Tear toughness evaluation of the friction stir weld of 6N01 aluminum alloy
Author:
Publisher
Japan Institute of Light Metals
Subject
Materials Chemistry,Metals and Alloys,Mechanical Engineering,Mechanics of Materials
Reference13 articles.
1. 3) J. G. Kaufman: Fracture Resistance of Aluminum Alloys, the Aluminum Association, ASM International, (2004), 38-74.
2. 4) ASTM standard, Designation: B871-96, Standard Test Method for Tear Testing of Aluminum alloy Products, (1996), 602-608.
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1. Effect of Cooling Rates during Solidification of Al-5.5%Mg-2.3%Si-0.6%Mn and Al-13%Mg2Si Pseudo-Binary Alloys on Their Secondary-Particle Morphology and Tear Toughness;MATERIALS TRANSACTIONS;2011
2. Effect of cooling rates during solidification of Al–5.5%Mg–2.3%Si–0.6%Mn and Al–13%Mg2Si pseudo-binary alloys on their secondary-particle morphology and tear toughness;Journal of Japan Institute of Light Metals;2011
3. Development of practical friction stir welding technique for small and medium enterprises;Journal of Japan Institute of Light Metals;2007
4. High strain-rate compressive stress–strain response of friction stir welded 7075-T651 aluminum alloy joints in through-thickness direction;Journal of Japan Institute of Light Metals;2007
5. 10.2464/jilm.57.506;Journal of Japan Institute of Light Metals;2007
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