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CURRENT
2015-04-28
Standard
J126_201504
This SAE Recommended Practice outlines a procedure for selecting the proper specification for carbon steel sheet and strip which are purchased to make an identified part. Specifications considered are: ASTM A109—Steel, Carbon, Cold Rolled Strip. ASTM A569—Steel, Carbon (0.15 maximum percent), Hot Rolled Sheet, Commercial Quality (HRCQ). ASTM A621—Steel, Sheet, Carbon, Hot Rolled, Drawing Quality (HRDQ). ASTM A622—Steel, Sheet, Carbon, Hot Rolled, Drawing Quality, Special Killed (HRDQSK). ASTM A568—Steel, Carbon and High-Strength Low-Alloy Hot Rolled Sheet, and Cold Rolled Sheet, General Requirements. ASTM A366—Steel, Carbon, Cold Rolled Sheet, Commercial Quality (CRCQ). ASTM A619—Steel, Sheet, Carbon, Cold Rolled, Drawing Quality (CRDQ). ASTM A620—Steel, Sheet, Carbon, Cold Rolled, Drawing Quality, Special Killed (CRDQSK). ASTM A749M—Steel, Carbon and High-Strength Low-Alloy, Hot Rolled Strip, General Requirements.
HISTORICAL
1981-06-01
Standard
J126_198106
This SAE Recommended Practice outlines a procedure for selecting the proper specification for carbon steel sheet and strip which are purchased to make an identified part. It also describes how codes or symbols for specifying certain characteristics may be used in electronic data processing systems. Characteristics covered are: (A) Hot or cold rolled. (B) Sheet or strip. (C) Severity of draw (quality of steel). (D) Surface condition (finish, etc.). (E) Edge condition. (F) Dimensions. It is intended that other characteristics and part identification be covered by a supplement to the specification, as necessary.
HISTORICAL
1979-02-01
Standard
J126A_197902
This SAE Recommended Practice outlines a procedure for selecting the proper specification for carbon steel sheet and strip which are purchased to make an identified part. It also describes how codes or symbols for specifying certain characteristics may be used in electronic data processing systems. Characteristics covered are: (A) Hot or cold rolled. (B) Sheet or strip. (C) Severity of draw (quality of steel). (D) Surface condition (finish, etc.). (E) Edge condition. (F) Dimensions. It is intended that other characteristics and part identification be covered by a supplement to the specification, as necessary.
HISTORICAL
1986-06-01
Standard
J126_198606
This SAE Recommended Practice outlines a procedure for selecting the proper specification for carbon steel sheet and strip which are purchased to make an identified part. It also describes how codes or symbols for specifying certain characteristics may be used in electronic data processing systems. Characteristics covered are: (A) Hot or cold rolled. (B) Sheet or strip. (C) Severity of draw (quality of steel). (D) Surface condition (finish, etc.). (E) Edge condition. (F) Dimensions. It is intended that other characteristics and part identification be covered by a supplement to the specification, as necessary.
CURRENT
2015-04-28
Standard
J2329_201504
This SAE Recommended Practice establishes mechanical property ranges for low-carbon automotive hot-rolled sheet, cold-rolled sheet, and metallic-coated sheet steels. It also contains information that explains the different nomenclature used with these steels.
HISTORICAL
1997-05-01
Standard
J2329_199705
This SAE Recommended Practice establishes mechanical property ranges for low-carbon automotive hot-rolled sheet, cold-rolled sheet, and metallic-coated sheet steels. It also contains information that explains the different nomenclature used with these steels.
HISTORICAL
1987-09-01
Standard
J1852_198709
The purpose of this SAE Information Report is to describe those properties of galvanized low carbon sheet steel which relate to its formability; that is, its ability to be formed with the structural, dimensional and surface integrity to fulfill the design intent.
CURRENT
1997-09-01
Standard
J1852_199709
The purpose of this SAE Information Report is to describe those properties of galvanized low carbon sheet steel which relate to its formability; that is, its ability to be formed with the structural, dimensional and surface integrity to fulfill the design intent.
HISTORICAL
1984-06-01
Standard
J877_198406
Problems associated with the evaluation of formability or deep drawability of sheet metals are complex and may be difficult to solve due to the number of variables involved. As long ago as 1940, the AISI Technical Committee on Sheet Steel reviewed this problem. More recently, Volume 1 of the Ninth Edition of the ASM Metals Handbook contains sections on "Low Carbon Steel Sheet and Strip" and "Formability of Steel Sheet" that provide suggestions to help evaluate parts and select materials. The purpose of this information report is to summarize the sheet metal characteristics that are commonly used when attempting to predict the formability of sheet metal.
