STRUCTURAL CERAMICS AND THEIR SUPERPLASTICITY  II. Superplasticity of Structural Ceramics

Acta Metall Sin

2009, Vol. 45

Issue (1): 6-17 DOI:

论文

Current Issue | Archive | Adv Search

STRUCTURAL CERAMICS AND THEIR SUPERPLASTICITY II. Superplasticity of Structural Ceramics

SONG Yuquan; LIU Ying; XU Jin; GUAN Xiaofang

Superplastic and Plastic Research Institute; Jilin University; Changchun 130025

Cite this article:

SONG Yuquan LIU Ying XU Jin GUAN Xiaofang. STRUCTURAL CERAMICS AND THEIR SUPERPLASTICITY II. Superplasticity of Structural Ceramics. Acta Metall Sin, 2009, 45(1): 6-17.

Download:

PDF(717KB)
Export: BibTeX | EndNote (RIS)

Abstract

Other character of the structural ceramics is very low plasticity, resulting in especially hard to form complicate and large--scale parts. The research of the superplasticity of structural ceramics is one of the hotspots in the world. As examples, Y-TZP, Al₂O₃, Si₃N₄ and SiC were analyzed and the content emphasizes on tensile (compress) mechanical tests, microscopic mechanism and effects of crystal structure and additions on structural ceramics' superplastic deforming. In addition, its mechanical measurements and advanced research were also overviewed.

Key words: structural ceramics superplasticity macroscopic law microscopic mechanism advanced research mechanical measurement

Received: 09 October 2008

ZTFLH:

TQ174

Fund:

Supported by National Natural Science Foundation of China (No.50375064) and “985 Project”of Jilin University

About author: SONG Yuquan

	Service

	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS
	（）
	Articles by authors
	SONG Yu-Quan
	GU Hong-Jie
	LIU Ying
	GUAN Xiao-Pang

URL:

https://www.ams.org.cn/EN/ OR https://www.ams.org.cn/EN/Y2009/V45/I1/6

[1] Song Y Q. Chin J Mech Eng, 2003; 39(10): 64(宋玉泉. 机械工程学报, 2003; 39(10): 64)
[2] Zhang K F, Chen G Q, Wang G F. J Inorg Mater, 2003; 18: 705
(张凯锋, 陈国清, 王国锋. 无机材料学报, 2003; 18: 705)
[3] Wakai F, Sakaguchi S, Kanayama K, Kato H, Onishi H. In: Bunk W, Hausner H, eds., Ceramic Materials and Components for Engines, Bad Honnef, Deutsche Keramische Gesellschaft, 1986: 315
[4] Nieh T G, McNally C M, Wadsworth J. Scr Metall, 1988; 22: 1297
[5] Owen D M, Chokshi A H. Acta Mater, 1998; 46: 667
[6] Berbon M Z, Langdon T G. Acta Mater, 1999; 47: 2485
[7] Charit I, Chokshi A H. Acta Mater, 2001; 49: 2239
[8] Jim´enez–Melendo M, Dominguez–Rodriguez A. Acta Mater, 2000; 48: 3201
[9] Morita K, Hiraga K. Acta Mater, 2002; 50: 1075
[10] Hu S L. Ordnance Mater Sci Eng, 1995; 18(2): 3
(胡士廉. 兵器材料科学与工程, 1995; 18(2): 3)
[11] Lange F F. J Mater Sci, 1982; 17: 240
[12] Rieth P H, Reed J S, Naumann A W. Am Ceram Soc Bull, 1976; 55: 717
[13] Jiang D L. Fine Ceramic Materials. Beijing: China Lo- gistics Publishing House, 2000: 48
(江东亮. 精细陶瓷材料. 北京: 中国物资出版社, 2000: 48)
[14] Chen D Q. China Ceram Ind, 1994; 1(2): 24
(陈达谦. 中国陶瓷工业, 1994; 1(2): 24)
[15] Wakai F, Sakaguchi S, Matsuno Y. Adv Ceram Mater, 1986; 1: 259
[16] Hermansson T, Dunlop G L. Int J High Technol Ceram, 1988; 4: 263
[17] Nieh T G, Wadsworth J. Scr Metall, 1990; 24: 763
[18] Nieh T G, Wadsworth J. Acta Metall Mater, 1990; 38: 1121
[19] Nieh T G, Yaney D L. Wadsworth J. Scr Metall, 1989; 23: 2007
[20] Schissler D J, Chokshi A H, Nieh T G, Wadsworth J. ActaMetall Mater, 1991; 39: 3227
[21] Tekeli S, Davies T J. Scr Mater, 1998; 39: 119
[22] Tekeli S, Davies T J. Mater Sci Eng, 2001; A297: 168
[23] Tekeli S. Mater Lett, 2002; 57: 715
[24] Sharif A A, Mecartney M L. Acta Mater, 2003; 51: 1633
[25] Kajihara K, Yoshizawa Y, Sakuma T. Acta Metall Mater, 1995; 43: 1235
[26] Lin Z R, Zhang Z Y, Han B Q, Dai Y, Xu J, Sheng X M, He X C, Qiu T. J Chin Ceram Soc, 1995; 23: 97
(林兆荣, 张中元, 韩秉强, 戴勇, 徐洁, 盛绪敏, 何旭初, 丘泰. 硅酸盐学报, 1995; 23: 97)
[27] Lin Z R, Xu J, Zhang Z Y, Tong G Q, Han B Q, Qiu T. J Nanjing Univ Aeronaut Astronaut, 1996; 28: 141
(林兆荣, 徐洁, 张中元, 童国权, 韩秉强, 丘泰. 南京航空航天大学学报, 1996; 28: 141)
[28] Tong G Q, Lin Z R. J Nanjing Univ Aeronaut Astronaut, 1996; 28: 187
(童国权, 林兆荣. 南京航空航天大学学报, 1996; 28: 187)
[29] Tong G Q, Lin Z R. Chin J Mater Res, 1998; 12: 144
(童国权, 林兆荣. 材料研究学报, 1998; 12: 144)
[30] Duclos R, Crampon J, Amana B. Acta Metall, 1989; 37: 877
[31] Xu J, Qiu T, Li Y Q, He X C, Sheng X M. J Nanjing Inst Chem Technol, 1994; 16(1): 27
(徐洁, 丘泰, 李远强, 何旭初, 盛绪敏. 南京化工学院学报, 1994; 16(1): 27)
