Microstructure characteristics of as-surface nanocrystallized 1420 aluminum alloy by high-energy shot peening 被引量：2

Microstructure characteristics of as-surface nanocrystallized 1420 aluminum alloy by high-energy shot peening

下载PDF

导出

摘要 A nanostructured surface layer was fabricated on 1420 aluminum alloy by high-energy shot peening.Microstructures were characterized by X-ray diffractometer (XRD), transmission electron microscope (TEM) and high-resolution electron microscope(HRTEM), and microhardness measurement was conducted along the depth from top surface layer to matrix of the sample peened for 30 min. The results show that a nanocrystalline layer about 20 μm in thickness is formed on the surface of the sample after high-energy shot peening, in which the grain size is changed from about 20 nm to 100 nm. In the surface layer of 20 -50 μm in depth, the microstructure consists of submicron grains. The surface nanocrystallization is accomplished by dislocation slip. The microhardness of the top surface nanostructured layer is enhanced obviously after high-energy shot peening(HESP) compared with that of the coarse-grained matrix. A nanostructured surface layer was fabricated on 1420 aluminum alloy by high-energy shot peening. ~Microstructures were characterized by X-ray diffractometer(XRD), transmission electron microscope(TEM) and high-resolution electron microscope(HRTEM), and microhardness measurement was conducted along the depth from top surface layer to matrix of the sample peened for 30min. The results show that a nanocrystalline layer about 20μm in thickness is formed on the surface of the sample after high-energy shot peening, in which the grain size is changed from about 20nm to 100nm. In the surface layer of 20-50μm in depth, the microstructure consists of submicron grains. The surface nanocrystallization is accomplished by dislocation slip. The microhardness of the top surface nanostructured layer is enhanced obviously after high-energy shot peening(HESP) compared with that of the coarse-grained matrix.

作者胡兰青王科刘刚许并社

机构地区 College of Materials Science and Engineering Institute of Metal Research

出处《中国有色金属学会会刊：英文版》 CSCD 2005年第3期615-618,共4页 Transactions of Nonferrous Metals Society of China

基金 Project(20011019)supportedbytheYouthScienceFoundationofShanxiProvince,China

关键词 1420铝合金高能射流喷丸处理表面纳米结晶微结构 1420 alloy aluminum alloy high-energy shot peening surface nanocrystallization microstructure microhardness

分类号 TB383 [一般工业技术—材料科学与工程]

引文网络
相关文献

参考文献16

1Gleiter H. Nanocrystalline materials [J]. Prog Mater Sci, 1989, 33: 223-315.
2Suryanarayana C. Nanocrystalline materials [J]. Int Mater Rev, 1995, 40: 41-64.
3Lu K. Nanocrystalline metals crystallized from amorphous solids: nanocrystallization, structure and properties [J]. Mater SciEng, 1996, 16R: 161-221.
4Valiev R Z, Islamgaliev R K, Alexandrov I V. Bulk nanostructured materials from severe plastic deformation [J]. Prog Matter Sci, 2000, 45: 103- 189.
5Iwahashi Y, Wang Y, Horita J, et al. The process of grain refinement in equal-channel angular pressing [J].Acta Mater, 1998, 46:3317-3331.
6Iwahashi Y, Horita Z, Nemoto M, et al. An investigation of microstructural evolution during equal-channel angular pressing [J]. Acta Mater, 1997, 45: 4733-4741.
7Shin D H, Kim I, Kim J, et al. Grain refinement mechanism during equal-channel angular pressing of a low-carbon steel [J]. Acta Mater, 2001, 49: 1285-1292.
8Islamgalive R K, Valiev R Z, Mishra R S, et al. Enhanced superplastic properties in bulk metastable nanostructured alloys [J]. Mater Sci Eng, 2001, A304-306(1/2): 206- 210.
9Imayev R M, Imayev V M, Salishohev G A. Formation of submicrocrystalline structure in the titanium alloy VT8 and its influence on mechanical properties[J]. J Mater Sci, 1992, 27: 4465-4471.
10Huang J Y, Zhu Y T, Jiang H, et al. Microstructures and dislocation configurations in nanostructured Cu processed by repetitive corrugation and straightening [J]. Acta Mater, 2001, 49: 1497- 1505.

同被引文献8

1盛湘飞,夏琴香,程秀全,林列书.基于随机弹丸的7075铝合金喷丸的残余应力场(英文)[J].中国有色金属学会会刊：英文版,2012,22(S2):261-267. 被引量：10
2K.TOSHA,LU Jian.Effect of shot peening and grit blasting on surface integrity： Influence on residual stresses[J].中国有色金属学会会刊：英文版,2006,16(A02):230-235. 被引量：2
3侯利锋,卫英慧,刘宝胜,许并社.Microstructure evolution of AZ91D induced by high energy shot peening[J].中国有色金属学会会刊：英文版,2008,18(5):1053-1057. 被引量：11
4张津,欧信兵.Thermal stability of nanocrystalline in surface layer of magnesium alloy AZ91D[J].Transactions of Nonferrous Metals Society of China,2010,20(7):1340-1344. 被引量：2
5MIAO Hong,ZUO Dunwen,WANG Min,ZHANG Ruihong,WANG Hongfeng.Numerical Calculation and Experimental Research on Residual Stresses in Precipitation-hardening Layer of NAK80 Steel for Shot Peening[J].Chinese Journal of Mechanical Engineering,2011,24(3):439-445. 被引量：18
6张兵,曹雪刚,刘德林,刘新灵.Surface recrystallization of single crystal nickel-based superalloy[J].Transactions of Nonferrous Metals Society of China,2013,23(5):1286-1292. 被引量：8
7陈国清,焦岩,田唐永,张新华,李志强,周文龙.Effect of wet shot peening on Ti-6Al-4V alloy treated by ceramic beads[J].Transactions of Nonferrous Metals Society of China,2014,24(3):690-696. 被引量：7
8S.ANAND KUMAR,R.SUNDAR,S.GANESH SUNDARA RAMAN,H.KUMAR,R.KAUL,K.RANGANATHAN,S.M.OAK,L.M.KUKREJA,K.S.BINDRA.Influence of laser peening on microstructure and fatigue lives of Ti-6Al-4V[J].Transactions of Nonferrous Metals Society of China,2014,24(10):3111-3117. 被引量：2