CURRENT
1997-09-01
Standard
J877_199709
Problems associated with the evaluation of formability or deep drawability of sheet metals are complex and may be difficult to solve due to the number of variables involved. As long ago as 1940, the AISI Technical Committee on Sheet Steel reviewed this problem. More recently, Volume 1 of the Ninth Edition of the ASM Metals Handbook contains sections on 'Low Carbon Steel and Strip' and 'Formability of Steel Sheet' that provide suggestions to help evaluate parts and select materials. The purpose of this information report is to summarize the sheet metal characteristics that are commonly used when attempting to predict the formability of sheet metal.
HISTORICAL
1963-10-01
Standard
J877_196310
Problems associated with the evaluation of formability or deep drawability of sheet metals are complex and may be difficult to solve due to the number of variables involved. As long ago as 1940, the AISI Technical Committee on Sheet Steel reviewed this problem. More recently, Volume 1 of the Ninth Edition of the ASM Metals Handbook contains sections on 'Low Carbon Steel and Strip' and 'Formability of Steel Sheet' that provide suggestions to help evaluate parts and select materials. The purpose of this information report is to summarize the sheet metal characteristics that are commonly used when attempting to predict the formability of sheet metal.
HISTORICAL
1966-08-01
Standard
J863A_196608
This SAE Recommended Practice describes methods for determining plastic deformation encountered in the forming or drawing of sheet steel. the preferred method for determining plastic strain is the circle grid and the severity curve. The scribed square and change in thickness methods may also be used to evaluate deformation during the forming of a flat sheet into the desired shape.
HISTORICAL
1981-12-01
Standard
J863_198112
This SAE Recommended Practice describes methods for determining plastic deformation encountered in the forming or drawing of sheet steel. the preferred method for determining plastic strain is the circle grid and the severity curve. The scribed square and change in thickness methods may also be used to evaluate deformation during the forming of a flat sheet into the desired shape.
CURRENT
2015-04-28
Standard
J863_201504
This SAE Recommended Practice describes methods for determining plastic deformation encountered in the forming or drawing of sheet steel.
HISTORICAL
1986-06-01
Standard
J863_198606
This SAE Recommended Practice describes methods for determining plastic deformation encountered in the forming or drawing of sheet steel. the preferred method for determining plastic strain is the circle grid and the severity curve. The scribed square and change in thickness methods may also be used to evaluate deformation during the forming of a flat sheet into the desired shape.
CURRENT
1991-04-01
Standard
J763_199104
This SAE Information Report briefly covers the aging of hot rolled, cold rolled, and coated carbon steel sheet and strip. Its purpose is to provide general information concerning the phenomenon of aging so that associated problems may be recognized.
HISTORICAL
2009-01-13
Standard
J1562_200901
Zinc and zinc-alloy coated steel is used to enhance a structure’s protection against corrosion degradation. For the purpose of this SAE Recommended Practice, a galvanized coating is defined as a zinc or zinc-alloy metallic coating. The selection of the optimum galvanized steel sheet product depends on many factors, the most important being: desired corrosion protection, formability, weldability, surface characteristics, and paintability. The trade-offs of these product characteristics are more complex than is the case with uncoated steel sheet products.
CURRENT
2015-04-28
Standard
J1562_201504
Zinc and zinc-alloy coated steel is used to enhance a structure’s protection against corrosion degradation. For the purpose of this SAE Recommended Practice, a galvanized coating is defined as a zinc or zinc-alloy metallic coating. The selection of the optimum galvanized steel sheet product depends on many factors, the most important being: desired corrosion protection, formability, weldability, surface characteristics, and paintability. The trade-offs of these product characteristics are more complex than is the case with uncoated steel sheet products.
HISTORICAL
1999-12-07
Standard
J1562_199912
Zinc and zinc-alloy coated steel is used to enhance a structure''s protection against corrosion degradation. For the purpose of this SAE Recommended Practice, a galvanized coating is defined as a zinc or zinc-alloy metallic coating. The selection of the optimum galvanized steel sheet product depends on many factors, the most important being: desired corrosion protection, formability, weldability, surface characteristics, and paintability. The trade-offs of these product characteristics are more complex than is the case with uncoated steel sheet products. This document defines preferred product characteristics. It also explains the various manufacturing processes, presents the advantages and disadvantages of the resulting product characteristics, and discusses the trade-offs between corrosion protection properties and fabricating, assembling, and finish- coating process.
CURRENT
1997-09-15
Standard
J2096_199709
This SAE Recommended Practice establishes a nomenclature for categorizing low carbon automotive hot rolled sheet, cold rolled sheet, and zinc and zinc alloy coated sheets.
HISTORICAL
1992-07-01
Standard
J2096_199207
This SAE Recommended Practice establishes a nomenclature for categorizing low carbon automotive hot rolled sheet, cold rolled sheet, and zinc and zinc alloy coated sheets.
2015-04-30
WIP Standard
J2947
This SAE Recommended Practice defines and establishes mechanical property ranges for six grades of continuously cast high strength automotive sheet steels that can be formed, welded, assembled, and painted in automotive manufacturing processes.
2015-03-05
WIP Standard
J810
Common or obvious surface imperfections, which sometimes occur in sheet steel, are normally visible to the naked eye before or after fabrication. Illustrations and definitions of these imperfections are contained in this SAE Information Report. The identifying names are those commonly used throughout the steel industry. The imperfections identified include the major and most often encourntered imperfections known to exist at this time. These imperfections are variable in appearance and severity. Extreme conditions have been selected in some instances in order to obtain suitable photographs.
HISTORICAL
1987-03-01
Standard
J810_198703
Common or obvious surface imperfections, which sometimes occur in sheet steel, are normally visible to the naked eye before or after fabrication. Illustrations and definitions of these imperfections are contained in this SAE Information Report. The identifying names are those commonly used throughout the steel industry. The imperfections identified include the major and most often encourntered imperfections known to exist at this time. These imperfections are variable in appearance and severity. Extreme conditions have been selected in some instances in order to obtain suitable photographs.
HISTORICAL
1980-06-01
Standard
J810_198006
Common or obvious surface imperfections, which sometimes occur in sheet steel, are normally visible to the naked eye before or after fabrication. Illustrations and definitions of these imperfections are contained in this SAE Information Report. The identifying names are those commonly used throughout the steel industry. The imperfections identified include the major and most often encourntered imperfections known to exist at this time. These imperfections are variable in appearance and severity. Extreme conditions have been selected in some instances in order to obtain suitable photographs.
CURRENT
1996-03-01
Standard
J810_199603
Common or obvious surface imperfections, which sometimes occur in sheet steel, are normally visible to the naked eye before or after fabrication. Illustrations and definitions of these imperfections are contained in this SAE Information Report. The identifying names are those commonly used throughout the steel industry. The imperfections identified include the major and most often encountered imperfections known to exist at this time. These imperfections are variable in appearance and severity. Extreme conditions have been selected in some instances in order to obtain suitable photographs. Photographs are courtesy of the American Iron and Steel Institute, Kaiser Aluminum, LTV Steel, National Steel, The Budd Company.
HISTORICAL
1999-12-21
Standard
J1058_199912
This SAE Recommended Practice provides an orderly series for designating the thickness of unocated and coated hot-rolled and cold-rolled sheet and strip. This document also provides methods for specifying thickness tolerances.
HISTORICAL
1991-04-01
Standard
J1058_199104
This SAE Recommended Practice provides an orderly series for designating the thickness of uncoated and coated hot-rolled and cold-rolled sheet and strip. This document also provides methods for specifying thickness tolerances. Requirements of industry permit leeway in the choice of thickness in some instances, but it is recognized that for many applications, particularly the tonnage requirements of the mass production industries, thickness is normally determined by critical engineering design or manufacturing considerations. However, for general applications or where requirements permit some latitude in the selection of thickness, the preferred thickness given in Table 1 will facilitate interchangeability of different metals in design, reduce inventory, and increase the availability in warehouse stocks of thicknesses commonly required for general applications. All of the thicknesses listed are not necessarily produced in all metals and grades.
CURRENT
2015-04-28
Standard
J1058_201504
This SAE Recommended Practice provides an orderly series for designating the thickness of unocated and coated hot-rolled and cold-rolled sheet and strip. This document also provides methods for specifying thickness tolerances.
HISTORICAL
1976-02-01
Standard
J1058_197602
This SAE Recommended Practice provides an orderly series for designating the thickness of unocated and coated hot-rolled and cold-rolled sheet and strip. This document also provides methods for specifying thickness tolerances. Requirements of industry permit leeway in the choice of thickness in some instances, but it is recognized that for many applications, particularly the tonnage requirements of the mass production industries, thickness is normally determined by critical engineering design or manufacturing considerations. However, for general applications or where requirements permit some latitude in the selection of thickness, the preferred thickness given in Table 1 will facilitate interchangeability of different metals in design, reduce inventory, and increase the availability in warehouse stocks of thicknesses commonly required for general applications. All of the thicknesses listed are not necessarily produced in all metals and grades.
Viewing 1 to 30 of 57