[32] Ye J D, Chen K. J Inorg Mater, 1997; 12: 181
(叶建东, 陈楷. 无机材料学报, 1997; 12: 181)
[33] Motohashi Y, Sekigami T, Sugeno N V. J Mater Process Technol, 1997; 68: 229
[34] Shi J L, Zhu G Q, Lai T R. J Eur Ceram Soc, 1997; 17: 851
[35] Shi J L, Lu Z L, Gao J H, Zhu G Q, Li L, Lai T R. Acta Mater, 1998; 46: 1923
[36] Shi J L, Zhu G Q, Gao J H, Li L, Lu Z L, Lai T R. J Mater Res, 1998; 13: 2224
[37] Balasubramanian N, Langdon T G. Scr Mater, 2003; 48: 599
[38] Dominguez–Rodriguez A, Gutierrez–Mora F, Jimenez– Melendo M. Mater Sci Eng, 2001; A302: 154
[39] Morita K, Hiraga K. Scr Mater, 2003; 48: 1403
[40] Bravo–Le´on A, Jim´enez–Melendo M, Dom´?nguez– Rodr´?guez A, Chokshi A H. Scr Mater, 1996; 34: 1155
[41] Hines J A, Ikuhara Y, Chokshi A H, Sakuma T. Acta Mater, 1998; 46: 5557
[42] Yasuda K, Okamoto T, Shiota T, Matsuo Y. Mater Sci Eng, 2006; A418: 115
[43] Yoshizawa Y, Sakuma T. Acta Metall Mater, 1992; 40: 2943
[44] Yoshizawa Y, Sakuma T. Mater Sci Eng, 1994; A176: 447
[45] Cannon W R. In: Kingery W D, ed., Adv in Ceram, Vol.10, Columbus, OH: American Ceramic Society, 1984: 741
[46] Venkatachari K R, Raj R. J Am Ceram Soc, 1986; 69: 135
[47] Davies T J, Ogwu A A, Ridley N, Wang Z C. Acta Mater, 1996; 44: 2373
[48] Wang Z C, Davies T J, Ridley N, Ogwu A A. Acta Mater, 1996; 44: 4301
[49] Bataille A, Crampon J, Duclos R. Ceram Int, 1999; 25: 215
[50] Takigawa Y, Yoshizawa Y, Sakuma T. Ceram Int, 1998; 24: 61
[51] Okada K, Thavorniti P, Sakuma T. Mater Sci Forum, 1994; 170–172: 385
[52] Okada K, Sakuma T. J Am Ceram Soc, 1996; 79: 499
[53] Wakai F, Iga T, Nagano T. Nippon Seramikkusu Kyokai Gakujutsu Ronbunshi (J Ceram Soc Jpn), 1988; 96: 1206
(若井史博, 伊贺武雄, 永野孝幸. 日本セテシツケス协会学术论文志, 1988; 96: 1206)
[54] Nakano K, Suzuki T S, Hiraga K, Sakka Y. Scr Mater, 1998; 38: 33
[55] Hiraga K, NakanoK, Suzuki T S, Sakka Y. Scr Mater, 1998; 39: 1273
[56] Nieh T G, McNally C M, Wadsworth J. Scr Metall, 1989; 23: 457
[57] Pilling J, Payne J. Scr Metall Mater, 1995; 32: 1091
[58] Kim B N, Hiraga K, Morita K, Sakka Y. Nature, 2001; 413: 288
[59] Kim B N, Hiraga K, Morita K, Sakka Y, Yamada T. Scr Mater, 2002; 47: 775
[60] Kim B N, Hiraga K, Morita K, Sakka Y. Acta Mater, 2001; 49: 887
[61] Clarisse L, Bataille A, Pennec Y, Crampon J, Duclos R. Ceram Int, 1999; 25: 389
[62] Chokshi A H. J Mater Sci, 1990; 25: 3221
[63] Clarisse L, Baddi R, Bataille A, Crampon J, Duclos R, Vicens J. Acta Mater, 1997; 45: 3843
[64] Kim B N, Hiraga K, Sakka Y, Jang B K. Scr Mater, 2001; 45: 61
[65] Flacher O, Blandin J J, Plucknett K P, Caceres C H, Wilkinson D S. Mater Sci Eng, 1996; A219: 148
