Search Results

Standard

Ultrasonic Inspection Thin Wall Metal Tubing

2022-06-20

CURRENT

AMS2634C

This specification covers procedures for ultrasonic inspection of thin wall metal tubing of titanium, titanium alloy, and corrosion- and heat-resistant steels and alloys having nominal OD over 0.1875 inch (4.762 mm) with OD to wall thickness ratio of 8 or greater and wall thickness variation not exceeding ±10% of nominal.

Standard

Inspection, Ultrasonic, of Thin Materials 0.50 Inch (12.7 mm) and Under in Cross-Sectional Thickness

2022-06-02

CURRENT

AMS2632C

This specification covers the procedure for ultrasonic inspection of flat, contoured, round, and hollow cylindrical products having a cross-sectional thickness of 0.02 to 0.50 inch (0.5 to 12.7 mm). This specification does not apply to inspection of composite materials.

Standard

Inspection, Ultrasonic Product Over 0.5 Inch (12.7 mm) Thick

2021-11-09

CURRENT

AMS2630E

This specification covers procedures for ultrasonic inspection, by pulse-echo procedures, of flat, rectangular, round, cylindrical, and contoured products having a thickness or cross-sectional dimension greater than 0.5 inch (12.7 mm), using either contact or immersion methods, and using the longitudinal-wave or shear-wave modes or combinations of the two, as necessary. This specification may apply to testing finished machined parts provided the parts can meet the basic testability requirements, such as size, contour, metallurgical structure, and thickness.

Standard

Fluorescent Penetrant Inspection Aircraft Structures and Engine Component Maintenance

2021-09-20

CURRENT

AMS2647G

This specification details requirements and procedures for the detection of defects in aircraft structural and engine components during maintenance and overhaul operations.

Standard

Inspection, Ultrasonic, Wrought Metals, Process for

2021-07-15

CURRENT

AMSSTD2154E

The purpose of this standard is to provide uniform methods for the ultrasonic inspection of wrought metals and wrought metal products.

Standard

Ultrasonic Inspection Titanium and Titanium Alloy Bar, Billet and Plate

2021-06-22

HISTORICAL

AMS2631F

This specification covers the procedure for ultrasonic inspection of wrought titanium and titanium alloy products 0.25 inch (6.4 mm) and over in cross-section (thickness) or diameter.

Standard

Vehicle, Magnetic Particle Inspection Petroleum Base

2020-10-09

CURRENT

AMS2641D

This specification covers two types of refined hydrocarbon compounds in the form of liquids. This specification only covers newly manufactured materials.

Standard

Eddy Current Inspection of Open Fastener Holes in Aluminum Aircraft Structure

2020-09-22

CURRENT

ARP4402A

This SAE Aerospace Recommended Practice establishes the requirements and procedures for eddy current inspection of open fastener holes in aluminum aircraft structures.

Standard

Exposure Levels of UV Radiation in Nondestructive Inspection Processes

2019-08-05

CURRENT

AIR4964

Long wave ultraviolet or UV-A radiation (between 320 to 400 nm) is used for fluorescent inspections in magnetic particle and liquid penetrant examinations. The UV-A radiation is obtained from either fluorescent or high intensity discharge lamps that are stationary or portable. The commercially available UV-A lamps possess a large variation in intensity output that can cause a legitimate concern for possible health hazard. This draft reviews the nature of UV-A radiation emitted by these lights, blacklight equipment, acceptable UV dosage limits adopted by the American Conference of Governmental Industrial Hygienists (ACGIH) and the European Standards Committee for Nondestructive Testing, and recommendation of proper practices when working with UV-A radiation.

Standard

Barkhausen Noise Inspection for Detecting Grinding Burns in High Strength Steel Parts

2019-06-06

CURRENT

ARP4462B

This recommended practice establishes the requirements and procedures for Barkhausen Noise (BN) inspection of ferromagnetic steel components. Applications of the method are listed in 1.2 through 1.5.

