·80· 工程科学学报，第39卷，第1期 验得到的力学性能参数与优化的结果较为接近，证明 GA-lI algorithm.J Hunan Unig Nat Sci,2011,38(6):27 优化结果可靠 (李伟平，王世东，周兵，等.基于响应面法和NSCA-Ⅱ算 法的麦弗逊悬架优化.湖南大学学报（自然科学版）.2011， 参考文献 38(6):27) [1]Ding X Q,He G Q,Chen C S,et al.Advance in studies of 6000 [11]Kim J H,Lee C S,Kim M H,et al.Prestrain-dependent visco- aluminum alloy for automobile.J Mater Sci Eng,2005,23(2): plastic damage model for austenitic stainless steel and implemen- 302 tation to ABAQUS user-defined material subroutine.Compu (丁向群，何国求，陈成澍，等.6000系汽车车用铝合金的研 Mater Sci,2013,67:273 究应用进展.材料科学与工程学报，2005,23(2)：302) [12]Fan X B,He Z B,Yuan S J,et al.Investigation on strengthe- [2]Shi L,Yang H,Guo LG,et al.Constitutive modeling of deform- ning of 6A02 aluminum alloy sheet in hot forming-quenching inte- ation in high temperature of a forging 6005A aluminum alloy. grated process with warm forming-dies.Mater Sci Eng A,2013, 587:221 Mater Des,2014,54:576 [3]El Mehtedi M,Musharavati F,Spigarelli S.Modelling of the flow [13]Fan X B,He Z B,Yuan S J,et al.Experimental investigation behaviour of wrought aluminium alloys at elevated temperatures by on hot forming-quenching integrated process of 6A02 aluminum a new constitutive equation.Mater Des,2014,54:869 alloy sheet.Mater Sci Eng A,2013,573:154 [4]Sajjadi S A,Ezatpour H R,Parizi M T.Comparison of micro- [14]Mohamed M S,Foster A D,Lin J G,et al.Investigation of de- structure and mechanical properties of A356 aluminum alloy/ formation and failure features in hot stamping of AA6082:Exper- AlO composites fabricated by stir and compo-casting processes. imentation and modelling.Int J Mach Tools Manuf,2012,53 Mater Des,2012,34:106 (1):27 [5]Passarini F,CiacciL,Santini A,et al.Aluminium flows in vehi- [15]Ma W Y,Wang B Y,Bian J H,et al.A new damage constitu- cles:enhancing the recovery at end-of-life.Mater Cycles Waste tive model for thermal deformation of AA6111 sheet.Metall Manage,2014,16(1):39 Mater Trans A,2015,46(6):2748 [6]Karakoyun F,Kiritsis D,Martinsen K.Holistic life cycle ap- [16]Ma W Y,Wang B Y,Yang L,et al.Influence of solution heat proach for lightweight automotive components.Metall Res Technol, treatment on mechanical response and fracture behaviour of alu- 2014,111(3):137 minium alloy sheets:an experimental study.Mater Des,2015, [7]Ma W Y,Wang B Y,Fu L,et al.Influence of process parameters 88:1119 on deep drawing of AA6111 aluminum alloy at elevated tempera- [17]Lei D M,Yan X P.Multiple Objective Intelligent Optimization Al- tures.J Cent South Unir,2015,22(4):1167 gorithms and Application.Beijing:Science Press,2009 [8]Kousha M,Tavakoli S,Daneshvar E,et al.Central composite de- (雷德明，严新平.多目标智能优化算法及其应用.北京：科 sign optimization of Acid Blue 25 dye biosorption using shrimp 学出版社，2009) shell biomass.J Mol Lig,2015,207:266 [18]Deb K.Pratap A,Meyarivan T.A fast and elitist multi-objective [9]Huang X R.Application of Response Suface Methodology on Bio- genetie algorithm:NSGA-II.IEEE Trans Ecol Comput,2002.6 logical Process Optimization Dissertation ]Changsha:Hunan (2):182 University,2011 [19]Zhuang HH,Zhang Y H,Ying S Q.Requirement of car body (黄新仁.响应面法在生物过程优化中的应用[学位论文】 structural characteristic on material performance.Automob 长沙：湖南大学，2011) Technol Mater,2011(2):45 [10]Li W P,Wang S D.Zhou B,et al.Macpherson suspension pa- (庄华晔，张义和，应善强。轿车车身结构特性及其对材料 rameter optimization based on response surface method and NS- 性能要求.材料应用，2011(2)：45)工程科学学报,第 39 卷,第 1 期 验得到的力学性能参数与优化的结果较为接近,证明 优化结果可靠. 