引证文献2

1李康,付雪松,陈国清,周文龙,李志强.Mechanical properties of strengthened surface layer in Ti-6Al-4V alloy induced by wet peening treatment[J].Transactions of Nonferrous Metals Society of China,2016,26(11):2868-2873. 被引量：5
2王军强,韩建民,LI Weijing,YANG Zhiyong,LI Zhiqiang,ZHAO Yingxin.Analytical Modelling of Shot-peening Residual Stress on Welding Carbon Steel Surface Layer[J].Journal of Wuhan University of Technology(Materials Science),2016,31(6):1352-1362.

二级引证文献5

1杨静.人文社:从这里开始[J].中国出版,2000(2):30-30.
2张宗熠,刘竟成,高殿荣,孙亚楠,邱婷婷.水压马达配流副仿生非光滑表面摩擦学性能[J].福州大学学报（自然科学版）,2020,48(5):610-617. 被引量：1
3王鑫,周舸,刘超,李鉴霖,李锋,陈立佳,刘海建.退火温度对Ti-6Al-4V合金超塑性组织与性能的影响[J].塑性工程学报,2020,27(11):195-201. 被引量：5
4王鑫,刘金亮,周舸,刘嘉靖,李锋,张思倩.Ti-6Al-4V合金超塑性变形行为的人工神经网络预测[J].沈阳工业大学学报,2021,43(2):163-168. 被引量：6
5赵涛,王优强,胡宇,何彦,李梦杰,朱玉玲.水压马达配流副椭圆形织构表面流场分析[J].润滑与密封,2022,47(8):59-66. 被引量：1

1张津.Surface Nanocrystallization of Magnesium Alloy AZ91D by High-Energy Shot Peening[J].Journal of Wuhan University of Technology(Materials Science),2009,24(4):515-519.
2Yunyi, Fu, Qian, Wan, Gengxiang, Hu.EFFECTS OF HIGH-ENERGY BALL MILLING ON STRUCTURE AND MECHANICAL PROPERTIES OF L1_2 INTERMETALLIC COMPOUND Al_(67)Mn_8Ti_(25)[J].中国有色金属学会会刊：英文版,1998,8(3):57-61.
3PingWU,JingyangWANG,等.Internal Friction and Elastic Study on Surface Nanocrystallized 304 Stainless Steel Induced by High-energy Shot Peening[J].Journal of Materials Science & Technology,2002,18(2):132-134. 被引量：4
4王晓蓉.基于PLC控制的1420铝合金电子束焊接接头的组织性能研究[J].热加工工艺,2016,45(23):193-197. 被引量：2
5MA Guang,LUO Yu,CHEN Chun-huan,REN Rui-ming,WU Wei,LI Zhi-qiang,ZENG Yan-song.Surface nanocrystallization of commercial pure titanium by shot peening[J].中国有色金属学会会刊:英文版,2004,14(z1):204-209. 被引量：3
6胡兰青,李茂林,王科,刘刚,卫英慧,许并社.铝合金表面纳米化处理及显微结构特征[J].中国有色金属学报,2004,14(12):2016-2020. 被引量：13
7王威,徐广印,王旭友,雷震.1420铝锂合金激光焊接气孔抑制技术[J].焊接学报,2008,29(2):5-7. 被引量：16
8吴亮,李玉胜.3Cr2W8V钢表面纳米化处理微观组织及力学性能研究[J].山东工业技术,2014(20):18-20. 被引量：2
9Pan Liwen,Zheng Lijing,Zhou Lei,Zhang Huarui,Tang Xiaoxia,Ma Limin,Zhang Hu.Microstructure characteristics of Ni-43Ti-4Al-2Nb-2Hf alloy prepared by conventional casting and directional solidification[J].China Foundry,2012,9(2):101-107. 被引量：1
10XingpingYONG,GangLIU,等.Characterization and Properties of Nanostructured Surface Layer in a Low Carbon Steel Subjected to Surface Mechanical Attrition[J].Journal of Materials Science & Technology,2003,19(1):1-4. 被引量：20

中国有色金属学会会刊：英文版

2005年第3期

浏览历史

内容加载中请稍等...

Microstructure characteristics of as-surface nanocrystallized 1420 aluminum alloy by high-energy shot peening 被引量：2

参考文献16

同被引文献8

引证文献2

二级引证文献5

相关作者

相关机构

相关主题

浏览历史