OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

复合材料学报 2005

SiCP/Ni纳米复合材料的超塑性

, PP. 68-74

王长丽,张凯锋

Keywords: 超塑性,电沉积,纳米复合材料,断口

Full-Text Cite this paper Add to My Lib

Abstract:

研究了SiCP/Ni纳米复合材料的超塑性。SiCP/Ni采用脉冲电沉积方法获得。拉伸实验温度为410℃和450℃,应变速率范围为8.3×10-4～5×10-2s-1。温度为450℃、应变速率为1.67×10-2s-1时,获得的最大延伸率为836%。采用SEM、TEM分析了沉积态材料的表面形貌、断口形貌及变形后的组织,并对变形机理进行了探讨。通过SiC颗粒稳定基体组织有利于实现材料的超塑性,低空洞体积分数有助于获得大延伸率。晶粒长大到微米尺度时,变形机制主要是位错协调的晶界滑移和位错滑移塑性。

References

[1]	Mayo M J . High and low temperature superplasticity in nanocrystalline materials [J] . N anost ruct Mater , 1997 , 9 (1 -8) : 717 - 726.
[2]	Mishra R S , McFadden S X , Valiev R Z , et al . Deformationmechanisms and tensile superplasticity in nanocrystalline materials [J] . J OM , 1999 , 51 : 37 - 44.
[3]	许晓静, 戈晓岚. SiC 晶须增强铝基复合材料超塑性[J] . 复合材料学报, 2003 , 20 (3) : 127 - 131.Xu X J , Ge X L. Superplasticity of SiC whisker aluminummat rix composite [J] . Acta Materiae Composi te S inica ,2003 , 20 (3) : 127 - 131.
[4]	许晓静, 戈晓岚. SiCW/ Zn-22Al 复合材料超塑性[J] . 复合材料学报, 2003 , 20 (4) : 1 - 4.Xu X J , Ge X L. Superplasticity of a SiCW/ Zn-22Al composite [J] . Acta Materiae Composite Sinica , 2003 , 20 (4) : 1 - 4.
[5]	李泽琳, 唐才荣, 李华伦, 等. 喷雾电沉积法制造的铝基复合材料的超塑性[J] . 复合材料学报, 1996 , 13 (4) : 25 -29.Li Z L , Tang C R , Li H L , et al . Superplasticity of aluminum mat rix composite fabricated by spray atomization and codeposition [J] . Acta Materiae Composite S inica , 1996 ,13 (4) : 25 - 29.
[6]	Mukherjee A K, Bird J E , Dorn J E. Experimental correlations for high temperature creep [J] . T rans A SM , 1969 ,62 : 155 - 179.
[7]	Mcfadden S X , Mishra R S , Valiev R Z , et al . Low-temperature superplasticity in nanost ruct ured nickel and metal alloys[J] . N ature , 1999 , 398 : 684 - 686.
[8]	Mcfadden S X , Zhilyaev A P , Mishra R S , et al . Observationof low2temperature superplasticity in elect rodeposited ult rafine grained nickel [J] . Mater L ett , 2000 , 45 : 345 - 349.
[9]	Shaw L L. Processing nanost ruct ured materials : An overview[J] . J OM , 2000 , 52 : 41 - 45.
[10]	Beneaa L , Bonora P L , Borello A , et al . Preparation and investigation of nanost ructured SiC-nickel layers by elect rodeposition [J] . S ol i d S tate Ionics , 2002 , 151 : 89 - 95.
[11]	Lei W N , Zhu D , Qu N S. Synt hesis of nanocrystalline nickelin pul se deposition [J] . Trans IM F , 2002 , 80 (6) : 205 -209.
[12]	Xiao C H , Mirshams R A , Whang S H , et al . Tensile behavior and f ract ure in nickel and carbon doped nanocrystallinenickel [J] . Mater Sci Eng , 2001 , A301 : 35 - 43.
[13]	Zimmerman A F , Palumbo G, Aust K T , et al . Mechanicalproperties of nickel silicon carbide nanocomposites [J] . MaterSci Eng , 2002 , A328 : 137 - 146 .
[14]	Chan K C , Wang C L , Zhang K F. Superplastic deformationbehavior of t he elect rocodeposited Ni/ SiC composite [J] .Scri pta Mater , 2004 , 51 : 605 - 609.
[15]	Cullity B D , Stock S R. Element s of X-ray Diff raction [M] .Third edition. Prentice Hall , 2001. 167 - 171.
[16]	McFadden S X , Sergueeva A V , Kruml T , et al . Superplasticity in nanocrystalline Ni3Al and Ti alloys [A] . In : FarkasD , Kung H , Mayo M , eds. St ructure and Mechanical Properties of Nanophase Materials-Theory and Computer Simulation vs Experiment [C] . Boston : Material s Research Society ,2001. B1. 3. 1 - B1. 3. 6.
[17]	Mcfadden S X , Sergueeva A V , Mukherjee A K. Tensile superplasticity in nanomaterials : Some observations and reflections [J] . Material Science Forum , 2001 , 357 - 359 : 499 -506.
[18]	Higashi K, Nieh T G, Wadswort h J . Effect of temperature onthe mechanical properties of mechanically-alloyed materials at highstrain rates [J] . Acta Metall Mater , 1995 , 43 : 3275 - 3282.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133