参 考 文 献 [1] Ding X Q, He G Q, Chen C S, et al. Advance in studies of 6000 aluminum alloy for automobile. J Mater Sci Eng, 2005, 23(2): 302 (丁向群, 何国求, 陈成澍, 等. 6000 系汽车车用铝合金的研 究应用进展. 材料科学与工程学报, 2005, 23(2): 302) [2] Shi L, Yang H, Guo L G, et al. Constitutive modeling of deform鄄 ation in high temperature of a forging 6005A aluminum alloy. Mater Des, 2014, 54: 576 [3] El Mehtedi M, Musharavati F, Spigarelli S. Modelling of the flow behaviour of wrought aluminium alloys at elevated temperatures by a new constitutive equation. Mater Des, 2014, 54: 869 [4] Sajjadi S A, Ezatpour H R, Parizi M T. Comparison of micro鄄 structure and mechanical properties of A356 aluminum alloy / Al2O3 composites fabricated by stir and compo鄄casting processes. Mater Des, 2012, 34: 106 [5] Passarini F, Ciacci L, Santini A, et al. Aluminium flows in vehi鄄 cles: enhancing the recovery at end鄄of鄄life. J Mater Cycles Waste Manage, 2014, 16(1): 39 [6] Karakoyun F, Kiritsis D, Martinsen K. Holistic life cycle ap鄄 proach for lightweight automotive components. Metall Res Technol, 2014, 111(3): 137 [7] Ma W Y, Wang B Y, Fu L, et al. Influence of process parameters on deep drawing of AA6111 aluminum alloy at elevated tempera鄄 tures. J Cent South Univ, 2015, 22(4): 1167 [8] Kousha M, Tavakoli S, Daneshvar E, et al. Central composite de鄄 sign optimization of Acid Blue 25 dye biosorption using shrimp shell biomass. J Mol Liq, 2015, 207: 266 [9] Huang X R. Application of Response Surface Methodology on Bio鄄 logical Process Optimization [ Dissertation ]. Changsha: Hunan University, 2011 (黄新仁. 响应面法在生物过程优化中的应用[学位论文]. 长沙: 湖南大学, 2011) [10] Li W P, Wang S D, Zhou B, et al. Macpherson suspension pa鄄 rameter optimization based on response surface method and NS鄄 GA鄄鄄域 algorithm. J Hunan Univ Nat Sci, 2011, 38(6): 27 (李伟平, 王世东, 周兵, 等. 基于响应面法和 NSGA鄄鄄 域算 法的麦弗逊悬架优化. 湖南大学学报(自然科学版), 2011, 38(6): 27) [11] Kim J H, Lee C S, Kim M H, et al. Prestrain鄄dependent visco鄄 plastic damage model for austenitic stainless steel and implemen鄄 tation to ABAQUS user鄄defined material subroutine. Comput Mater Sci, 2013, 67: 273 [12] Fan X B, He Z B, Yuan S J, et al. Investigation on strengthe鄄 ning of 6A02 aluminum alloy sheet in hot forming鄄quenching inte鄄 grated process with warm forming鄄dies. Mater Sci Eng A, 2013, 587: 221 [13] Fan X B, He Z B, Yuan S J, et al. Experimental investigation on hot forming鄄quenching integrated process of 6A02 aluminum alloy sheet. Mater Sci Eng A, 2013, 573: 154 [14] Mohamed M S, Foster A D, Lin J G, et al. Investigation of de鄄 formation and failure features in hot stamping of AA6082: Exper鄄 imentation and modelling. Int J Mach Tools Manuf, 2012, 53 (1): 27 [15] Ma W Y, Wang B Y, Bian J H, et al. A new damage constitu鄄 tive model for thermal deformation of AA6111 sheet. Metall Mater Trans A, 2015, 46(6): 2748 [16] Ma W Y, Wang B Y, Yang L, et al. Influence of solution heat treatment on mechanical response and fracture behaviour of alu鄄 minium alloy sheets: an experimental study. Mater Des, 2015, 88: 1119 [17] Lei D M, Yan X P. Multiple Objective Intelligent Optimization Al鄄 gorithms and Application. Beijing: Science Press, 2009 (雷德明, 严新平. 多目标智能优化算法及其应用. 北京: 科 学出版社, 2009) [18] Deb K, Pratap A, Meyarivan T. A fast and elitist multi鄄objective genetic algorithm: NSGA鄄鄄II. IEEE Trans Evol Comput, 2002, 6 (2): 182 [19] Zhuang H H, Zhang Y H, Ying S Q. Requirement of car body structural characteristic on material performance. Automob Technol Mater, 2011(2): 45 (庄华晔, 张义和, 应善强. 轿车车身结构特性及其对材料 性能要求. 材料应用, 2011(2): 45) ·80·