Effect of material parameters on stress wave propagation during fast upsetting 被引量：1

Effect of material parameters on stress wave propagation during fast upsetting

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摘要 Based on a dynamic analysis method and an explicit algorithm,a dynamic explicit finite element code was developed for modeling the fast upsetting process of block under drop hammer impact,in which the hammer velocity during the deformation was calculated by energy conservation law according to the operating principle of hammer equipment.The stress wave propagation and its effect on the deformation were analyzed by the stress and strain distributions.Industrial pure lead,oxygen-free high-conductivity (OFHC) copper and 7039 aluminum alloy were chosen to investigate the effect of material parameters on the stress wave propagation.The results show that the stress wave propagates from top to bottom of block,and then reflects back when it reaches the bottom surface.After that,stress wave propagates and reflects repeatedly between the upper surface and bottom surface.The stress wave propagation has a significant effect on the deformation at the initial stage,and then becomes weak at the middle-final stage.When the ratio of elastic modulus or the slope of stress-strain curve to mass density becomes larger,the velocity of stress wave propagation increases,and the influence of stress wave on the deformation becomes small. Based on a dynamic analysis method and an explicit algorithm, a dynamic explicit finite element code was developed for modeling the fast upsetting process of block under drop hammer impact, in which the hammer velocity during the deformation was calculated by energy conservation law according to the operating principle of hammer equipment. The stress wave propagation and its effect on the deformation were analyzed by the stress and strain distributions. Industrial pure lead, oxygen-free high-conductivity （OFHC） copper and 7039 aluminum alloy were chosen to investigate the effect of material parameters on the stress wave propagation The results show that the stress wave propagates from top to bottom of block, and then reflects back when it reaches the bottom surface. After that, stress wave propagates and reflects repeatedly between the upper surface and bottom surface. The stress wave propagation has a significant effect on the deformation at the initial stage, and then becomes weak at the middle-final stage. When the ratio of elastic modulus or the slope of stress--strain curve to mass density becomes larger, the velocity of stress wave propagation increases, and the influence of stress wave on the deformation becomes small.

作者王忠金程利冬

机构地区 School of Materials Science and Engineering

出处《中国有色金属学会会刊：英文版》 EI CSCD 2008年第5期1189-1195,共7页 Transactions of Nonferrous Metals Society of China

关键词高速阀应力波物质粒子动力因数有限元 fast upsetting stress wave material parameter dynamic explicit finite element

分类号 TB302 [一般工业技术—材料科学与工程]

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参考文献4

1韩志军,程国强,马宏伟,张善元,王银邦（推荐）.弹塑性杆在刚性块轴向撞击下的动力屈曲[J].应用数学和力学,2006,27(3):337-341. 被引量：6
2孙宇新,张进,李永池,胡时胜,董杰.内爆加载下热塑性管壳的应力波演化与层裂效应研究[J].高压物理学报,2005,19(4):319-324. 被引量：4
3李永池,朱林法,胡秀章,袁福平,曹结东.粘塑性薄壁管中复合应力波的传播特性研究[J].爆炸与冲击,2003,23(1):1-5. 被引量：7
4许秀梅,张文志,宗加富.钢轨万能轧制过程的三维弹塑性有限元模拟研究[J].冶金设备,2004(6):1-3. 被引量：5

二级参考文献25

1Li Yongchi Huang Chengyi Yuan Fuping Jin Yongmei.A STUDY ON THE EFFECT OF RADIAL INERTIA ON THE ELASTO-PLASTIC COMBINED STRESS WAVE PROPAGATION IN THIN-WALLED TUBES[J].Acta Mechanica Solida Sinica,2001,14(1):58-66. 被引量：2
2马宏伟,韩强,张善元,杨桂通,武际可.受轴向冲击有限长弹性直杆中应力波引起的分叉问题[J].爆炸与冲击,1995,15(4):300-306. 被引量：7
3[1]Malvern L E. The propagation of longitudinal waves of plastic deformation in a bar of material exihibiting a strainrate effect[J]. J Appl Mech, 1951,18(2) :203-208.
4[2]Banerjee A K, Malvern L E. Computation of incremental torsional plastic waves with rate-dependent models[J]. Int J Solids Structures, 1975,11(4) :347-355.
5[3]Holmquist T J, Johnson G R, Cook W H. A computational constitutive model for concrete subjected to large strains, high strain rates and high pressures[A]. 14th Int Symp on Ballistics[C]. 1995:239-245.
6[6]Chu C H, Li Y C ,Wang X J. Numerical analysis of the spallation of steel target under the explosive loading[J].Applied Mathematics and Mechanics, 1981,2(4) :383-402.
7Lindberg H E.Impact buckling of a thin bar[J].Journal of Applied Mechanics,1965,32(2):315-322.
8朱兆祥见:余同希王大钧编.应力波引起的弹性结构屈曲准则[A].见:余同希,王大钧编.塑性力学和地球动力学文集[C].北京:北京大学出版社,1990.56-70.
9魏勇朱兆祥李永池.轴向冲击下载荷作用下直杆弹性动态屈曲研究[J].实验力学,1988,3(3):258-263.
10Ari-Cur J,Weller T,Singer J.Experimental and theoretical studies of columns under axial impact[J].Int J Solids Structures,1982,18(7):619-641.

