifying end-of-life for feedstock.

Standard

Laser Powder Bed Fusion Process

2022-08-05

CURRENT

AMS7003A

This specification establishes process controls for the repeatable production of aerospace parts by Laser Powder Bed Fusion (L-PBF). It is intended to be used for aerospace parts manufactured using Additive Manufacturing (AM) metal alloys, but usage is not limited to such applications.

Standard

Laser Powder Bed Fusion Process

2018-06-08

HISTORICAL

AMS7003

This specification establishes process controls for the repeatable production of aerospace parts by Laser Powder Bed Fusion (L-PBF). It is intended to be used for aerospace parts manufactured using Additive Manufacturing (AM) metal alloys, but usage is not limited to such applications.

Standard

Nickel Alloy, Corrosion and Heat-Resistant, Powder for Additive Manufacturing, 62Ni - 21.5Cr - 9.0Mo - 3.65Nb

2018-06-08

CURRENT

AMS7001

This specification covers a corrosion and heat-resistant nickel alloy in the form of pre-alloyed powder.

Standard

Titanium Alloy, High Temperature Applications, Powder for Additive Manufacturing, Ti - 6.0Al - 2.0Sn - 4.0Zr - 2.0Mo

2019-03-11

CURRENT

AMS7014

This specification covers a heat-resistant titanium alloy in the form of pre-alloyed powder.

Standard

Machine Qualification for Fusion-Based Metal Additive Manufacturing

2022-08-17

CURRENT

AMS7032

This standard has notes/guidance narratives interspersed throughout. These notes/guidance narratives are identified by a header and by text in italics. This standard defines a series of requirements that results in a specific AM machine qualified to produce material (see GN1) in compliance to an aerospace materials specification. The machine control and/or configuration types are discussed in the next sections. The industry (including AIA and ASTM) generally acknowledges that there are three qualification milestones for AM machines; nevertheless, this document will focus only on the initial two stages, namely: Installation Qualification (IQ): Producing objective evidence to show that all key aspects of the process equipment and ancillary system installation adhere to the AM Part Producer’s specification and that the recommendations of the supplier of the equipment are suitably considered; this is tied to a specific machine serial number.