Previous Articles Next Articles
JI Ce1,2;HUANG Huagui1,2;SUN Jingna1,2;LIU Wenwen1,2
Online:
2019-08-10
Published:
2019-08-14
季策1,2;黄华贵1,2;孙静娜1,2;刘文文1,2
基金资助:
CLC Number:
JI Ce1,2;HUANG Huagui1,2;SUN Jingna1,2;LIU Wenwen1,2. Research Progresses on Cast-rolling Bonding Technology of Laminated Metal Clad Strips[J]. China Mechanical Engineering.
季策1,2;黄华贵1,2;孙静娜1,2;刘文文1,2. 层状金属复合板带铸轧复合技术研究进展[J]. 中国机械工程.
[1]徐涛. 金属层状复合材料的发展与应用[J]. 轻合金加工技术, 2012, 40(6): 7-10. XU Tao. Development and Application of Laminated-metal Composite[J]. Light Alloy Fabrication Technology, 2012, 40(6): 7-10. [2]张荻, 张国定, 李志强. 金属基复合材料的现状与发展趋势[J]. 中国材料进展, 2010, 29(4): 1-7. ZHANG Di, ZHANG Guoding, LI Zhiqiang. The Current State and Trend of Metal Matrix Composites[J]. Materials China, 2010, 29(4): 1-7. [3]刘晓涛, 张廷安, 崔建忠. 层状金属复合材料生产工艺及其新进展[J]. 材料导报, 2002, 16(7): 41-43. LIU Xiaotao, ZHANG Ting'an, CUI Jianzhong. Technology of Clad Metal Production and Its Latest Progress[J]. Materials Review, 2002, 16(7): 41-43. [4]刘环, 郑晓冉. 层状金属复合板制备技术[J]. 材料导报, 2012, 40(增刊2): 131-134. LIU Huan, ZHENG Xiaoran. The Manufacturing Technique of Clad Metals Sheet[J]. Materials Review, 2012, 40(S2): 131-134. [5]杨益航, 王德志, 林高用, 等. 层状功能材料的研究与发展[J]. 材料导报, 2011, 25(9): 10-13. YANG Yihang, WANG Dezhi, LIN Gaoyong, et al. Review in Research and Development of Laminated Functional Material[J]. Materials Review, 2011, 25(9): 10-13. [6]刘丽丽, 轩福贞. 拉伸载荷下304L/533B爆炸复合板界面损伤的原位观察[J]. 中国机械工程, 2016, 27(23): 3235-3240. LIU Lili, XUAN Fuzhen. In Situ Observation on Interfacial Damages of 304L/533B Explosive Weld Composite Steel Sheet under Tensile Loading[J]. China Mechanical Engineering, 2016, 27(23): 3235-3240. [7]余超, 吴宗河, 郭子楦,等. 热轧钛/钢复合板显微组织和性能[J]. 钢铁, 2018, 53(4): 42-47. YU Chao, WU Zonghe, GUO Zixuan, et al. Microstructure and Properties of Hot-rolled Bonded Titanium Clade Steel Plate[J]. Iron and Steel, 2018, 53(4): 42-47. [8]董伊康. 双金属复合带材固-液铸轧成形数值模拟及复合机理实验研究[D]. 秦皇岛: 燕山大学, 2016. DONG Yikang. Numerical Simulation and Experimental Research on Bonding Mechanism of Solid-liquid Cast-rolling of Bimetal Clad Strip[D]. Qinhuangdao: Yanshan University, 2016. [9]GRYDIN O, GERSTEIN G, NRNBERGER F, et al. Twin-roll Casting of Aluminum-steel Clad Strips[J]. Journal of Manufacturing Processes, 2013, 15(4): 501-507. [10]HUANG H G, DONG Y K, YAN M, et al. Evolution of Bonding Interface in Solid-liquid Cast-rolling Bonding of Cu/Al Clad Strip[J]. Transactions of Nonferrous Metals Society of China, 2017, 27(5): 1019-1025. [11]HUANG H G, CHEN P, JI C. Solid-liquid Cast-rolling Bonding (SLCRB) and Annealing of Ti/Al Cladding Strip[J]. Materials & Design, 2017, 118: 233-244. [12]VIDONI M, ACKERMANN R, RICHTER S, et al. Production of Clad Steel Strips by Twin-roll Strip Casting[J]. Advanced Engineering Materials, 2015, 17(11): 1588-1597. [13]MNSTER D, VIDONI M, HIRT G. Effects of Process Parameter Variation on the Bonding Strength in Clad Steel Strips by Twin-roll Strip Casting[J]. Materials Science Forum, 2016, 854: 124-130. [14]MNSTER D, ZHANG B, HIRT G. Processing of Clad Steel Strips Consisting of a High Manganese and Stainless Steel Pairing Produced by Twin-roll Casting[J]. Steel Research International, 2016, 87: 1-7. [15]张鹏, 曾大本, 崔建忠, 等. 钢-Al-28Pb复合板的半固态加工[J]. 清华大学学报(自然科学版), 2002(增刊1): 65-68. ZHANG Peng, ZENG Daben, CUI Jianzhong, et al. Semi-solid Processing of Steel-Al-28Pb Bonding Plate[J]. Journal of Tsinghua University (Science and Technology), 2002(S1): 65-68. [16]张鹏, 杜云慧, 曾大本, 等. 钢-Al-20Sn复合板的非均匀扩散复合研究[J]. 复合材料学报, 2002, 19(1): 46-49. ZHANG Peng, DU Yunhui, ZENG Daben, et al. Study on Steel-Al-20Sn Nonhomogeneous Diffusion Bonding[J]. Acta Materiae Compositae Sinica, 2002, 19(1): 46-49. [17]张华, 张鹏, 杜云慧, 等. 钢-半固态Al-7石墨复合界面特性[J]. 清华大学学报(自然科学版), 2004, 44(11): 1468-1470. ZHANG Hua, ZHANG Peng, DU Yunhui, et al. Interface Characteristics of Steel-mushy Al-7 Graphite Bonding[J]. Journal of Tsinghua University (Science and Technology), 2004, 44(11): 1468-1470. [18]CHEN G, LI J T, YU H L, et al. Investigation on Bonding Strength of Steel/Aluminum Clad Sheet Processed by Horizontal Twin-roll Casting, Annealing and Cold Rolling[J]. Materials & Design, 2016, 112: 263-274. [19]CHEN G, LI J T, XU G M. Bonding Process and Interfacial Reaction in Horizontal Twin-roll Casting of Steel/Aluminum Clad Sheet[J]. Journal of Materials Processing Technology, 2017, 246: 1-12. [20]路王珂, 谢敬佩, 王爱琴, 等. 退火温度对铜铝铸轧复合板界面组织和力学性能的影响[J]. 机械工程材料, 2014, 38(3): 14-17. LU Wangke, XIE Jingpei, WANG Aiqin, et al. Effects of Annealing Temperature on Interfacial Microstructure and Mechanical Properties of Cu/Al Roll-casted Composite Plate[J]. Materials for Mechanical Engineering, 2014, 38(3): 14-17. [21]路王珂, 谢敬佩, 王爱琴, 等. 铜铝复合板界面组织和性能研究[J]. 特种铸造及有色合金, 2014, 34(2): 198-200. LU Wangke, XIE Jingpei, WANG Aiqin, et al. Bonding Interface Structure and Properties of Copper and Aluminum Composite Plate[J]. Special-cast and Non-ferrous Alloys, 2014, 34(2): 198-200. [22]张衡, 谢敬佩, 尚郑平, 等. 铸轧法制备铜-铝-铜复合板的界面组织与性能[J]. 河南科技大学学报(自然科学版), 2015, 36(3): 1-5. ZHANG Heng, XIE Jingpei, SHANG Zhengping, et al. Bonding Interface Structure and Properties of Cu-Al-Cu Compound Plate Fabricated by Cast-rolled Process[J]. Journal of Henan University of Science and Technology(Natural Science), 2015, 36(3): 1-5. [23]张衡, 谢敬佩, 尚郑平, 等. 冷轧压下率对Cu/Al复合板界面和性能的影响[J]. 河南科技大学学报(自然科学版), 2015,36(1): 9-12. ZHANG Heng, XIE Jingpei, SHANG Zhengping, et al. Effects of Cold-rolling Reduction Ratio on Interface and Performance of Cu/Al Composite Plate[J]. Journal of Henan University of Science and Technology(Natural Science), 2015,36(1): 9-12. [24]黄华贵, 王巍, 季策, 等. 生产网状增强夹层复合材料的固液铸轧复合设备及方法:中国, ZL201510812235.5 [P]. 2016-02-03. HUANG Huagui, WANG Wei, JI Ce, et al. Solid-liquid Cast-rolling Compounding Device and Method for Producing Reticular Reinforcement Interlayer Composite Material: China, ZL201510-812235.5[P]. 2016-02-03. [25]HAGA T, SUZUKIB S. A Twin-roll Caster to Cast Clad Strip[J]. Journal of Materials Processing Technology, 2003, 138: 366-371. [26]HAGA T, TSUGE H, ISHIHARA T, et al. A Vertical Type Tandem Twin Roll Caster for Clad Strip Equipped with a Scraper[J]. Key Engineering Materials, 2014, 611/612: 623-628. [27]NAKAMURA R, YAMABAYASHI T, HAGA T, et al. Roll Caster for the Three-layer Clad-strip[J]. Archives of Materials Science and Engineering, 2010, 41(2): 112-120. [28]NAKAMURA R, HAGA T, KUMAI S, et al. Casting of Aluminium Alloy Clad Strip Using a Vertical Type Tandem Twin Roll Caster[C]∥Proceedings of the 36th International MATADOR Conference. London:Springer , 2010: 1053-1056. [29]KUMAI S, TAKAYAMA Y, NAKAMURA R, et al. Application of Vertical-type High-speed Twin-roll Casting for Up-grade Recycling and Clad Sheets Fabrication of Aluminum Alloys[J]. Materials Science Forum, 2016, 877: 56-61. [30]HARADA H, NISHIDA S I, SUZUKI M, et al. Direct Cladding from Molten Metals of Aluminum and Magnesium Alloys Using a Tandem Horizontal Twin Roll Caster[J]. Applied Mechanics & Materials, 2015, 772: 250-256. [31]沈启明. 双辊铸轧复合带材的数值模拟及实验研究[D]. 沈阳:东北大学, 2008: 22-45. SHEN Qiming. Numerical Simulation and Experimental Study of Twin Roll Strip Casting Compound Strip[D]. Shenyang: Northeastern University, 2008: 22-45. [32]黄华贵, 刘文文, 叶丽芬, 等. 采用单机双流连续铸轧双金属复合板带材的设备及方法:中国,ZL201310525144.4[P]. 2014-05-07. HUANG Huagui, LIU Wenwen, YE Lifen, et al. Equipment and Method Using Single-machine Dual-flow Continuous Cast-rolling Bimetallic Clad Strip: China, ZL201310525144.4[P]. 2014-05-07. [33]HAGA T, INUI H, WATARI H, et al. Casting of Al-Si Hypereutectic Aluminum Alloy Strip Using an Unequal Diameter Twin Roll Caster[J]. Journal of Materials Processing Technology, 2007, 191(1/3): 238-241. [34]XIAO H, QI Z, YU C, et al. Preparation and Properties for Ti/Al Clad Plates Generated by Differential Temperature Rolling[J]. Journal of Materials Processing Technology, 2017,249: 285-290. [35]叶丽芬. Cu/Al复合板单机双流铸轧复合界面多尺度模拟与实验研究[D]. 秦皇岛: 燕山大学, 2015. YE Lifen. Multi-scale Simulation and Experiment Research of Cu/Al Cladding Strip Bonding Interface in Single Facility Double Flow Cast-rolling Process[D]. Qinhuangdao: Yanshan University, 2015. [36]黄华贵, 燕猛, 季策, 等. 一种双金属复合板电脉冲固液铸轧设备及方法:中国,ZL201510040540.7[P]. 2015-05-27. HUANG Huagui, YAN Meng, JI Ce, et al. Double-metal Composite Plate Electric Pulse Solid-liquid Cast-rolling Device and Method: China, ZL201510040540.7[P]. 2015-05-27. [37]吕野楠, 许光明, 丁韧,等. 脉冲电流对5052铝合金铸轧板材组织的影响[J]. 轻合金加工技术, 2018,46(1): 9-13. LYU Yenan, XU Guangming, DING Ren, et al. Effect of Pluse Current in Roll Casting on the Microstructure of 5052 Aluminum Alloy Sheet[J]. Light Alloy Fabrication Technology, 2018,46(1): 9-13. [38]池慧. 双金属复合板带双辊连续铸轧制备工艺关键技术研究[D]. 秦皇岛: 燕山大学, 2013. CHI Hui. The Research on the Key Technologies of Cladding Strip Continuous Casting Process Using a Twin Roll Caster[D]. Qinhuangdao: Yanshan University, 2013. [39]张红安, 陈刚. 铜/铝复合材料的固-液复合法制备及其界面结合机理[J]. 中国有色金属学报, 2008, 18(3): 414-420. ZHANG Hong'an, CHEN Gang. Fabrication of Cu/Al Compound Materials by Solid-liquid Bonding Method and Interface Bonding Mechanism[J]. The Chinese Journal of Nonferrous Metals, 2008, 18(3): 414-420. [40]刘平, 刘腾, 王渠东. 固液双金属复合铸造研究进展[J]. 材料导报, 2014, 28(1): 26-30. LIU Ping, LIU Teng, WANG Qudong. Research Progress on Liquid-solid Bimetal Compound Casting[J]. Materials Review, 2014, 28(1): 26-30. [41]黄华贵, 季策, 董伊康, 等. Cu/Al复合带固-液铸轧热-流耦合数值模拟及界面复合机理[J]. 中国有色金属学报, 2016, 26(3): 623-629. HUANG Huagui, JI Ce, DONG Yikang, et al. Thermal-flow Coupled Numerical Simulation and Experimental Research on Bonding Mechanism of Cu/Al Composite Strip by Solid-liquid Cast-rolling[J]. The Chinese Journal of Nonferrous Metals, 2016, 26(3): 623-629. [42]GRYDIN O, SCHAPER M, STOLBCHENKO M. Comparison of Twin-roll Casting and High-temperature Roll Bonding for Steel-clad Aluminum Strip Production[C]∥TMS Light Metals 2015. Oberursel, 2015: 1225-1230. [43]黄华贵, 季策, 董伊康, 等. 双金属复合管固-液铸轧复合工艺环形布流器设计及其流场模拟[J]. 复合材料学报, 2016, 33(10): 2246-2252. HUANG Huagui, JI Ce, DONG Yikang, et al. Design and Flow Field Simulation of Annular Delivery Device for Solid-liquid Cast-rolling Bonding Process of Bimetallic Clad Pipe[J]. Acta Materiae Compositae Sinica, 2016, 33(10): 2246-2252. [44]黄华贵, 季策, 杜凤山. 双金属复合管固-液铸轧复合轧制力模型研究[J]. 机械工程学报, 2017, 53(10): 10-17. HUANG Huagui, JI Ce, DU Fengshan. Research on Cast-rolling Force Calculation Model in Solid-liquid Cast-rolling Bonding (SLCRB) Process of Bimetallic Clad Pipe[J]. Journal of Mechanical Engineering, 2017, 53(10): 10-17. [45]HUANG H G, JI Ce, YANG Z Q, et al. Implementation and Forming Mechanism of the Solid-liquid Cast-rolling Bonding (SLCRB) Process for Steel/Al Clad Pipes[J]. Journal of Manufacturing Processes, 2017, 30: 343-352. [46]JI Ce, HUANG H G, SUN J N. Process Window Prediction of Solid-liquid Cast-rolling Bonding (SLCRB) Process through Numerical Analysis to Fabricate Bimetallic Clad Pipes[J]. International Journal of Heat and Mass Transfer, 2018, 120: 1305-1314. [47]JI Ce, HUANG H G, SUN J N, et al. Experiment and Simulation Research on Bonding Mechanism of Bimetallic Clad Pipes Fabricated by Solid-liquid Cast-rolling Bonding (SLCRB) Process[J]. Journal of Manufacturing Processes, 2018, 34: 593-602. |
[1] | PENG Wenfei, ZHANG Cheng, LIN Longfei, HUANG Minghui, YU Feng. Modeling and Prediction of Central Damages in Cross Wedge Rolling Based on Continuous Damage Mechanics [J]. China Mechanical Engineering, 2024, 35(04): 711-720,751. |
[2] | ZHANG Wenjun, WANG Wenqi, ZHANG Xiaodong, LIN Wei, ZHANG Yandong, BAI Zhenhua, . Comprehensive Thickness Control Technology of 1180 MPa Grade Ultra-high Strength Steels in Cold Tandem Rolling [J]. China Mechanical Engineering, 2024, 35(02): 347-353,370. |
[3] | XIE Han, WANG Xiaokai, HAN Xinghui, HUA Lin, ZHANG Ke, ZHENG Gefei. Geometric State Comprehensive Control Method for Aerospace-oriented Thin-walled Conical Cylinders Roll-forming Processes [J]. China Mechanical Engineering, 2023, 34(23): 2873-2880. |
[4] | CAO Miaoyao, HU Han, LI Xiaozhao, SONG Pengfei, SUI Kuanpeng, FU Min, . Solid Granular Medium Forming Processes of Vacuum Interrupter Main Shielding [J]. China Mechanical Engineering, 2023, 34(08): 1000-1006. |
[5] | ZHANG Ke, WANG Xiaokai, HUA Lin, HAN Xinghui, NING Xiangjin, . Study on Offset Mechanism and Adaptive Fuzzy Control Method for Radial-axial Ring Rolling Processes of Super Large Rings [J]. China Mechanical Engineering, 2023, 34(01): 109-117. |
[6] | LIU Yaxing, GU Qing, QIAN Cheng, BAI Zhenhua , . Feedforward Control Technology for Flatness and Sectional Shape of Ultra-high Strength Steel in Six-stand Tandem Cold Mill [J]. China Mechanical Engineering, 2021, 32(24): 2981-2988. |
[7] | SHEN Hongzhuo, LIU Yuanming, LIU Yanxiao, WANG Tao, LIU Yanping, . Simulation of Corrugated Rolling of Mg/Al Composite Plates and Analysis of Microstructure Evolution in Deformation Zone [J]. China Mechanical Engineering, 2021, 32(22): 2731-2738. |
[8] | ZHANG Xinyan, WANG Ying, HU Pengke, WANG Rui, SHU Xuedao. Design and Experiments of Rotary-cutting Forming Devices for Tapered End Blanks [J]. China Mechanical Engineering, 2021, 32(17): 2100-2107. |
[9] |
LIANG Yu;WANG Tao;REN Zhongkai;HAN Jianchao;JIA Yi;HUANG Qingxue.
Effects of Carbon Steel Chips Density on Properties of Stainless Steel/Carbon Steel Chips Composite Plates
[J]. China Mechanical Engineering, 2021, 32(02): 212-219,226.
|
[10] | ZHANG Dazhi, GUAN Mingsheng, ZHANG Qingdong, WANG Aiguo, ZHOU Xinliang. Simulation of Deformation Behaviors and Laws of Steel Pipes in Rolling Processes of Retained Mandrel Pipe Mills [J]. China Mechanical Engineering, 2020, 31(22): 2691-2698. |
[11] | LIU Yuanming, WANG Zhenhua, WANG Tao, LIU Wenli, XIONG Xiaoyan. Data-driven Modeling and Intelligent Prediction Analysis for Hot Strip Outlet Crowns [J]. China Mechanical Engineering, 2020, 31(22): 2728-2733. |
[12] |
HE Fei1,2;DU Xuefei1,2;WANG Chaojun1,2.
Root Cause Diagnosis of Head Narrowing in Hot Rolled Strip Based on Comparative Granger Causality
[J]. China Mechanical Engineering, 2020, 31(19): 2340-2346.
|
[13] | YU Hailiang, . Progresses in Fabrication of High-performance Metals by Using Cryorolling [J]. China Mechanical Engineering, 2020, 31(01): 89-99. |
[14] | LI Yanwei;WANG Xiaogang;LI Yugui;HAN Peisheng. Hot Rolling Clad Symmetrical Billet for Producing High-chromiun Cast Iron/Low-carbon Steel Wear Resistant Composite Boards [J]. China Mechanical Engineering, 2018, 29(11): 1364-1368,1374. |
[15] | BAI Zhenhua1,2;ZHAO Weiquan1;ZHANG Miaoxing1;LI Boyang1;LIU Yaxing1;GUO Zhensheng3. A Shape Prediction Model of Eight-high Rolling Mills and Its Applications [J]. China Mechanical Engineering, 2018, 29(04): 493-498. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||