取向差对SRR99双晶高温合金拉伸性能的影响

doi:10.3724/SP.J.1037.2012.00596

金属学报

2013, Vol. 49

Issue (3): 351-357 DOI: 10.3724/SP.J.1037.2012.00596

论文

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取向差对SRR99双晶高温合金拉伸性能的影响

李小阳^1,2，李鹏¹，周亦胄²，金涛²，张哲峰¹

1) 中国科学院金属研究所沈阳材料科学国家(联合)实验室, 沈阳 110016

2) 中国科学院金属研究所高温合金研究部, 沈阳 110016

EFFECT OF MISORIENTATION ON THE TENSILE PROPERTIES OF SRR99 SUPERALLOY BICRYSTALS

LI Xiaoyang^1,2, LI Peng¹, ZHOU Yizhou², JIN Tao², ZHANG Zhefeng¹

1) Shenyang National Laboratory for Materials Science, Institute of Metal Research, Chinese Academy of Sciences,Shenyang 110016

2.) Superalloy Division, Institute of Metal Research, Chinese Academy of Sciences, Shenyang 110016

引用本文:

李小阳，李鹏，周亦胄，金涛，张哲峰. 取向差对SRR99双晶高温合金拉伸性能的影响[J]. 金属学报, 2013, 49(3): 351-357.
LI Xiaoyang, LI Peng, ZHOU Yizhou, JIN Tao, ZHANG Zhefeng. EFFECT OF MISORIENTATION ON THE TENSILE PROPERTIES OF SRR99 SUPERALLOY BICRYSTALS[J]. Acta Metall Sin, 2013, 49(3): 351-357.

全文: PDF(998 KB)

摘要:

通过对具有不同取向差的SRR99双晶高温合金试样进行室温拉伸实验, 系统比较了取向差对试样拉伸行为、表面形貌、断裂方式和断口形貌的影响. 结果表明: 取向差为4°的晶界对双晶的拉伸性能几乎没有影响; 当取向差达到10°时, 晶界的作用开始明显显现; 而取向差为16°和18°的晶界对双晶的力学性能影响最大. 扫描电镜观察发现: 滑移易于贯穿4°取向差晶界, 最后沿滑移带开裂, 断口呈明显的滑移特征; 取向差为10°的双晶在滑移带撞击下, 裂纹沿滑移带和晶界同时扩展, 最后率先沿滑移带失稳断裂, 断口上除有滑移特征, 还呈现枝晶间开裂特征; 而取向差为16°和18°的双晶, 在屈服初期便萌生晶界裂纹, 最后沿晶界快速发生断裂, 断口枝晶间开裂特征明显.

Abstract：

The tensile deformation behavior, surface morphology, fracture mode and fracture morphology of SRR99 superalloy bicrystals were systematically investigated at room temperature in air. It is shown that the bicrystal with misorientation of 4° has little influence on the tensile properties, however the effect of grain boundary (GB) becomes obvious when the misorientation is 10°, for the bicrystals with misorientations of 16° and 18° the effect of GBs becomes much more serious. It is experimently found that slip is the most important deformation mode in the SRR99 superalloy bicrystals at room temperature. For the bicrystal with misorientation of 4°, slip bands would transfer through GB easily, and finally the specimens fractured along slip bands with typical slip characteristic on their fractography. In the bicrystal with misorientation of 10°,cracks nucleated and propagated either along slip bands or along GBs due to the impingement of slip bands and the strain accumulations, and finally the fracture instability happened along slip bands. The fracture morphology showed not only slip characteristic, but also the features of interdendritic cracks. In the bicrystals with misorientations of 16° and 18°, cracks initiated after yielding, and then propagated along GBs and the fracture surfaces mainly consisted of interdendritic cracks.

