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· Experimental and simulation study on early failure of hot forging mold… Yan Tao1, Tang Tianyue2, Qi Haisheng1, Qiao Jinfang1, Yang Zhiyong2 2024 ,49(6):197-207
· Friction characteristics and microstructure of 7075-T6 aluminum alloy … Qian Haixu1, Xia Jiansheng1,2, Dou Shasha1, Liu Rongtao1, Zhu Chunyu1, Zhu Yunfei1 2024 ,49(6):208-214
· Study on heat treatment and microstructure and properties of 1Cr16Ni4M… Su Ning1, Liu Fengjun1, Li Yuechao2 2024 ,49(6):215-220
· Study on middle temperature deformation behavior of solid-solution 705… Li Yan1,2, Pan Chenghai3, Teng Haihao3, Wang Jing1, Liang Qiang1 2024 ,49(6):221-226
· Thermal deformation and dynamic recrystallization behavior of new Fe-2… Wei Hailian1,2,Deng Xiaoju2,Cai Yong2,Peng Haodong2,Wang Jian2,Duan Qiang1,Pan Hongbo3 2024 ,49(6):227-238
· Constitutive relationship and microstructure evolution of Al-8.79Zn-2… Zhuang Dayong,Ren Dawei,Li Yang,Pan Hongwei,Feng Xiang,Zhou Lili 2024 ,49(6):239-248
· Influence of deformation amount on microstructure and mechanical prope… Zeng Jing1,Li Changmin1,Gao Lei1,Zhang Xin1,Mo Anjun1,Li Wenqiang1, Wang Xiaowei2,Wang Deyong2 2024 ,49(6):249-254
· Experimental investigation on steady state contact heat transfer coeff… Zhao Jutao1,Zhang Liwen1,Zhang Chi1,Ding Haochen1,Ma Yi1,Yun Xinbing2 2024 ,49(6):255-259
· Research on rotary-torsion low-stress precision blanking mechanism bas… Li Pengwei1,Wang Zhe1,Yu Zhengyang2 2024 ,49(6):260-268
· Research progress on roll-bending process of four-roll plate rolling … [1]仉志强, 宋建丽, 付建华,等. 板材弯卷成形工艺的研究现状 [J]. 塑性工程学报, 2014, 21(1): 1-6,84. Zhang Z Q, Song J L, Fu J H, et al. Research status of plate bending and roll-bending process [J]. Journal of Plasticity Engineering, 2014, 21(1): 1-6,84. [2]Shinkin N V. Asymmetric three-roller sheet-bending systems in steel-pipe production [J]. Steel in Translation, 2017, 47(4): 235-240. [3]李永堂, 梁涛, 雷步芳,等. 我国大型卷板机研究现状和发展趋势 [J]. 锻压装备与制造技术, 2020, 55(5): 15-19. Li Y T, Liang T, Lei B F, et al. Research status and developing trend of large plate bending machine [J]. China Metalforming Equipment & Manufacturing Technology, 2020, 55(5): 15-19. [4]黄春峰. 圆锥筒形零件的压力加工成形 [J]. 航空制造技术, 2003,(4): 92-93. Huang C F. Pressure forming of conical part [J]. Aeronautical Manufacturing Technology, 2003,(4): 92-93. [5]何雪婷, 王玉华, 朱富慧,等. 板材弯卷成形技术的研究进展 [J]. 模具技术, 2017,(6): 55-60. He X T, Wang Y H, Zhu F H, et al. Research progress of plate roll-bending processes [J]. Die and Mould Technology, 2017,(6): 55-60. [6]Hadic' N, Keran Z, Hadjina M, et al. Analysis of elastic-plastic steel plates forming based on typical shipyard′s roller bending machine [J]. Ocean Engineering, 2019, 190: 106438. [7]邢伟荣. 卷板机的现状与发展 [J]. 锻压装备与制造技术, 2010, 45(2): 10-16. Xing W R. Status and development of the bending machine for plate [J]. China Metalforming Equipment & Manufacturing Technology, 2010, 45(2): 10-16. [8]Zhang Z Q, Song J L, Fu J H, et al. A refined model of three-roller elastoplastic asymmetrical pre-bending of plate [J]. Journal of Iron and Steel Research:International, 2014, 21(3): 328-334. [9]Cai Z Y, Lan Y W. Analysis on the straight-end problem in thin-plate three-roll bending [J]. Applied Mechanics & Materials, 2011, 80-81: 585-590. [10]Hua M, Sansome D H, Rao K P, et al. Continuous four-roll plate bending process: Its bending mechanism and influential parameters [J]. Journal of Materials Processing Technology, 1994, 45(1-4): 181-186. [11]Hua M, Baines K, Cole I. Bending mechanisms, experimental techniques and preliminary tests for the continuous four-roll plate bending process [J]. Journal of Materials Processing Technology, 1995, 48(1-4): 159-172. [12]肖善超, 姚久军, 沙心勇. 四辊卷板机侧辊位移计算模型研究 [J]. 一重技术, 2017,(4): 48-51,72. Xiao S C, Yao J J, Sha X Y. Mathematical model for side roller displacement calculation of 4-roller plate benders [J]. CFHI Technology, 2017,(4): 48-51,72. [13]李建, 陈举庆, 姚久军. 