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非晶合金塑脆断裂转变的控制参数
Inherent parameters governing ductile-brittle transition in metallic glasses

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陈艳   戴兰宏 *  
文摘 材料的塑脆断裂转变及机理一直以来都是材料和力学领域的研究热点.近百年来,针对晶体材料的塑脆行为,相继发展了一系列弹、塑性的起裂临界判据及塑脆表征参数.非晶合金作为近年来涌现的一类新型结构材料,因具有优异的力学性能,在国防、空天等领域显示出广阔的应用前景.然而,该材料变形局部化剪切带导致的室温低塑性极大地限制了其工程应用.因此,弄清非晶合金的塑脆断裂行为及转变条件显得尤为迫切.在传统理论的基础上,结合非晶合金固有的特性,目前已发展了塑脆转变的单参数和双参数控制理论.本文将对这些理论进行简要的回顾,进一步揭示这些控制参数的相互关联及非晶合金塑脆转变的实质.
其他语种文摘 The ductile-brittle transition and its mechanism are the hot research topics in the field of material and mechanics.In recent hundred years,the critical conditions for cracking and the governing parameters on ductility have developed for crystalline solids.Metallic glasses(MGs) as an emerging class of structural materials in recent years,show a broad potential applications due to their excellent mechanical properties.However,the low plasticity caused by highly strain localization greatly restrains them from engineering application.Therefore,to clarify the plastic behavior and the ductile-brittle transition in MGs becomes significant.Based on the classical theories,researchers have developed some important conditions to predict the plasticity in MGs,by taking their inherent properties into account.These theories usually include single or two governing parameters.In this paper,a brief review is carried out on these previous work,and further the underlying correlations between these governing parameters and the physics behind the ductile-brittle transition are revealed.
来源 中国科学. 物理学 , 力学, 天文学,2012,42(6):551-559 【核心库】
DOI 10.1360/132012-296
关键词 塑脆转变 ; 拉压强度差异 ; 非晶合金 ; 断裂 ; 剪切带
地址

中国科学院力学研究所, 非线性力学国家重点实验室, 北京, 100190

语种 中文
ISSN 1674-7275
学科 力学
基金 国家973计划 ;  国家自然科学基金 ;  国家自然科学基金委员会-中国工程物理研究院“NSAF联合基金”
文献收藏号 CSCD:4598102

参考文献 共 63 共4页

1.  Christensen R. Exploration of ductile, brittle failure characteristics through a two-parameter yield/failure criterion. Mater Sci Eng A,2005,394:417-424 CSCD被引 1    
2.  Johnson W L. Bulk glass-forming metallic alloys: Science and technology. MRS Bull,1999,24:4-56 CSCD被引 2    
3.  Wang W H. The elastic properties, elastic models and elastic perspectives of metallic glasses. Prog Mater Sci,2012,57:487-656 CSCD被引 144    
4.  Greer A L. Bulk metallic glasses: At the cutting edge of metals research. MRS Bull,2007,32:611-619 CSCD被引 35    
5.  Yao K F. Pd-Si binary bulk metallic glass. Sci China Ser G-Phys Mech Astron,2008,51(4):414-420 CSCD被引 4    
6.  Jing Q. Electrochemical corrosion and oxidation resistances of Zr_(60)Ni_(21)Al_(19) bulk amorphous alloys. Sci China-Phys Mech Astron,2010,53:2223-2226 CSCD被引 1    
7.  Hui X D. Magnetocaloric effect in Er-Al-Co bulk metallic glasses. Chin Sci Bull,2011,56(36):3978-3983 CSCD被引 3    
8.  Spaepen F. Homogeneous flow of metallic glasses: A free volume perspective. Scripta Mater,2006,54:363-367 CSCD被引 20    
9.  Dai L H. Adiabatic shear banding instability in bulk metallic glasses. Appl Phys Lett,2005,87:141916 CSCD被引 19    
10.  Schuh C. Mechanical behavior of amorphous alloys. Acta Mater,2007,55:4067-4109 CSCD被引 240    
11.  Chen M W. Mechanical behavior of metallic glasses: Microscopic understanding of strength and ductility. Annu Rev Mater Res,2008,38:445-469 CSCD被引 35    
12.  Dai L H. Basic mechanical behaviors and mechanics of shear banding in BMGs. Int J Impact Eng,2008,35:704-716 CSCD被引 26    
13.  Trexler M M. Mechanical properties of bulk metallic glasses. Prog Mater Sci,2010,55:759-839 CSCD被引 74    
14.  Chen Y. Failure criterion for metallic glasses. Phil Mag,2011,91:4536-4554 CSCD被引 12    
15.  Huang X. How does spallation microdamage nucleate in bulk amorphous alloys under shock loading?. J Appl Phys,2011,110:103519 CSCD被引 6    
16.  Chen Y. How does the initial free volume distribution affect shear band formation in metallic glass?. Sci China-Phys Mech Astron,2011,54:1488-1494 CSCD被引 6    
17.  Jiang M Q. Energy dissipation in fracture of bulk metallic glasses via inherent competition between local softening and quasi-cleavage. Phil Mag,2008,88:407-426 CSCD被引 36    
18.  Jiang M Q. Shear-band toughness of bulk metallic glasses. Acta Mater,2011,59:4525-4537 CSCD被引 14    
19.  Yuan C C. NMR signature of evolution of ductile-to-brittle transition in bulk metallic glasses. Phys Rev Lett,2011,107:236403 CSCD被引 7    
20.  Jang D. Transition from a strong-yet-brittle to a stronger-and-ductile state by size reduction of metallic glasses. Nat Mater,2010,9:215--219 CSCD被引 56    
引证文献 1

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CSCD被引 3

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