收稿日期: 2012-10-11

基金资助:

国家自然科学基金项目51001104和U1037601, 以及国家重点

作者简介: 李小阳, 男, 1986年生, 硕士

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https://www.ams.org.cn/CN/10.3724/SP.J.1037.2012.00596 或 https://www.ams.org.cn/CN/Y2013/V49/I3/351

[1] Gell M, Duhl D N, Giamei A F. In: Tien J K, Wlodek S T, Morrow H, Gell M, Mauer G E eds.,Superalloys 1980, Metals Park, OH: American Society for Metals, 1980: 205

[2] Ross E W, O'Hara K S. In: Kissinger R D, Deye D J, Cetel A D, Nathal M V, Pollock T M, Woodford D A eds.,Superalloys 1996, Warrendale, PA: TMS, 1996: 19

[3] Kear B H, Piearcey B J.Trans Metall Soc AIME, 1967; 239: 1209

[4] Li J R, Zhao J Q, Liu S Z, Han M. In: Reed R C, Green K A, Caron P, Gabb T P, Fahrmann M G, Huron E S,Woodard S A eds.,Superalloys 2008, Warrendale, PA: TMS, 2008: 443

[5] Zhang Z F, Wang Z G.Mater Sci Eng, 2000; A284: 285

[6] Zhang Z F, Wang Z G.Acta Mater, 2003; 51: 347

[7] Zhou Y Z.Scr Mater, 2011; 65: 281

[8] Zhou Y Z, Jin T, Sun X F.Acta Metall Sin, 2010; 46: 1327

(周亦胄, 金涛, 孙晓峰. 金属学报, 2010; 46: 1327)

[9] Zhou Y Z, Volek A, Green N R.Acta Mater, 2008; 56: 2631

[10] Zhou Y Z, Green N R. In: Reed R C, Green K A, Caron P, Gabb T P, Fahrmann M G, Huron E S, Woodard S A eds.,Superalloys 2008, Warrendale, PA: TMS, 2008: 317

[11] Zhou Y Z, Volek A.Scr Mater, 2006; 54: 2169

[12] Wang L N, Liu Y, Yu J J, Xu Y, Sun X F, Guan H R, Hu Z Q.Mater Sci Eng, 2009; A505: 144

[13] Zou F L, Gao K W, Zhu Q F, Xie J X.Acta Metall Sin, 2008; 44: 297

(邹风雷, 高克纬, 朱其芳, 谢建新. 金属学报, 2008; 44: 297)

[14] Wang M Z, Lin S, Xiao J M.Acta Metall Sin, 1996; 32: 1049

(王明章, 林实, 肖纪美. 金属学报, 1996; 32: 1049)

[15] Cai Y L, Zheng Y R.J Aeronaut Mater, 1977; 3: 1

(蔡玉林, 郑运荣. 航空材料学报, 1977; 3: 1)

[16] Yu X H, Zhang J H, Hu Z Q.Acta Metall Sin, 1994; 30: A551

(于熙泓, 张静华, 胡壮麒. 金属学报, 1994; 30: A551)

[17] Zhao J Q, Li J R, Liu S Z, Yuan H L, Han M.J Aeronaut Mater, 2007; 27: 6

(赵金乾, 李嘉荣, 刘世忠, 袁海龙, 韩梅. 航空材料学报, 2007; 27: 6)

[18] Chen D, Kuo J C, Tung S H, Shih M H.Mater Sci Eng, 2007; A454: 523

[19] Lim L C, Raj R.Acta Metall, 1985; 33: 1577

[20] Wei C, Qian R G, Lin S, Xiao J M.Acta Metall Sin, 1990; 26: A248

(卫超, 钱仁根, 林实, 肖纪美. 金属学报, 1990; 26: A248)

[21] Wang M Z, Li X Y, Lin S, Wang Z G, Xiao J M.Acta Metall Sin, 1999; 35: 27

(王明章, 李小燕, 林实, 王中光, 肖纪美. 金属学报, 1999; 35: 27)

[22] Wu J S, Lin D L.Acta Metall Sin, 1996; 32: 527

(吴建生, 林栋梁. 金属学报, 1996; 32: 527)

[23] Zhang Z F, Zhang P, Tian Y Z, Zhang Q K, Qu S, Zou H F, Duan Q Q, Li S X, Wang Z G.Acta Metall Sin,

2009; 45: 788

(张哲峰, 张鹏, 田艳中, 张青科, 屈伸, 邹鹤飞, 段启强, 李守新, 王中光. 金属学报, 2009; 45: 788)

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