Search Results

Standard

CAST STEEL GRIT

1993-03-01

HISTORICAL

J1993_199303

This SAE Recommended Practice describes the chemical composition and the physical requirements for high carbon cast steel grit.

Standard

CAST STEEL SHOT

1990-03-01

HISTORICAL

J827_199003

This SAE Recommended Practice describes chemical analysis, hardness, microstructure and physical characteristic requirements for cast steel shot to be used for shot peening or blast cleaning operations.

Standard

CAST STEEL SHOT

1962-06-01

HISTORICAL

J827_196206

Standard

CAST STEEL SHOT

1969-01-01

HISTORICAL

J827_196901

Standard

CUT WIRE SHOT

1987-05-01

HISTORICAL

J441_198705

Standard

CUT WIRE SHOT

1993-06-01

HISTORICAL

J441_199306

This SAE Recommended Practice is considered to be tentative and is subject to modification to meet new developments or requirements. It is offered as a guide in the selection and use of cut wire shot.

Standard

Computer Generated Shot Peening Saturation Curves

2010-01-14

HISTORICAL

J2597_201001

This SAE Recommended Practice defines a procedure for the use of computer generated saturation curves to determine peening intensity. Calculation of intensity within a tolerance band for each data set in Table 1 one is required for compliance with this practice.

Standard

DEFINITIONS FOR MACROSTRAIN AND MICROSTRAIN

1985-08-01

HISTORICAL

J932_198508

In the analysis and measurement of residual stresses of materials, it has been noted that there are frequently differences in interpretation of the terms "macrostrain" and "microstrain." To assist communication among research personnel in this area, definitions for these two terms are suggested by the Fatigue Design and Evaluation Committee of SAE. Since "macrostress" is commonly computed from "macrostrain" in residual stress analysis, to be consistent, the definitions given are for "macrostrain" and "microstrain."

Standard

Definition for Particle Size

2011-06-01

CURRENT

J391_201106

"Effective particle or domain size" is a phrase used in X-ray diffraction literature to describe the size of the coherent regions within a material which are diffracting. Coherency in this sense means diffracting as a unit. Small particle size causes X-ray line broadening and as such can be measured. It has been shown related to substructure as observed in transmission electron microscopy. Particle size is affected by hardening, cold working, and fatigue; conversely, there is increasing evidence that particle size, per se, affects both static and dynamic strength.

Standard

Definitions for Macrostrain and Microstrain

2011-08-04

CURRENT

J932_201108

In the analysis and measurement of residual stresses of materials, it has been noted that there are frequently differences in interpretation of the terms "macrostrain" and "microstrain." To assist communication among research personnel in this area, definitions for these two terms are suggested by the Fatigue Design and Evaluation Committee of SAE. Since "macrostress" is commonly computed from "macrostrain" in residual stress analysis, to be consistent, the definitions given are for "macrostrain" and "microstrain."

Standard

METALLIC SHOT AND GRIT MECHANICAL TESTING

1996-04-01

HISTORICAL

J445_199604

This SAE Information Report is intended to provide users and producers of metallic shot and grit2 with general information on methods of mechanically testing metal shot in the laboratory.

Standard

METALLIC SHOT AND GRIT MECHANICAL TESTING

1984-08-01

HISTORICAL

J445_198408

This report is intended to provide users and producers of metallic shot and grit1 with general information on methods of mechanically testing metal shot in the laboratory.

Standard

Metallic Shot and Grit Mechanical Testing

2022-05-04

CURRENT

J445_202205

This SAE Information Report is intended to provide users and producers of metallic shot and grit2 with general information on methods of mechanically testing metal shot in the laboratory.

Standard

Metallic Shot and Grit Mechanical Testing

2005-07-25

HISTORICAL

J445_200507

This SAE Information Report is intended to provide users and producers of metallic shot and grit2 with general information on methods of mechanically testing metal shot in the laboratory.

Standard

Metallic Shot and Grit Mechanical Testing

2013-08-21

HISTORICAL

J445_201308

This SAE Information Report is intended to provide users and producers of metallic shot and grit2 with general information on methods of mechanically testing metal shot in the laboratory.

Standard

PROCEDURES FOR USING STANDARD SHOT PEENING TEST STRIP

1984-01-01

HISTORICAL

J443_198401

This SAE Recommended Practice provides uniform procedures for using the standard shot peening test strips reported in SAE Standard J442, Test Strip, Holder and Gage for Shot Peening. Standard test strips are used to control repeatability of the shot peening machine operations, and to specify a desired result on a part. It is recommended that the standard test strip A be used for intensities that produce arc heights of 6A to 24A. For intensities below 6A, the standard N strip is recommended, and for intensities above 24A, the standard C strip is recommended. Shot peening is intended to induce surface compressive stresses in metal parts for the purpose of improving resistance to fatigue and stress corrosion cracking. Springs, axles, and aircraft landing gears are typical examples of such parts.

Standard

Procedures for Using Standard Shot Peening Almen Strip

2010-06-16

HISTORICAL

J443_201006

This SAE Recommended Practice provides uniform procedures for using the standard shot peening Almen strips reported in SAE J442. Standard Almen strips are used to establish saturation, determine intensity, monitor repeatability of the shot peening machine operations, and can be used to predict a desired result on a part. It is recommended that the standard Almen strip A be used for intensities that produce arc heights of 0.10 mm A (0.004 in A) to 0.60 mm A (0.024 in A). For intensities below 0.10 mm A (0.004 in A), the standard N strip is recommended, and for intensities above 0.60 mm A (0.024 in A), the standard C strip is recommended. Use of SAE 2597 Computer Generated Shot Peening Saturation Curves is voluntary, existing shot peening processes that do not take advantage of computer generated saturation curves need not be changed to meet the requirements listed herein.

Standard

Procedures for Using Standard Shot Peening Almen Test Strip

2021-05-26

WIP

J443

This SAE Recommended Practice Specification provides the procedures for using test strips per SAE J442 for peening processes.

Standard

Procedures for Using Standard Shot Peening Almen Test Strip

2017-08-18

CURRENT

J443_201708

This SAE Recommended Practice Specification provides the procedures for using test strips per SAE J442 for peening processes.

Standard

Procedures for Using Standard Shot Peening Test Strip

2003-01-09

HISTORICAL

J443_200301

This SAE Recommended Practice provides uniform procedures for using the standard shot peening test strips reported in SAE J442. Standard test strips are used to establish saturation, determine intensity, monitor repeatability of the shot peening machine operations, and can be used to predict a desired result on a part. It is recommended that the standard test strip A be used for intensities that produce arc heights of 0.10mm A (0.004 inch A) to 0.60 mm A (0.024 inch A). For intensities below 0.10 mm A (0.004 inch A), the standard N strip is recommended, and for intensities above 0.60 mm A (0.024 inch A), the standard C strip is recommended. The process of shot peening, in common with many other processes, cannot at present be adequately controlled by nondestructive inspection of the peened parts, therefore, it is necessary to control the process itself to achieve consistent, reliable results.