晶粒尺寸对超低膨胀合金组织稳定性及相变特性的影响

摘要
图/表
参考文献
相关文章 (1)

全文: PDF (0 KB) HTML (1 KB)
输出: BibTeX | EndNote (RIS)

摘要系统地研究了晶粒尺寸对超低膨胀合金Ni32Co4Nb膨胀系数、组织稳定性及相变特性的影响。结果表明：平均晶粒尺寸对于Ni32Co4Nb棒材马氏体相变特性具有一定的影响，晶粒粗大更加易于发生相变，但平均晶粒尺寸对于Ni32Co4Nb棒材的平均线膨胀系数影响不大。因此，从保证Ni32Co4Nb棒材的内部质量和相变特性考虑，应将平均晶粒尺寸控制在150 μm以下。

	服务

	把本文推荐给朋友
	加入我的书架
	加入引用管理器
	E-mail Alert
	RSS
	作者相关文章
	霍登平
	张青绒
	李春阳
	徐峻
	杨朋

关键词 ：超低膨胀合金, 晶粒尺寸, 组织稳定性, 相变

Abstract：Effect of grain size on the expansion coefficient, structure stability and phase transition characteristics of ultra-low-expansion alloy was investigated systematically. The result shows that the average grain size of Ni32Co4Nb ultra-low-expansion alloy affects the martensite phase transformation, the martensite phase transformation is more susceptible to occur in coarse grain. However, the average expansion coefficient is insensitivity to the average grain size. In order to insure the quality and phase transition characteristics of ultra-low-expansion alloy, the average grain size should be controlled less than 150 μm.

Key words： ultra-low-expansion alloy average grain size structure stability phase transition

收稿日期: 2014-01-22 出版日期: 2014-04-28

通讯作者: 霍登平 E-mail: hdp1713@sina.com

引用本文:

霍登平，张青绒，李春阳，徐峻，杨朋. 晶粒尺寸对超低膨胀合金组织稳定性及相变特性的影响[J]. , 2014, 21(2): 32-35.
HUO Deng-ping, ZHANG Qing-rong, LI Chun-yang, XU Jun, YANG Peng. Effect of Grain Size on the Structure Stability and Phase Transition Characteristics of Ultra-Low-Expansion Alloy. , 2014, 21(2): 32-35.

链接本文:

http://edit.chinamet.cn/Jweb_jsgncl/CN/ 或 http://edit.chinamet.cn/Jweb_jsgncl/CN/Y2014/V21/I2/32

[1]	Hideo S.Physics and applications of Invar alloys [M]. Tokyo：Maruzen Co.，1978.
[3]	Hausch G，Bacher R，Hartmann J.Influence of thermomechanical treatment on the expansion of Invar and Superinvar[J].Physica B：Condensed Matter, 1989, 161(1-3):22-24
[4]	Burlakov S F，Volodkov M T，Ermolaev B I.The reduction of the expansion coefficient of Invar by quenching[J].Metal Science and Heat Treatment, 1970, 12(9):759-760
[8]	蔡波，于一鹏，张敬霖等.稀土对含超低膨胀合金组织和夹杂物的影响[J].金属功能材料, 2013, 20(1):8-12
[12]	Li S J, Akaishi M, Ohsawa T, Yamaoka S.Sintering behavior of the diamond-super invar alloy system at high temperature and pressure[J], Journal of Materials Science, 1990, 25(9):4150-4156
[13]	Gavrilyuk S I，Zakharov A I.Effect of deformation on the properties and fine structure of invar[J].Metal Science and Heat Treament, 1980, 22(1):48-49
[2]	刘江，低膨胀合金的应用和发展[J].金属功能材料2007, 14(5)：33-37
[7]	杨晓华，陈伟庆，郝占全.对-膨胀合金凝固组织的影响[J].北京科技大学学报, 2009, 31(7):867-870
[10]	段柏华，曲选辉，章林等.烧结工艺对注射成形低膨胀合金性能的影响[J].稀有金属材料与工程, 2008, 37(4):701-704
[11]	马书旺, 段伯华, 高鹏等.4J32Invar合金的注射成形[J]. 真空电子技术，2006，(4)：55-58.
[5]	Zakharov A I，Perepelkina A M，Shiryaeva A N.Effect of alloying on thermal expansion of Superinvar alloy[J].Metal Science and Heat Treatment, 1972, 14(6):539-541
[14]	Aikawa Y, Terai T, Kakeshita T.Grain size effect on martensitic transformation behavior in Fe-Ni invar alloys, Journal of Physics: Conference Series, 2009, 165: 012057
[6]	Burlakov S F，Korolev M I.Heat treatment of invar type alloys[J].Metal Science and Heat Treatment, 1964, 6(8):507-508
[9]	蔡波，于一鹏，张敬霖等.含超低膨胀合金马氏体相变温度测量方法的研究[J].金属功能材料, 2012, 19(6):1-6