[66] Flacher O, Blandin J J, Dendievel R. Acta Mater, 1997; 45: 2851
[67] Ye J D, Chen K. J Inorg Mater, 1998; 13: 257 (叶建东, 陈楷. 无机材料学报, 1998; 13: 257)
[68] Lange F F, Diaz E S, Andersson C A. Am Ceram Soc Bull, 1979; 58: 845
[69] Carry C, Mocellin A. Mater Sci Res, 1984; 18: 391
[70] Kondo N, Wakai F, Nishioka T, Yamakawa A. J Mater Sci Lett, 1995; 14: 1369
[71] Rouxel T, Rossignol F, Besson J L, Goursat P. J Mater Res, 1997; 12: 480
[72] Burger P, Duclos R, Crampon J. Mater Sci Eng, 1997; A222: 175
[73] Burger P, Duclos R, Crampon J. J Am Ceram Soc, 1997; 80: 879
[74] Burger P, Duclos R, Crampon J. Key Eng Mater, 1997; 132–136: 555
[75] Zhan G D, Mitomo M, Xie R J, Kurashima K. Acta Mater, 2000; 48: 2373
[76] Zhan G D, Mitomo M, Nishimura T, Xie R J, Sakuma T, Ikuhara Y. J Am Ceram Soc, 2000; 83: 841
[77] Xie R J, Mitomo M, Zhan G D. Acta Mater, 2000; 48: 2049
[78] Zhan G D, Mitomo M, Xie R J, Kurashima K. J Mater Res, 2002; 17: 149
[79] Kondo N, Wakai F, Yamagiwa M, Nishioka T, Yamakawa A. Mater Sci Eng, 1996; A206: 45
[80] Kondo N, Sato E, Wakai F. J Am Ceram Soc, 1998; 81: 3221
[81] Zhan G D, Mitomo M, Ikuhara Y, Sakuma T. J Am Ceram Soc, 2000; 83: 3179
[82] Wakai F, Kodama Y, Sakaguchi S, Murayama N, Izaki K, Niihara K. Nature, 1990; 344: 421
[83] Besson J L, Mayne M, Bahloul–Hourlier D, Goursat P. J Eur Ceram Soc, 1998; 18: 1893
[84] Mayne M, Rouxel T, Bahloul–Hourlier D, Besson J L. J Eur Ceram Soc, 1998; 18: 1985
[85] Besson J L, Rouxel T, Goursat P. Scr Mater, 1998; 39: 1339
[86] Besson J L, Doucey B, Lucas S, Bahloul–Hourlier D, Goursat P. J Eur Ceram Soc, 2001; 21: 959
[87] Hwang S L, Chen I W. J Am Ceram Soc, 1994; 77: 2575
[88] Rosenflanz A, Chen I W. J Am Ceram Soc, 1997; 80: 1341
[89] Kondo N, Ohji T, Wakai F. J Ceram Soc Jpn, 1998; 106: 1040
(近藤直树, 大司达树, 若井史博. 日本セテシツケス协会学术论文志, 1998; 106: 1040)
[90] Mitomo M, Kim Y W, Hirotsuru H. J Mater Res, 1996; 11: 1601
[91] Wang C M, Mitomo M, Emoto H. J Mater Res, 1997; 12: 3266
[92] Nagano T, Honda S, Wakai F, Mitomo M. In: Kaibyshev R, Musin F, Lesuer D R, eds., Superplasticity and Superplastic Forming, TMS Annual Meeting, Warrendale, PA: TMS, 1998: 247
[93] Nagano T, Gu H, Kaneko K, Zhan G D, Mitomo M. J Am Ceram Soc, 2001; 84: 2045
[94] Nagano T, Gu H, Zhan G D, Mitomo M. J Mater Sci, 2002; 37: 4419
[95] Nagano T, Kaneko K, Zhan G D, Mitomo M. Mater Res Soc Symp Proc, 2000; 601: 133
[96] Nagano T, Kaneko K, Zhan G D, Mitomo M. J Am Ceram Soc, 2000; 83: 2497
[97] Nagano T, Kaneko K, Zhan G D, Mitomo M, Kim Y W. J Eur Ceram Soc, 2002; 22: 263
[98] Shinoda Y, Nagano T, Gu H, Wakai F. J Am Ceram Soc, 1999; 82: 2916
[99] Gu H, Shinoda Y, Wakai F. J Am Ceram Soc, 1999; 82: 469