四辊卷板机弯卷工艺及辊位移计算模型 [J]. 一重技术, 2015,(3): 1-5,44. Li J, Chen J Q, Yao J J. Modeling and computation of the four-roller bending process and roller displacement [J]. CFHI Technology,2015,(3): 1-5,44. [14]周迟. 四辊卷板成形工艺技术研究 [D]. 南京: 南京理工大学, 2018. Zhou C. Research on Four-roll Plate Bending and Forming Technology [D]. Nanjing: Nanjing University of Science and Technology, 2018. [15]陈德道, 杨晋, 安虎平. 四辊卷板机侧辊工艺位移计算模型的研究[J]. 锻压装备与制造技术, 2015, 50 (3): 44-48. Chen D D, Yang J, An H P. Study on calculation model of process displacement for side rollers in four-roll plate bending machine[J]. China Metalforming Equipment & Manufacturing Technology, 2015, 50 (3): 44-48. [16]Hua M. The Mechanics of Continuous Roller Bending of Plates [D]. Birmingham: University of Aston, 1986. [17]Leacock G A, McCracken D, Brown D, et al. Numerical simulation of the four roll bending process [J]. Materials and Manufacturing Processes, 2012, 27(4): 370-376. [18]赵军, 徐常富. 对称式四辊卷圆工艺方法及装置 [P]. 中国:CN104324988B, 2016. Zhao J, Xu C F. Symmetrical four-roll circular rolling process method and device [P]. China: CN104324988B, 2016. [19]Cao H Q, Yu G C, Yang C F, et al. Research on a control strategy of the symmetrical four-roller bending process based on experiment and numerical simulation [J]. Symmetry, 2021, 13(6): 940. [20]Yu G C, Zhao J, Xu C F. Development of a symmetrical four-roller bending process [J]. The International Journal of Advanced Manufacturing Technology, 2019, 104(9-12): 4049-4061. [21]Hua M, Cole I M, Baines K, et al. A formulation for determining the single-pass mechanics of the continuous four-roll thin plate bending process [J]. Journal of Materials Processing Technology, 1997, 67(1): 189-194. [22]Hua M, Sansome D H, Baines K. Mathematical modeling of the internal bending moment at the top roll contact in multi-pass four-roll thin-plate bending [J]. Journal of Materials Processing Technology, 1995, 52(2): 425-459. [23]苏传德. 卷板机电机驱动功率的计算[J]. 山东冶金, 1999, (3): 44-45. Su C D. Calculation of motor driven power of coiling plate machine[J]. Shandong Metallurgy, 1999, (3): 44-45. [24]Salem J, Champliaud H, Feng Z, et al. Experimental analysis of an asymmetrical three-rol 2024 ,49(5):1-12
· Influence of forging conditions on microstructure of high strength bui… Guo Zhengxuan1, Li Ziliang2 2024 ,49(5):13-16
· A forming process of end flange cup-shaped part for H13 steel Zhang Chao1, Sun Hongxing1,2, Wang Tao1, Wang Jinbao3, Liu Guanghui1, Liu Hua1 2024 ,49(5):17-23
· Low constraint fluid-assisted forming law for GLARE complex section c… Wang Yao1,2,3,4, Niu Xuchang1, Cheng E1, Zhang Yunhua5, Zheng Sifa2, Zhao Libin1,4,6, Hu Ning1,3,4 2024 ,49(5):24-35
· Optimization of spoke stamping process and wrinkle control method Zhao Shuai1, Shi Guanglin1, Wang Wenfeng1, Yu Wenyan2, Peng Jin2, He Shiming1, Peng Weijie1 2024 ,49(5):36-44
· Cold stamping performance for complex components of ultra-high stren… Li Bing1,Xu Feiyue1,Zhang Peng1,Zhang Hongxia1,Wang Min1,2 2024 ,49(5):45-52
· Effect of warm forming on mechanical behavior and microstructure evol… Zhang Peng1,Xu Feiyue1,Li Bing1,Wang Min1,2,Yu Min1 2024 ,49(5):53-60
· Research on laser bending process and microstructure for Ti2AlNb rolle… Jiang Senbao, Wang Yusheng, Chen Yao, Rong Jian, Pu Rongsen, Mao Di 2024 ,49(5):61-66
· Springback analysis and compensation on aluminum alloy door outer pan… Wang Qiang, Zhou Weiguo, Wu Er, Fu Jiayan 2024 ,49(5):67-75
· Analysis on drawing self-excited vibration equation and its numerical … Cao Yizhong1, 2,Yuan Hao1,Ha Da1, 2,Zhang Weirong1, 2,Feng Jingang1, 2 2024 ,49(5):76-83
· Research and calculation on structure strength for flat extrusion cyli… Su Fang1,2,Wang Xiaoguo1,2,Ma Shiqiang1,2 2024 ,49(5):84-91
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