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Mechanical Alloying of Aluminium Alloys

Mechanical alloying is a solid-state powder processing technique that has revolutionized the development of advanced materials, including aluminium alloys. This chapter provides a concise overview of the key aspects of mechanical alloying applied to aluminium alloys, exploring its principles, advantages, and potential applications.
Rayappa Shrinivas Mahale, Krishnamurthy P. Goggi, Shamanth Vasanth, Gangadhar M. Kanaginahal, Vaibhav S. Raibole, P. C. Sharath, Rajendrachari Shashanka, Prashant Kakkamari, Adarsh Patil   +8 more
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Alloying Aluminum Alloys with Scandium

Metal Science and Heat Treatment, 2017
Methods and procedures are discussed for more economic and effective use of scandium for alloying aluminum alloys. Specifically, it is recommended to introduce scandium and zirconium into aluminum alloys in a 1 : 1 ratio instead of the usual 3 : 1 with the same overall element content.
V. V. Zakharov, I. A. Fisenko
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CUPRON ALLOY, PCLW-SNX ALLOY and PCLW-BPX ALLOY

Alloy Digest, 1992
Abstract CUPRON Alloy is the standard negative thermoelement used with copper, with iron and with TOPHEL Alloy in ISA Types T, J and E thermocouples, respectively. PCLW-SNX and PCLW-BPX are thermocouple extension wire alloys. This datasheet provides information on composition, physical properties, and tensile properties.
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Complex alloying of titanium alloys

Metal Science and Heat Treatment, 1975
1. The effectiveness of complex alloying was established, in which the strength of both the α and β solid solutions increases, and the difference between their strengths decreases. This leads to more even plastic deformation and more complete utilization of the strength of the α and β phases. 2.
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Aluminium Alloys by Mechanical Alloying

Aircraft Engineering and Aerospace Technology, 1987
After years of research, an important development in powder metallurgy is about to enter commercial production with the commissioning by Inco Alloys International of its $4 million plant in Pittsboro, North Carolina, to produce aluminium and other light metal alloys by mechanical alloying.
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“Carbon Alloys”

Carbon, 2000
Yasuhiro Tanabe, Eiichi Yasuda
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Alloying

2001
Alloying: Understanding the Basics is a comprehensive guide to the alloying process and the benefits that can be achieved in a wide range of materials, including cast iron, steel, aluminum, titanium, magnesium, copper, nickel, cobalt, and zinc as well as cemented carbides, cermets, and iron-nickel alloys.
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Machine learning for alloys

Nature Reviews Materials, 2021
Gus L W Hart, Tim Mueller, Cormac Toher
exaly  

Tunable Chemical Disorder in Concentrated Alloys: Defect Physics and Radiation Performance

Chemical Reviews, 2022
Yanwen Zhang, William J Weber
exaly  

Strong yet ductile nanolamellar high-entropy alloys by additive manufacturing

Nature, 2022
Jie Ren, Jonathan D Poplawsky, Thomas Voisin   +2 more
exaly