[100] Song Y Q, Lian S J, Zhang Z J. Chin J Mech Eng, 1989; 25(3): 38
(宋玉泉, 连书君, 张振军. 机械工程学报, 1989; 25(3): 38)
[101] Song Y Q. J Jilin Univ Technol, 1985; (2): 1
(宋玉泉. 吉林工业大学学报, 1985; (2): 1)
[102] Song Y Q, Cheng Y C, Liu S M. Chin J Mech Eng, 2001; 37(3): 5
(宋玉泉, 程永春, 刘术梅. 机械工程学报, 2001; 37(3): 5)
[103] Song Y Q, Cheng Y C, Wang X W. Chin J Mech Eng, 2000; 36(8): 33
(宋玉泉, 程永春, 王习文. 机械工程学报, 2000; 36(8): 33)
[104] Song Y Q, Wang X W, Liu Y. Prog Nat Sci, 2002; 12: 176
(宋玉泉, 王习文, 刘颖. 自然科学进展, 2002; 12: 176 )
[105] Song Y Q, Cheng Y C, Liu S M. Chin J Mech Eng, 2001; 37(4): 1
(宋玉泉, 程永春, 刘术梅. 机械工程学报, 2001; 37(4): 1)
[106] Song Y Q, Hai J T, Guan Z P. Sci China, 2001; 31E: 103
(宋玉泉, 海锦涛, 管志平. 中国科学, 2001; 31E: 103)
[107] Song Y Q, Cheng Y C, Liu Y. Sci China, 2000; 30E: 200
(宋玉泉, 程永春, 刘颖. 中国科学, 2000; 30E: 200)
[108] Song Y Q, Cheng Y C, Wang X W. Sci China, 2001; 31E: 193
(宋玉泉, 程永春, 王习文. 中国科学, 2001; 31E: 193)
[109] Song Y Q, Guan Z P, Ma P K, Song J W. Acta Metall Sin, 2006; 42: 673
(宋玉泉, 管志平, 马品奎, 宋家旺. 金属学报, 2006; 42: 673)
[110] Song Y Q, Suo Z L, Guan Z P, Liu Y. Acta Metall Sin, 2006; 42: 337
(宋玉泉, 索忠林, 管志平, 刘 \ \ 颖. 金属学报, 2006; 42: 337)
[111] Song Y Q, Guan Z P, Wang M H. Song J W. Sci China (Engl), 2006; 49E: 641
[112] Song Y Q, Cheng Y C, Hou L. China Mech Eng, 1999; 10: 782
(宋玉泉, 程永春, 侯磊. 中国机械工程, 1999; 10: 782)
[113] Song Y Q, Guan Z P,Wang M H, Liu Y. Mater Sci Forum, 2007; 551–552: 173
[114] Song Y Q, Song J W, Xiong W. Acta Metall Sin, 2008; 44: 69
(宋玉泉, 宋家旺, 熊伟. 金属学报, 2008; 44: 69)
[115] Backofen W A, Turner I R, Avery D H. ASM Trans Q, 1964; 57: 980
[116] Hollomon J H. Trans ASM, 1944; 32: 123
[117] Lu X C, Xu T X. Bull Chin Ceram Soc, 1997; 16(3): 50
(卢旭晨, 徐廷献. 硅酸盐通报, 1997; 16(3): 50)
[118] Wu X, Chen I W. J Am Ceram Soc, 1990; 73: 746
[119] Winnubst A J A, Boutz M M R. J Eur Ceram Soc, 1998; 18: 2101
[120] Hayashi S, Watanabe K, Imuta M, Goto J. Key Eng Mater, 1999; 159: 181
[121] Zhang Q, An X Y, Zhang C X, Luo J T. J Plast Eng, 2007; 14(1): 24
(张庆, 安小燕, 张春祥, 骆俊廷. 塑性工程学报, 2007; 14(1): 24)
[122] Wen J B, Yang Y L, Yang Y S, Chen F X, Zhang K K, Zhang Y Z. Superplastic Applied Technology. Beijing: China Machine Press, 2005: 217
(文九巴, 杨蕴林, 杨永顺, 陈拂晓, 张柯柯, 张耀宗. 超塑性应用技术. 北京: 机械工业出版社, 2005: 217 )
[123] Nagano T, Wakai F. J Ceram Soc Jpn, 1992; 100: 1279
(永野孝幸, 若井史博. 日本セテシツケス协会学术论文志, 1992; 100: 1279)
[124] Jimenez–Pique E, Dominguez–Rodriguez A, Martinez– Fernandez J, Lara–Curzio E, Singh M. J Eur Ceram Soc, 2000; 20: 147
[125] Nagano T, Wakai F. J Mater Sci, 1993; 28: 5793 [126] Dominguez–Rodriguez A, Fernando G, Jimenez–Melendo M. J Mater Sci, 1998; 13: 1631