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1万春友,马宝通,金鸿宾,王敬博,姚辉,卢艳东.外固定支架治疗合并髁部骨折的胫骨干复杂骨折[J].中华创伤杂志,2006,22(8):598-601. 被引量：14
2王安稳.刚体碰撞下直杆的塑性屈曲和后屈曲[J].固体力学学报,2007,28(1):20-24. 被引量：1
3李永池,王志海,邓世春.爆炸和冲击工程力学近期研究进展[J].中国科学技术大学学报,2007,37(10):1172-1180. 被引量：4
4程利冬,王忠金.动态镦粗过程的动力显式有限元分析[J].材料科学与工艺,2008,16(1):44-48. 被引量：1
5熊俊,周海兵,刘文韬,张树道,孙锦山.滑移爆轰驱动钢管的层裂[J].爆炸与冲击,2008,28(2):105-109.
6肖刚,李四平.直杆动力屈曲的计算机模拟[J].上海交通大学学报,2008,42(6):1005-1008. 被引量：2
7高密超,宗伟,田仲良,陈林,金自力,任慧平.重轨UR万能孔轧制腿高增长模型研究[J].内蒙古科技大学学报,2008,27(2):147-150. 被引量：1
8余永强,蔡鑫.控制爆破法处理深井卡钻事故[J].工程爆破,2009,15(1):31-34. 被引量：2
9万春友,马宝通,辛景义,金鸿宾,刘爱峰.内、外固定结合治疗合并髁部骨折的股骨干复杂骨折[J].中华创伤杂志,2009,25(4):322-325. 被引量：5
10刘鹤,洪慧平.60kg/m钢轨万能轧制过程有限元模拟研究[J].鞍钢技术,2009(6):33-36. 被引量：1

同被引文献14

1孙德强.产品脆值的数值计算方法[J].株洲工学院学报,2004,18(5):130-134. 被引量：2
2徐鹤飞,姚荣生.产品脆值测量[J].中国包装,1985(4):39-48.
3WEI Tong. Pressure-shear Stress Wave Analysis in Plate Im-pact Experiments[J]. International Journal of Impact Engineer- ing, 1996, 19(2) : 147-164.
4WANG Zhi-wei, JIANG Jiu-hong. Evaluation of Product Dropping Damage Based on Key Component[J]. Packaging Technology and Science, 2010,23 (4) : 227-238.
5JIANG Jiu-hong, WANG Zhi-wei. Dropping Damage Bound- ary Curves for Cubic and Hyperbolic Tangent Packaging Sys- tems Based on Key Component[J]. Packaging Technology and Science, 2011,25 (7) : 397-411.
6WANG Zhi-wei. Shock Spectra and Damage Boundary Curves for Non-linear Package Cushioning Systems[J]. Packaging Technology and Science, 1999,12(5) :207-217.
7宋宝丰.产品脆值概念的发展及其演进[J].包装工程,2008,29(5):22-24. 被引量：3
8王保升,郝洪艳,寇二刚.基于冲击响应谱的产品脆值描述与测试[J].包装工程,2008,29(12):27-29. 被引量：5
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10山静民.发泡聚苯乙烯缓冲系数的研究[J].西北轻工业学院学报,1990,8(3):14-18. 被引量：3

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7李岩.基于SolidWorks Simulation的矿灯电池盒设计[J].电子世界,2020,0(1):139-140. 被引量：3
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3彭少清.3Cr2W8V钢渗碳试验[J].模具制造,2004,4(8):71-71.
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5HAN Bao-yun.FE-Simulation of Technology of Upsetting 73×5.51 EU Tubing[J].Journal of Iron and Steel Research International,2001,8(2):23-27.
6Sun Huixue Hu Jinhua Shi Yanguo Yanshan University.ELASTO-PLASTIC FEM ANALYSIS OF CYLINDER UPSETTING BETWEEN TWO FLAT PLATENS[J].Chinese Journal of Mechanical Engineering,1999,12(1):46-50. 被引量：5
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中国有色金属学会会刊：英文版

2008年第5期

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