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Consolidation of Cu54Ni6Zr22Ti18 bulk amorphous alloy powders

โœ Scribed by Taek-Soo Kim; Jin-Kyu Lee; Hwi-Jun Kim; Jung-Chan Bae

Publisher
Elsevier Science
Year
2005
Tongue
English
Weight
293 KB
Volume
402
Category
Article
ISSN
0921-5093

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โœฆ Synopsis

Spherical Cu 54 Ni 6 Zr 22 Ti 18 metallic glass powders were prepared using a high-pressure gas atomizer, followed by consolidation using spark plasma sintering (SPS) process. The glass forming ability of both powders as atomized and bulks as SPSed was investigated by X-ray diffractometer (XRD) and differential scanning calorimeter (DSC) as a function of powder size distribution. The bulk maintains the amorphous structure even after the thermal consolidation. The compressive strength was increased as the powder size decreased due to an increased density. The compression tested BMG presents a fracture pattern occurred along the maximum shear plane declined โˆผ45 โ€ข to the loading direction.

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Phase evolution in Cu54Ni6Zr22Ti18 bulk
Phase evolution in Cu54Ni6Zr22Ti18 bulk metallic glass Nd:YAG laser weld
โœ Jonghyun Kim; Dongmyung Lee; Seungyong Shin; Changhee Lee ๐Ÿ“‚ Article ๐Ÿ“… 2006 ๐Ÿ› Elsevier Science ๐ŸŒ English โš– 690 KB

A Nd:YAG pulse laser was chosen as the heat source to make a Cu 54 Ni 6 Zr 22 Ti 18 bulk metallic glass (BMG) weld with a critical thickness of 6 mm. To make a crystallization-free BMG weld, both empirical and numerical approaches were conducted. For the empirical approach, the pulse shape including