Standard

Enhanced Ultrasonic Immersion Inspection for Titanium Alloy and other Metal Alloy Billets

2019-05-16

CURRENT

AMS2628B

This specification covers procedures for ultrasonic immersion inspection of premium grade wrought titanium and titanium alloy round billet 5 inches (127 mm) and over in nominal diameter (see 8.5). Metal alloy billets other than titanium may be tested to this specification with the use of suitable reference standards.

Standard

Ultrasonic Inspection Thin Wall Metal Tubing

2019-04-24

HISTORICAL

AMS2634B

This specification covers procedures for ultrasonic inspection of thin wall metal tubing of titanium, titanium alloy, and corrosion and heat resistant steels and alloys having nominal OD over 0.1875 inch (4.762 mm) with OD to wall thickness ratio of 8 or greater and wall thickness variation not exceeding ±10% of nominal.

Standard

Inspection, Ultrasonic Product Over 0.5 Inch (12.7 mm) Thick

2018-08-08

HISTORICAL

AMS2630D

This specification covers procedures for ultrasonic inspection, by pulse-echo procedures, of flat, rectangular, round, cylindrical, and contoured products having a thickness or cross-sectional dimension greater than 0.5 inch (12.7 mm), using either contact or immersion methods, and using the longitudinal-wave or shear-wave modes or combinations of the two, as necessary. This specification may apply to testing finished machined parts provided the parts can meet the basic testability requirements, such as size, contour, metallurgical structure, and thickness.

Standard

Inspection, Ultrasonic, of Thin Materials 0.50 Inch (12.7 mm) and Under in Cross-Sectional Thickness

2018-08-08

HISTORICAL

AMS2632B

This specification covers the procedure for ultrasonic inspection of flat, contoured, round and hollow cylindrical products having a cross-sectional thickness of 0.02 to 0.50 inches (0.5 to 12.7 mm). This specification does not apply to inspection of composite materials.

Standard

Barkhausen Noise Inspection for Detecting Grinding Burns in High Strength Steel Parts

2018-07-10

HISTORICAL

ARP4462A

This recommended practice establishes the requirements and procedures for Barkhausen Noise (BN) inspection of ferromagnetic steel components. Applications of the method are listed below in 1.2 through 1.5.

Standard

Ultrasonic Inspection Centrifugally-Cast, Corrosion-Resistant Steel Tubular Cylinders

2017-10-30

CURRENT

AMS2633D

This procedure covers ultrasonic inspection of tubular, centrifugally-cast, corrosion-resistant steel cylinders.

Standard

Fluorescent Penetrant Inspection Aircraft and Engine Component Maintenance

2017-09-29

HISTORICAL

AMS2647F

This specification details requirements and procedures for the detection of defects in aircraft and engine components during maintenance and overhaul operations.

Standard

Ultrasonic Inspection Titanium and Titanium Alloy Bar, Billet and Plate

2017-07-11

HISTORICAL

AMS2631E

This specification covers the procedure for ultrasonic inspection of wrought titanium and titanium alloy products 0.25 inch (6.4 mm) and over in cross-section (thickness) or diameter.

Standard

Ultrasonic Immersion Inspection Titanium and Titanium Alloy Forgings Premium Grade

2016-11-29

CURRENT

AMS2636A

This specification covers procedures for ultrasonic immersion inspection of premium grade wrought titanium and titanium alloy forgings. Premium grade is a term used to describe titanium alloys used for critical rotating components in turbine engines. For details, see SAE AMS2380, the specification that covers the procedures for approval of products of premium-quality titanium alloys and the controls to be exercised in producing such products.

Standard

Inspection Process, Magnetic Rubber

2016-01-06

CURRENT

AMSI83387B

This specification covers both the material and the examination process of an inspection material in the form of a dispersion of magnetic particles in a controlled viscosity rubber base that cures at room temperature by addition of one or more curing agents. The test object is magnetized with the uncured rubber covering the area of interest. The magnetic particles then migrate to the leakage field caused by the discontinuity. As the rubber cures, discontinuity indications remain in place on the rubber. The product may be supplied in a variety of viscosities and colors.