典型文献
Additive manufacturing of bulk metallic glasses:Fundamental principle,current/future developments and applications
文献摘要:
As an advanced manufacturing technique,the advent of additive manufacturing(AM)has opened a new horizon of alternative ways to tackle the challenge of fundamental limits for manufacturing bulk metallic glasses(BMGs).In particular,selective laser melting(SLM),direct metal deposition(DMD),electron beam melting(EBM),and laser foil printing(LFP)have been used for producing BMGs with dimensions larger than what is possible using conventional techniques such as melt-spinning,suction-casting,die-casting,etc.In this review,we analyzed the current status,issues,structural evolution,and key properties of BMGs based on these emerging AM technologies.The aim is to outline a direction for the development of BMGs using AM technology,establishing a fundamental principle to optimize processing parameters for designing alloy compositions with the high glass-forming ability(GFA),and thermal stability against crystallization.This will provide the fundamental science underpinning the future development of AM technology in the fabrication of high-density,defect-free,and completely amorphous alloy components and devices.
文献关键词:
中图分类号:
作者姓名:
H.R.Lashgari;M.Ferry;S.Li
作者机构:
School of Materials Science and Engineering,UNSW Materials and Manufacturing Futures Institute,University of New South Wales,Sydney NSW 2052,Australia
文献出处:
引用格式:
[1]H.R.Lashgari;M.Ferry;S.Li-.Additive manufacturing of bulk metallic glasses:Fundamental principle,current/future developments and applications)[J].材料科学技术(英文版),2022(24):131-149
A类:
BMGs
B类:
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AB值:
0.648753
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