+Advanced Search
Home > Archive>Volume 47, Issue 1, 2018 >396-402
PDF HTML XML Export Cite reminder
Research overview on two phase micro deformation behavior of dual-phase material
Author:
Affiliation:

National Engineering Research Center for Equipment and Technology of Cold Strip Rolling,Yanshan University,National Engineering Research Center for Equipment and Technology of Cold Strip Rolling,Yanshan University,National Engineering Research Center for Equipment and Technology of Cold Strip Rolling,Yanshan University,National Engineering Research Center for Equipment and Technology of Cold Strip Rolling,Yanshan University

  • Article
    • | |
  • Metrics
    • |
  • Reference [56]
    • |
  • Related [20]
    • | | |
  • Comments
    Abstract:

    The particularity of dual-phase material microstructure makes its micro deformation behavior more complex than single phase material, and the complexity is expressed in stress-strain partitioning and coordination behaviors between two component phases with different properties during the deformation. Moreover, the factors affecting the micro deformation behavior are of multi-scale, therefore it is difficult to conduct quantitatively study at present, and the stress-strain behavior of single phase which is the basis to study the micro deformation behavior of two-phase material is also the hotspot at present. The investigation progress in the stress-strain behavior of single phase is summarized in this paper, and the methods for single-phase stress-strain behavior are introduced. Then the research on micro deformation behavior of dual-phase material from three aspects, which are experiment research, theory analysis and numerical simulation based on finite element method are reviewed. Further more, the drawback of each method is analyzed simply. Finally, several unsolved problems regarding the micro deformation behavior of dual-phase material are proposed.

