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NPFC - QQ-A-200/4 - ALUMINUM ALLOY 5083, BAR, ROD, SHAPES, STRUCTURAL SHAPES, TUBE ANDWIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/4, ASTM B241, ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/1 - ALUMINUM ALLOY 3003, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/1, ASTM B241, AND ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/2 - ALUMINUM ALLOY 2014, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/2, ASTM B241, ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/3 - ALUMINUM ALLOY 2024, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/3, ASTM B241, ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/5 - ALUMINUM ALLOY 5086, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/5, ASTM B241, ASTM B222 *** Organization: NPFC
NPFC - QQ-A-200/6 - ALUMINUM ALLOY 5454, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/6, ASTM B241, ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/7 - ALLUMINUM ALLOY 5456, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/7, ASTM B241, ASTM B221 *** Organization: NPFC
NPFC - QQ-A-200/9 - ALUMINUM ALLOY 6063, BAR, ROD, SHAPES, TUBE AND WIRE, EXTRUDED *** CNCL S/S BY SAE AMS-QQ-A-200/9, ASTM B241, ASTM B221 *** Organization: NPFC
API SPEC 2MT2 - ROLLED SHAPES WITH IMPROVED NOTCH TOUGHNESS - FIRST EDITION; EFFECTIVE DECEMBER 1, 2002 Organization: API
Date: 2002-06-01
Description: This specification covers rolled shapes (wide flange shapes, angles, etc.), having a specified minimum yield strength of 50 ksi (345 Mpa), intended for use in offshore structures.
ASTM - ASTM F2005 - STANDARD TERMINOLOGY FOR NICKEL-TITANIUM SHAPE MEMORY ALLOYS Organization: ASTM
Date: 2005-10-01
Description: This terminology includes only those terms for which ASTM either has standards or which are used in ASTM standards for nickel-titanium shape memory alloys.
ASTM - ASTM A276 - STANDARD SPECIFICATION FOR STAINLESS STEEL BARS AND SHAPES Organization: ASTM
Date: 2013-11-01
Description: These standards are under the jurisdiction of ASTM Subcommittee B02.07 and may be found in Annual Book of ASTM Standards, Vol. 02.04.
ASTM - ASTM B308M - STANDARD SPECIFICATION FOR ALUMINUM-ALLOY 6061-T6 STANDARD STRUCTURAL SHAPES, ROLLED OR EXTRUDED (METRIC) Organization: ASTM
Date: 1988-04-29
Description: NOTE I—For other extruded shapes in other alloys and tempers refer to ASTM Specification B 221M, for Aluminurn and Aluminum-Alloy Extruded Bars, Rods, Wire, Shapes, and Tubes [Metric].
ASTM - ASTM D1710 - STANDARD SPECIFICATION FOR EXTRUDED POLYTETRAFLUOROETHYLENE (PTFE) ROD, HEAVY WALLED TUBING AND BASIC SHAPES Organization: ASTM
Date: 2015-09-01
Description: This specification covers extruded polytetrafluoroethylene (PTFE) rod, heavy-walled tubing, and basic shapes manufactured from the PTFE resin of Specification D4894 and reprocessed PTFE resin (as defined in Guide D7209).
ASTM - ASTM A627 - STANDARD TEST METHODS FOR TOOL-RESISTING STEEL BARS, FLATS, AND SHAPES FOR DETENTION AND CORRECTIONAL FACILITIES Organization: ASTM
Date: 2003-05-10
Description: These test methods cover requirements for simulated service tests and testing equipment for determining the performance characteristics of various types and shapes of steels designated for use in detention and correctional facilities as fixed barriers to prevent egress and to control passage.
ASTM - ASTM D7596 - STANDARD TEST METHOD FOR AUTOMATIC PARTICLE COUNTING AND PARTICLE SHAPE CLASSIFICATION OF OILS USING A DIRECT IMAGING INTEGRATED TESTER Organization: ASTM
Date: 2014-06-01
Description: 2 For referenced ASTM standards, visit the ASTM website, www.astm.org, or contact ASTM Customer Service at service@astm.org.
WRC BUL 121 - RESIDUAL STRESSES IN “T-1” CONSTRUCTIONAL ALLOY STEEL PLATES; RESIDUAL STRESSES IN WELDED BUILD-UP “T-1” SHAPESRESIDUAL STRESSES IN WELDED BUILD-UP “T-1” SHAPES; RE - TO PURCHASE CALL 1-800-854-7179 USA/CANADA OR 303-397-7956 WORLDWIDE Organization: WRC
Date: 1967-04-01
Description: A knowledge of the residual stress pattern and magnitude in plates makes it possible to estimate the residual stresses in shapes built-up from plates by welding. The strength of a column depends on the residual stress distribution and magnitude; therefore knowing these, and other properties, the strength of the column can be estimated.
ASTM - ASTM B5 - STANDARD SPECIFICATION FOR HIGH CONDUCTIVITY TOUGH-PITCH COPPER REFINERY SHAPES Organization: ASTM
Date: 2016-10-01
Description: These coppers may also be used to produce coppers corresponding to the following: Although this specification includes certain UNS designations as described in Practice E527, these designations are for cross reference only and are not specification requirements. Therefore, in case of conflict, this ASTM specification shall govern. Units—The values stated in inch-pound units are to be regarded as standard.
ASTM - ASTM B216 - STANDARD SPECIFICATION FOR TOUGH-PITCH FIRE-REFINED COPPER-REFINERY SHAPES Organization: ASTM
Date: 2016-04-01
Description: Although this specification includes certain UNS designations as described in Practice E527, these designations are for cross reference only and are not specification requirements. Therefore, in case of conflict, this ASTM specification shall govern. Units—The values stated in inch-pound units are to be regarded as standard.
ASTM - ASTM A1065/A1065M - STANDARD SPECIFICATION FOR COLD-FORMED ELECTRIC-FUSION (ARC) WELDED HIGH-STRENGTH LOW–ALLOY STRUCTURAL TUBING IN SHAPES, WITH 50 KSI [345 MPA] MINIMUM YIELD POINT Organization: ASTM
Date: 2015-05-01
Description: (See 10.1.2) The Grades may not be interchanged without approval of the purchaser. ASTM Specifications for plate that may be applied to Grade 50 [345] and 50W [345W] are listed in Reference Documents and in Table 1.
ISO/ASTM 52900 - ADDITIVE MANUFACTURING - GENERAL PRINCIPLES - TERMINOLOGY - FIRST EDITION Organization: ISO
Date: 2015-12-15
Description: This International Standard establishes and defines terms used in additive manufacturing (AM) technology, which applies the additive shaping principle and thereby builds physical 3D geometries by successive addition of material.

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