Constitution of ISO and JIS for Method of Tensile Testing of Superplastic Materials

Koichi Kitazono; Yoshimasa Takayama; Yoshinobu Motohashi; Fumio Ono

doi:10.4028/www.scientific.net/MSF.838-839.453

Paper Titles

Superplasticity in a 5024 Aluminium Alloy Subjected to ECAP and Subsequent Cold Rolling
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Austenite Grain Size Refinement of Multi-Microalloyed Low Carbon Steel Using Severe Plastic Deformation at High Temperature
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Microtextural Changes and Superplasticity in an Al-7075 Alloy Processed by High-Pressure Torsion
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Constitution of ISO and JIS for Method of Tensile Testing of Superplastic Materials
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Heat Assisted Dieless Drawing Process of Superplastic Metal Microtubes - From Zn22Al to β Titanium Alloys
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The Mechanics of Superplastic Forming - How to Incorporate and Model Superplastic and Superplastic-Like Conditions
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About Formability of Ultra-Fine Grained Metallic Materials
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A New Lead-Free Solder Joint Utilizing Superplastic Al-Zn Eutectoid Alloy for Next Generation SiC Power Semiconductor Devices
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HomeMaterials Science ForumMaterials Science Forum Vols. 838-839Constitution of ISO and JIS for Method of Tensile...

Constitution of ISO and JIS for Method of Tensile Testing of Superplastic Materials

Abstract:

Method for tensile testing of superplastic materials had been standardized as ISO 20032: 2007, which is based on JIS, Japanese Industrial Standard, H 7501 and H 7505. These standards specify the test specimens of S-and R-types. Recently, the working group organized by Osaka Science and Technology Center, Japan, proposed a revised version of ISO 20032 with several corrections. After systematic review and voting at ISO/TC (Mechanical Testing of Metals) 164/SC2 (Ductility Testing), the second edition of ISO 20032 was published in 2013. Now, a working group has been set for proposing a revised version of JIS corresponding to ISO 20032: 2013. This paper reports the constitution process of these ISO and JIS standards.

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Materials Science Forum (Volumes 838-839)

Pages:

453-458

DOI:

https://doi.org/10.4028/www.scientific.net/MSF.838-839.453

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Online since:

January 2016

Authors:

Koichi Kitazono*, Yoshimasa Takayama, Yoshinobu Motohashi, Fumio Ono

Keywords:

R-type Specimen, Standard, S-Type Specimen, Superplasticity, Tensile Test

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