[1]	WANG Huiyuan, XIA Nan, BU Ruyu, WANG Cheng, ZHA Min, YANG Zhizheng. Current Research and Future Prospect on Low-Alloyed High-Performance Wrought Magnesium Alloys[J]. 金属学报, 2021, 57(11): 1429-1437.
[2]	Guangming XIE, Zongyi MA, Peng XUE, Zongan LUO, Guodong WANG. Effects of Tool Rotation Rates on Superplastic Deformation Behavior of Friction Stir Processed Mg-Zn-Y-Zr Alloy[J]. 金属学报, 2018, 54(12): 1745-1755.
[3]	Huiyuan WANG, Hang ZHANG, Xinyu XU, Min ZHA, Cheng WANG, Pinkui MA, Zhiping GUAN. Current Research and Future Prospect on Microstructure Stability of Superplastic Light Alloys[J]. 金属学报, 2018, 54(11): 1618-1624.
[4]	Chao YANG,Jijie WANG,Zongyi MA,Dingrui NI,Mingjie FU,Xiaohua LI,Yuansong ZENG. FRICTION STIR WELDING AND LOW-TEMPERATURE SUPERPLASTICITY OF 7B04 Al SHEET[J]. 金属学报, 2015, 51(12): 1449-1456.
[5]	FU Mingjie, HAN Xiuquan, WU Wei, ZHANG Jianwei. SUPERPLASTICITY RESEARCH OF Ti-23Al-17Nb ALLOY SHEET[J]. 金属学报, 2014, 50(8): 955-961.
[6]	MA Pinkui, SONG Yuquan. BINOCULAR STEREO VISION MEASUREMENT RESEARCH FOR SUPERPLASTIC FREE BULGING[J]. 金属学报, 2014, 50(4): 471-478.
[7]	GUAN Zhiping, MA Pinkui, SONG Yuquan. ANALYSIS OF FRACTURE DURING SUPERPLASTIC TENSION[J]. 金属学报, 2013, 49(8): 1003-1011.
[8]	SHEN Jun, FENG Aihan. RECENT ADVANCES ON MICROSTRUCTURAL CONTROLLING AND HOT FORMING OF Ti₂AlNb－BASED ALLOYS[J]. 金属学报, 2013, 49(11): 1286-1294.
[9]	HOU Jieshan, ZHOU Lanzhang, GUO Jianting, YUAN Chao. APPLICATION OF ARTIFICIAL NEURAL NETWORK FOR PREDICTION OF SUPERPLASTIC BEHAVIOUR IN NiAl ALLOYS[J]. 金属学报, 2013, 49(11): 1333-1338.
[10]	CAO Furong DING Hua WANG Zhaodong LI Yinglong GUAN Renguo CUI Jianzhong . QUASI–SUPERPLASTICITY AND DEFORMATION MECHANISM OF ULTRALIGHT β SOLID SOLUTION Mg–11Li–3Zn ALLOY[J]. 金属学报, 2012, 48(2): 250-256.
[11]	WANG Gang XU Lei WANG Yong ZHENG Zhuo CUI Yuyou YANG Rui. HOT DEFORMATION BEHAVIOR AND MICROSTRUCTURE EVOLUTION OF A HIGH-Nb-CONTAINING TiAl BASED ALLOY[J]. 金属学报, 2011, 47(5): 587-593.
[12]	CAO Furong GUAN Renguo DING Hua LI Yinglong ZHOU Ge CUI Jianzhong. DISLOCATION CREEP IN SUPER–LIGHT α SOLID SOLUTION BASE Mg–6Li–3Zn ALLOY[J]. 金属学报, 2010, 46(6): 715-722.
[13]	ZHANG Han BAI Bingzhe FANG Hongsheng. EFFECT OF PRESTRAIN ON THE SUPERPLASTIC DEFORMATION BEHAVIOR OF LOW-ALLOY HIGH-CARBON STEEL[J]. 金属学报, 2009, 45(9): 1106-1110.
[14]	KANG Zhixin PENG Yonghui SANG Jing JIAN Weiwei ZHAO Haidong LI Yuanyuan. SUPERPLASTICITY AND MICROSTRUCTURE EVOLUTION IN Mg-1.5Mn-0.3Ce ALLOY DEFORMED BY T-SHAPE CHANNEL PRESSING[J]. 金属学报, 2009, 45(9): 1117-1124.
[15]	YANG Gang HUANG Chongxiang WU Shiding ZHANG Zhefeng. STRAIN--INDUCED MARTENSITIC TRANSFORMATION IN 304L AUSTENITIC STAINLESS STEEL UNDER ECAP DEFORMATION[J]. 金属学报, 2009, 45(8): 906-911.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed