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Mechanical Alloying of Immiscible Metallic Systems: Process, Microstructure, and Mechanism
Advanced Engineering Materials, 2021Immiscible metallic systems provide new opportunities for tailoring material properties due to their unique microstructure. However, they are immiscible in the liquid state, or separate into incompatible liquid phase during the cooling process, making it
C. Shuai +7 more
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Advanced Energy Materials, 2021
Sulfide solid electrolytes (SSEs) have captured plentiful interest on account of their high ionic conductivity and appropriate mechanical strength. However, the poor air stability and cost‐intensive preparation process of SSEs limit their applications ...
Zhao Jiang +8 more
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Sulfide solid electrolytes (SSEs) have captured plentiful interest on account of their high ionic conductivity and appropriate mechanical strength. However, the poor air stability and cost‐intensive preparation process of SSEs limit their applications ...
Zhao Jiang +8 more
semanticscholar +1 more source
Scripta Metallurgica et Materialia, 1995
Mg{sub 2}Si is an intermetallic compound with low density (1.95 gcm{sup {minus}3}) and a rather high melting point (1,087 C). Due to its lightweight and thermophysical properties it is suitable for structural applications. It is also promising as a basic material for the thermoelectric energy conversion. A problem is its synthesis because magnesium and
Riffel, M., Schilz, J.
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Mg{sub 2}Si is an intermetallic compound with low density (1.95 gcm{sup {minus}3}) and a rather high melting point (1,087 C). Due to its lightweight and thermophysical properties it is suitable for structural applications. It is also promising as a basic material for the thermoelectric energy conversion. A problem is its synthesis because magnesium and
Riffel, M., Schilz, J.
openaire +3 more sources
Alloying design of biodegradable zinc as promising bone implants for load-bearing applications
Nature Communications, 2020 Magnesium-based biodegradable metals (BMs) as bone implants have better mechanical properties than biodegradable polymers, yet their strength is roughly less than 350 MPa.
Hongtao Yang, Bo Jia, Zechuan Zhang
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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 +8 more
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ALLOY PHASE FORMATION BY MECHANICAL ALLOYING: CONSTRAINTS AND MECHANISMS
Modern Physics Letters B, 1992Alloy phase formation in binary metallic systems by mechanical alloying (MA) of elemental powders is briefly reviewed. Our recent results indicate the inadequacy of the current understanding of the MA process, which has been depicted as an isothermal solid-state interdiffusion reaction under interfacial, metastable, equilibrium in layered composites ...
E. MA, M. ATZMON
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Mechanical behavior and properties of mechanically alloyed aluminum alloys
Metallurgical and Materials Transactions A, 1996The fracture and deformation behaviors of several product forms produced from mechanically alloyed (MA) aluminum alloys 9052 and 905XL were studied. The main operative strengthening mechanism is strengthening due to the submicron grain size. Ductility and toughness were found to be controlled by the morphology of the prior particle boundaries.
H. R. Last, R. K. Garrett
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The mechanism of mechanical alloying
Metallurgical transactions, 1974The mechanical alloying process is a new method for producing composite metal powders with controlled microstructures. It is unique in that it is an entirely solid state process, permitting dispersion of insoluble phases such as refractory oxides and addition of reactive alloying elements such as aluminum and titanium.
J. S. Benjamin, T. E. Volin
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