Transactions of Materials and Heat Treatment

Title：Influence of shot peening on surface integrity of steel H13

Authors： Wu Ying Lei Liping Zeng Pan

Unit： Ministry of Education Tsinghua University

KeyWords： shot peening steel H13 surface integrity residual compressive stress grain refinement texture

ClassificationCode：TG668

year,vol(issue):pagenumber：2017,42(11):164-171

Abstract：

To study the influence of shot peening on the surface integrity of steel H13 under different intensities, the surface roughness, hardness, residual stress and surface microstructure of specimen were investigated by white-light interferometer, microhardness tester, XRD, SEM and EBSD, and the grain size, grain boundary misorientation and texture of surface layer before and after 0.33 A shot peening were analyzed quantitatively. The results show that the surface integrity of steel H13 are all changed after shot peening under different intensities, and the shot peening can improve the surface roughness and microhardness, and induce the residual compressive stress layer with a certain depth at the same time. Therefore, comparing with the specimen without shot peening, the surface roughness of steel H13 is increased by 152% after 0.23 A shot peening, and the depth of hardening layer is increased from 100 μm to 160 μm as well as the depth of residual compressive stress layer increased from 200 μm to 300 μm with the shot peening intensity increasing from 0.23 A to 0.33 A. However, for none shot peened specimen, the average grain size is 950 nm, and the average grain boundary misorientation is 33.5858° due to {001}<100> and {110}<111> mixed textures with weak strength existing in the specimen. Furthermore, after 0.33 A shot peening, there are two kinds of {111}<uvw> and {hkl}<110> plate textures in the microstructure at the region 10 μm away from the surface with a depth of grain refinement layer more than 30 μm, and the average grain size is refined to 470 nm, and the average grain boundary misorientation increases to 39.0228°.

Funds：

国家自然科学基金资助项目（51175293）

作者简介：吴瑛(1993-)，女，硕士研究生 E-mail：clxyxswy@163.com 通讯作者: 雷丽萍(1968-)，女，博士，副研究员 E-mail:leilp@mail.tsinghua.edu.cn

Reference：

[1]盖鹏涛, 陈福龙, 尚建勤, 等. 喷丸强化对表面完整性影响的研究现状与发展[J]. 航空制造技术, 2016,515(20):16-21.

Gai P T, Chen F L, Shang J Q, et al. Recent situation and development trend of shot peening on surface integrity[J]. Aeronautical Manufacturing Technology, 2016,515(20):16-21.

[2]Fargas G, Roa J J, Mateo A. Effect of shot peening on metastable austenitic stainless steels[J]. Materials Science & Engineering A, 2015,641:290-296.

[3]Bagherifard S, Fernandez-Pariente I, Ghelichi R, et al. Effect of severe shot peening on microstructure and fatigue strength of cast iron[J]. International Journal of Fatigue, 2014,65（8）:64-70.

[4]张杰, 白雪飘, 陆业航, 等. 不同强度喷丸处理后铝锂合金表面的残余应力[J]. 机械工程材料, 2016,40(2):37-39.

Zhang J, Bai X P, Lu Y H, et al. Surface residual stress in aluminum-lithium alloy shot-peened at different shot peening intensities[J]. Materials for Mechanical Engineering, 2016,40(2):37-39.

[5]Wang C X, Jiang C H, Cai F, et al. Effect of shot peening on the residual stresses and microstructure of tungsten cemented carbide[J]. Materials & Design, 2016,95（5）:159-164.

[6]Liu W C, Wu G H, Zhai C Q, et al. Grain refinement and fatigue strengthening mechanisms in as-extruded Mg-6Zn-0.5Zr and Mg-10Gd-3Y-0.5Zr magnesium alloys by shot peening[J]. International Journal of Plasticity, 2013,49(10):16-35.

[7]Chang S H, Tang T P, Tai F C. Enhancement of thermal cracking and mechanical properties of H13 tool steel by shot peening treatment[J]. Surface Engineering, 2011,27(8):581-586.

[8]Xie L C, Wen Y, Zhan K, et al. Characterization on surface mechanical properties of Ti-6Al-4V after shot peening[J]. Journal of Alloys and Compounds, 2016,666:65-70.

[9]Vielma A T, Llaneza V, Belzunce F J. Effect of coverage and double peening treatments on the fatigue life of a quenched and tempered structural steel[J]. Surface & Coatings Technology, 2014,249:75-83.

[10]Sonntag R, Reinders J, Gibmeier J, et al. Fatigue performance of medical Ti-6Al-4V alloy after mechanical surface treatments[J]. Plos One, 2015,10(3):1-15.

[11]Krauss M, Scholtes B. Thermal shock damage of hot-work tool steel AISI H11 in hard turned, electroeroded, shot-peened or deep rolled surface conditions[J]. Journal of Materials Science and Technology, 2004,20:93-96.

[12]Ye Z Y, Liu D X, Li C Y, et al. Effect of shot peening and plasma electrolytic oxidation on the intergranular corrosion behavior of 7A85 aluminum alloy[J]. Acta Metallurgica Sinica:English Letters, 2014,27(4):705-713.

[13]Karaoglanli A C, Doleker K M, Demirel B, et al. Effect of shot peening on the oxidation behavior of thermal barrier coatings[J]. Applied Surface Science, 2015,354:314-322.

[14]HB/Z 26-2011 航空零件喷丸强化工艺[S].

HB/Z 26-2011, Shot peening of aircraft parts[S].

[15]吴凌飞, 王强, 张志刚, 等. 喷丸强度对不同粗糙度表面超高强度钢疲劳性能的影响[J]. 材料保护, 2014,47(8):46-50.

Wu L F, Wang Q, Zhang Z G, et al. Effect of shot peening intensity on fatigue property of ultrahigh strength steel with different surface roughness[J]. Material Protection, 2014, 47(8): 46-50.

[16]吕鹤婷, 王建明, 刘兴睿. 喷丸残余应力对裂纹闭合效应影响的数值仿真[J]. 中国表面工程, 2016,29(2):102-110.

Lyu H T, Wang J M, Liu X R. Numerical simulation for residual stress fields of shot-peening on crack closure effects[J]. China Surface Engineering, 2016,29(2):102-110.

[17]Sakai T, Belyakov A, Kaibyshev R, et al. Dynamic and post-dynamic recrystallization under hot, cold and severe plastic deformation conditions[J]. Progress in Materials Science, 2014,60(1):130-207.

[18]刘刚, 雍兴平, 卢柯. 金属材料表面纳米化的研究现状[J]. 中国表面工程, 2001,14(3):1-5.

Liu G， Yong X P, Lu K. The current situation of researches of surface-nanocrystallization on metallic materials[J]. China Surface Engineering, 2001,14(3):1-5.

[19]杨平. 电子背散射衍射技术及其应用[M]. 北京: 冶金工业出版社, 2007.

Yang P. Electron Backscatter Diffraction and Applications[M]. Beijing: Metallurgical Industry Press, 2007.

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