    Reference
    [1] Zhao Yongqing(赵永庆), Chen Yongnan(陈永楠), Zhang Xuemin (张学敏) et al. Phase Transformation and Heat Treatment of Titanium Alloys(钛合金相变及热处理)[M]. Changsha: Central South University press, 2012: 10
    [2] Hao Luhan(郝露菡), Cong Yangyang(丛阳阳), Peng Yan(彭艳). Materials Science Technology[J], 2015, 23(5): 12
    [3] Cong Yangyang(丛阳阳). Simulation and Research About TC4 Alloy’s Rolling Process Based on Phase Change(基于相变的TC4钛合金轧制过程模拟计算与研究)[D]. Qinhuangdao: Yanshan University, 2014: 1
    [4] Wang Xiaolian(王晓莲). High Temperature Plastic Deformation Mechanism and Numberical Simulation on Titanium Rotary Piercing(钛合金斜轧穿孔过程高温塑性变形行为及数值模拟研究)[D]. Qinhuangdao: Yanshan University, 2015: 1
    [5] Soldatos D, Polymenakos L C. Archive of Applied Mechanics[J], 2015, 85(2): 237
    [6] Kim D H, Kim S J, Kim S H, et al. Acta Materialia[J], 2011, 59(14): 5462
    [7] Whittaker A S, Uang C M, Bertero V V. American Society of Civil Engineers[J], 2014, 115(1): 183
    [8] Wang S, Yu H, Zhou T, et al. Materials Design[J], 2015, 88: 847
    [9] Ruiz-Andres M, Conde A, Damborenea J D, et al. Tribology International[J], 2015, 92: 485
    [10] Nejadseyfi O, Shokuhfar A, Moodi V. Transactions of Nonferrous Metals Society of China[J], 2015, 25(8): 2571
    [11]Loginov Y N, Ovchinnikov A S. Metallurgist[J], 2015
    [12] Farabi E, Zarei-Hanzaki A, Abedi H R. Journal of Materials Engineering and Performance[J], 2015, 24(1): 209
    [13] Tsepin M A, Polyakov S M, Apatov K Y, et al. Tsvetnye Metally[J], 2005, (1): 67
    [14] Fu Bo(付波). Process, Microstructure and Mechanical Property of High-strength and High-toughness Multiphase Steels and Physical Simulation for Their Mutual Relationship(高强韧多相钢工艺、组织、性能及相互关系的物理模拟)[D]. Beijing: University of Science and Technology Beijing, 2015: 2
    [15] Bag A, Ray K K, Dwarakadasa E S. Metallurgical Materials Transactions A[J], 1999, 30(5): 1193
    [16] Byun T S, Kim I S. Journal of Materials Science[J], 1993, 28(11): 2923
    [17] Tomota Y. Materials Science Technology[J], 1987, 3(6): 415
    [18] Dong Yun(董允), Jia Yanqin(贾艳琴), Xu Lihong(徐立红). Journal of Hebei University of Technology(河北工业大学学报)[J], 2000, 29(1): 67
    [19] Jinoch J, Ankem S, Margolin H. Materials Science Engineering[J], 1978, 34(3): 203
    [20] Ankem S, Margolin H. Metallurgical Transactions A[J], 1982, 13(4): 595
    [21] Neti S, Vijayshankar M N, Materials Science Engineering A[J], 1991, 145(1): 47
    [22] Yang Qingxiang(杨庆祥), Wu Jing(吴晶), Zhao Hong(赵宏), et al. Transactions of Materials and Heat Treatment(材料热处理学报)[J], 2005, 26(5): 124
    [23] Zang Xinliang(臧新良), Zhao Xiqing(赵希庆), Park Joongkeun, et al. Rare Metal Materials and Engineering(稀有金属材料与工程)[J], 2009, 38(6): 1058
    [24] Dong H F, Li J, Zhang Y, et al. International Journal of Minerals Metallurgy Materials[J], 2010, 17(2): 173
    [25] Liu Zhao(刘钊). The Thermal Deformation Analysis and Simulation of Duplex Stainless Steel(双相不锈钢热变形模拟与分析)[D]. Qinhuangdao: Yanshan University, 2013: 41
    [26] Al-Abbasi F M. and Nemes J A. Materials Science Forum[J], 2003, 426-432(2): 1559
    [27] Ishikawa N, Parks D M, Socrate S, et al. ISIJ International[J], 2000, 40(11): 1170
    [28] Davies R G. Metallurgical Transactions A[J], 1978, 9(3): 451
    [29] Rodriguez R, Gutiérrez I. Materials Science Forum[J], 2003, 426-432(5): 4525
    [30] Swift H W. Journal of the Mechanics Physics of Solids[J], 1952, 1(1): 1
    [31] Al-Abbasi F M, Nemes J A. International Journal of Mechanical Sciences[J], 2003, 45(9): 1449
    [32] Tomota Y, Umemoto M, Komatsubara N, et al. ISIJ International[J], 1992, 32(3): 343
    [33] Kuang S, Kang Y L, Yu H, et al. International Journal of Minerals Metallurgy Materials[J], 2009, 16(4): 393
    [34] Wei Xing(魏兴), Fu Liming(付立铭), Liu Shichang(刘世昌), et al. Chinese Jouranal of Materials Research(材料研究学报)[J], 2013, 27(6): 665
    [35] Sodjit S, Uthaisangsuk V. Materials Design[J], 2012, 41: 370
    [36] Ramazani A, Mukherjee K, Prahl U, et al. Computational Materials Science[J], 2012, 52(1): 46
    [37] Vajragupta N, Uthaisangsuk V, Schmaling B, et al. Computational Materials Science[J], 2012, 54(1): 271
    [38] Zhou J M, Arun M G, Ashok G, et al. Materials Science and Engineering: A[J], 2015. 630: 107
    [39] Shen H P, Lei T C, Liu J Z. Materials Science and Technology[J], 1986, 2(1): 28
    [40] Rashid M S, Cprek E R. Formability topics-metallic materials, ASTM STP 647[C]. Philadelphia, P A: American Society for Testing and Materials, 1978: 174
    [41] Ghassemi-Armaki H, Maa? R, Bhat S P, et al. Acta Materialia[J], 2014, 62(5): 197
    [42] He Dong(何东). Micro-plastic Deformation Mechanism and Microstructure Envolution of Polycrystal-dual Phase Titanium Alloy(双相多晶钛合金微观塑性变形机理与组织演化的定量研究)[D]. Harbin: Harbin Institute of Technology, 2012: 61
    [43] Ishikawa N, Yasuda K, Sueyoshi H, et al. Acta Materialia[J], 2015, 97: 257
    [44] Jacques P J, Furnemont Q, Godet S, et al. Philosophical Magazine[J], 2006, 86(16): 2371
    [45] Muránsky O, ?ittner P, Zrník J, et al. Acta Materialia[J], 2008, 56(14): 3367
    [46] Tokuda H, Adachi Y, Wakita M, et al. Acta Materialia[J], 2004, 52(20): 5737
    [47] Balliger N K, Gladman T. Metal Science[J], 1981, 15(3): 95
    [48] Davies R G. Metallurgical Materials Transactions A[J], 1978, 9(1): 41
    [49] Tamura I, Tomota Y, Ozawa M. Inst Met (London) Monogr Rep Ser[J], 1973, 1(3): 611
    [50] Qin Qinghua(秦庆华), Yang Qingsheng(杨庆生). Macro-micro-theory on Multi-field Coupling Behavior of Heterogeneous Materials(非均匀材料多场耦合行为的宏细观理论)[M]. Beijing: Higher Education Press, 2006: 6
    [51] Socrate S, Boyce M C. Journal of the Mechanics Physics of Solids[J], 2000, 48(99): 233
    [52] Ankem S, Margolin H. Metallurgical Transactions A[J], 1982. 13(4): 603
    [53] Neti S, Vijayshankar M N, Ankem S. Materials Science Engineering A[J], 1991, 145(1): 55
    [54] Tvergaard V. International Journal of Fracture[J], 1982, 18(4): 237
    [55] Hosseini-Toudeshky H, Anbarlooie B, Kadkhodapour J, et al. Materials Science Engineering A[J], 2014, 600(2): 108
    [56] Hosseini-Toudeshky H, Anbarlooie B, Kadkhodapour J. Materials Design[J], 2015, 68: 167
    Cited by
    Comments
    Comments
    分享到微博
    Submit
Get Citation

[Chen Guoxing, Peng Yan, Liu Caiyi, Xing Pengda. Research overview on two phase micro deformation behavior of dual-phase material[J]. Rare Metal Materials and Engineering,2018,47(1):396~402.]
DOI:[doi]

Copy
Article Metrics
  • Abstract:1919
  • PDF: 1714
  • HTML: 153
  • Cited by: 0
History
  • Received:November 16,2015
  • Revised:March 18,2016
  • Adopted:March 29,2016
  • Online: February 07,2018

Total visitors:12682380

Address:96 weiyanglu, xi'an,Shaanxi, P.R.China Postcode:710016 ServiceTel:0086-26-86231117

E-mail:rmme@c-nin.com

Copyright:Rare Metal Materials and Engineering ® 2025 All Rights Reserved Support:Beijing E-Tiller Technology Development Co., Ltd. ICP: