Please wait a minute...
Acta Physica Sinica (Overseas Edition), 1993, Vol. 2(8): 583-590    DOI: 10.1088/1004-423X/2/8/004
CONDENSED MATTER: STRUCTURAL, MECHANICAL, AND THERMAL PROPERTIES Prev   Next  

THERMAL STABILITY AND GRAIN GROWTH OF NANOCRYSTALLINE METAL SILVER

ZHANG HONG-FEI (张鸿飞), WU XI-JUN (吴希俊)
Institute of Solid State Physics, Academia Sinica, Hefei 230031, China
Abstract  The nanocrystalline metal silver (n-Ag) with average grain size of 10 nm was synthesized by using an inert gas evaporation and in situ compacting technique. The thermal stability of grain size and grain growth caused by isothermally annealing heat treatment, as well as the thermal behavior during grain growth, have been studied. The results indicated that the thermal stability temperature of grain size is about 200℃. The grain growth depends upon the annealing temperature and exhibits threedifferent stages, i.e., slow, fast, and rapid growth stages, corresponding to the temperature ranges from 200℃ to 300℃, from 300℃ to 400℃ and above 400℃, respectively. An exothermal peak and an endothermal peak occur on the differential scanning calorimetriy (DSC) curve of n-Ag. The exothermal peak and the endothermal peak appear in the temperature range from 200℃ to 400℃, and from 400℃ to 660℃, respectively. The enthalpies calculated from the above two peaks depend on the compacting pressure. Further analyses indicated that the grain growth of n-Ag is related to the release of the surface energy of grains and the interracial energy, as well as the strain energy stored in the bulk samples induced by compacting process.
Received:  23 August 1992      Accepted manuscript online: 
PACS:  65.80.+n  
  61.46.Hk (Nanocrystals)  
  81.16.-c (Methods of micro- and nanofabrication and processing)  
  81.40.Ef (Cold working, work hardening; annealing, post-deformation annealing, quenching, tempering recovery, and crystallization)  
  68.35.Md (Surface thermodynamics, surface energies)  
  62.25.-g (Mechanical properties of nanoscale systems)  
Fund: Project supported by the National Natural Science Foundation of China and the National Advanced Materials Committee of China under Grant No. 59291006.

Cite this article: 

ZHANG HONG-FEI (张鸿飞), WU XI-JUN (吴希俊) THERMAL STABILITY AND GRAIN GROWTH OF NANOCRYSTALLINE METAL SILVER 1993 Acta Physica Sinica (Overseas Edition) 2 583

[1] Effect of high temperature annealing on strain and band gap of GaN nanoparticles
Xiao Hong-Di(肖洪地), Mao Hong-Zhi(毛宏志), Lin Zhao-Jun(林兆军), and Ma Hong-Lei(马洪磊). Chin. Phys. B, 2010, 19(8): 086106.
[2] The equilibrium composition in GexSi1-x/Si self-assembled alloy quantum dot
Wang Dong-Lin(王东林), Yu Zhong-Yuan(俞重远), Liu Yu-Min (刘玉敏), Ye Han(叶寒), Lu Peng-Fei(芦鹏飞), Zhao Long(赵龙), and Guo Xiao-Tao(郭晓涛). Chin. Phys. B, 2010, 19(8): 086801.
[3] Thermal stability of silicon nanowires: atomistic simulation study
Liu Wen-Liang(刘文亮), Zhang Kai-Wang(张凯旺), and Zhong Jian-Xin(钟建新). Chin. Phys. B, 2009, 18(7): 2920-2924.
[4] Performance characteristics of an energy selective electron refrigerator with double resonances
Wang Xiao-Min(王小敏), He Ji-Zhou(何济洲), and Tang Wei(唐威). Chin. Phys. B, 2009, 18(3): 984-991.
[5] Quick preparation and thermal transport properties of nanostructured β-FeSi2 bulk material
Li Han(李涵), Tang Xin-Feng(唐新峰), Cao Wei-Qiang(曹卫强), and Zhang Qing-Jie(张清杰). Chin. Phys. B, 2009, 18(1): 287-292.
[6] Periodic thermodynamics of laser-driven molecular motor
Li Dan(李丹), Zheng Wen-Wei(郑文伟), and Wang Zhi-Song(王志松) . Chin. Phys. B, 2008, 17(5): 1916-1924.
[7] Thermal conductivity of dielectric nanowires with different cross-section shapes
Gu Xiao-Kun(顾骁坤) and Cao Bing-Yang(曹炳阳). Chin. Phys. B, 2007, 16(12): 3777-3782.
[8] Thermodynamic properties of ultra-small metallic particles
Cheng Nan-Pu (程南璞), Zeng Su-Min (曾苏民), Chen Zhi-Qian (陈志谦). Chin. Phys. B, 2005, 14(7): 1444-1448.
[9] Phonon spectrum of single-walled boron nitride nanotubes
Xiao Yang (肖杨), Yan Xiao-Hong (颜晓红), Cao Jue-Xian (曹觉先), Mao Yu-Liang (毛宇亮), Xiang Jun (向君). Chin. Phys. B, 2004, 13(9): 1526-1530.
[10] THE THERMAL DIFFUSIVITIES OF NANOSTRUCTURED NiAl ALLOYS MEASURED BY USING PHOTOACOUSTIC TECHNIQUE
DU YING-LEI (杜英磊), WU BAI-MEI (吴柏枚), QIN XIAO-YING (秦晓英), ZHANG LI-DE (张立德). Chin. Phys. B, 1998, 7(6): 451-457.
[11] INFLUENCE OF RELATIVE DENSITY AND PARTICLE SIZE ON THE SPECIFIC HEAT OF NANOCRYSTALLINE IRON
TONG XIAO-SHU (童晓树), JIN DUO (金铎), BAI HAI-YANG (白海洋), LUO JIAN-LIN (雒建林), WANG WEN-KUI (王文魁). Chin. Phys. B, 1997, 6(10): 752-757.
No Suggested Reading articles found!