锻压技术

4道次热轧工艺对316不锈钢包覆45钢屑复合板性能的影响

英文标题：Effect of four-pass hot rolling process on performance of 316 stainless steel clad 45 steel chip composite plate

作者：毛志刚董洁李明

分类号：TG146

出版年,卷(期):页码：2021,46(8):239-243

摘要：

以316不锈钢作为覆层、以45钢屑作为基层，综合运用真空加热以及热轧处理技术制备得到不锈钢包覆钢屑复合板，并设计了不同的工艺参数条件，对各工艺条件下热轧制得的复合板进行测试。研究结果表明：经过4道次热轧处理后,复合板的长度达到原来的近4倍，形成了更高密度的钢屑层；经过3道次以上的热轧处理后，复合板的抗剪强度达到220 MPa以上，结合实际生产，热轧3道次便可以制备得到符合强度性能要求的复合板，从而显著降低生产成本。当热轧温度为1100 ℃ 时，形成了相互分离的夹杂物区域，不锈钢与钢屑层形成了冶金结合的状态。随着晶粒尺寸的增加，不锈钢层和钢屑层之间发生了冶金结合程度的变化，同时降低了复合板的塑性与伸长率。综合确定1100 ℃属于不锈钢包覆钢屑的最佳热轧温度，在该温度下能够制备得到力学性能最优的复合板。该研究对提高不锈钢包覆钢屑热轧的复合效果具有很好的实际指导意义。

With the stainless steel as the cladding and the 45 steel chips as the base, the stainless steel clad steel chip composite plate was prepared by comprehensively using vacuum heating and hot rolling treatment technology, and different process parameter conditions were designed, and then the composite plates prepared under various process conditions were

tested. The study results show that the length after four passes of hot rolling reaches nearly four times of the original, which forms a layer of steel chip with higher density, and after more than three passes of hot rolling, the shear strength of the composite plate can reach the requirement of 220 MPa or more. Combining with the actual production, the composite plate meeting the strength performance requirements can be prepared in three passes of hot rolling, which significantly reduces the cost of production. Moreover, when the temperature is 1100 ℃, separate inclusion regions are formed, and the state of metallurgical bonding is formed by the layers of stainless steel and steel chip. With the increasing of grain size, the degree of metallurgical bonding between the layers of stainless steel and steel chip is changed, at the same time the plasticity and elongation of the composite plate are reduced. Finally, it is comprehensively determined that 1100 ℃ belongs to the best hot rolling temperature of stainless steel clad steel chip, and the composite plate with the best mechanical properties can be prepared at this temperature, which has a very good practical guiding significance for improving the composite effect of hot rolling for stainless steel clad steel chip.

基金项目：

河南省科技攻关项目（162102210016）

毛志刚（1970-），男，学士，高级讲师 E-mail：mani35102097@163.com

参考文献：

［1］季策，黄华贵，孙静娜，等. 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，2019，30(15): 1873-1881.

Ji C，Huang H G，Sun J N，et al. Research progress on casting and rolling technology of laminated metal laminates
［J］. China Mechanical Engineering，2019，30(15): 1873-1881.

［2］Liu B X，Yin F X，Dai X L，et al. The tensile behaviors and fracture characteristics of stainless steel clad plates with different interfacial status
［J］. Materials Science & Engineering A，2017，679: 172-182.

［3］Zina D，Noamen G，Ktari A，et al. Mechanical bonding properties and interfacial morphologies of austenitic stainless steel clad plates
［J］. Materials Science & Engineering A，2017，696: 374-386.

［4］Yu T，Jing Y，Yan X L，et al. Microstructures and properties of roll-bonded stainless/medium carbon steel clad plates
［J］. Journal of Materials Processing Tech.，2019，266: 264-273.

［5］王爽，刘爱民，郑燕，等. 316/Q245R 爆炸复合板结合区缺陷研究及相分析
［J］. 压力容器，2014，(4): 20-24.

Wang S，Liu A M，Zheng Y，et al. Study on the defects and phase analysis in the bonding zone of 316/Q245R explosive cladding plate
［J］. Pressure Vessel，2014，(4): 20-24.

［6］许秀梅，解芃芃，肖宏，等. 热轧工艺对不锈钢包覆铁屑复合板性能的影响
［J］. 钢铁，2016，51(9): 57-62.

Xu X M，Xie P P，Xiao H，et al. Influence of hot rolling process on properties of stainless steel clad with iron chip
［J］. Iron and Steel，2016，51(9): 57-62.

［7］张心金，祝志超，刘会云. 热轧不锈钢复合板界面组织与拉伸断裂的研究
［J］. 武汉科技大学学报， 2017，40(6): 408-414.

Zhang X J，Zhu Z C，Liu H Y. Study on interfacial microstructure and tensile fracture of hot rolled stainless steel laminates
［J］. Journal of Wuhan University of Science and Technology，2017，40(6): 408-414.

［8］王大伟，胡熙玉，郝延平. 热处理对 Q245R/06Cr19Ni10 复合钢板性能的影响
［J］. 金属热处理，2019，44(6): 159-161.

Wang D W，Hu X Y，Hao Y P. Effect of heat treatment on properties of Q245R/06Cr19Ni10 composite steel plate
［J］. Heat Treatment of Metals，2019，44(6): 159-161.

［9］Mastanaiah P，Madhusudhan R G，Satya P K，et al. An investigation on microstructures and mechanical properties of explosive cladded C103 niobium alloy over C263 nimonic alloy
［J］. Journal of Materials Processing Technology，2014，214(11): 2316-2324.

［10］肖丰强，王东坡，胡文彬，等. 终轧温度对2205/Q235B双相不锈钢复合板组织和性能的影响
［J］. 材料导报，2020，34(16): 16119-16124.

Xiao F Q，Wang D P，Hu W B，et al. Effect of finishing temperature on microstructure and properties of 2205/Q235B dual-phase stainless steel clad plate
［J］. Materials Review，2020，34(16): 16119-16124.

［11］张孝，彭文飞，束学道，等. 工艺参数对楔横轧42CrMo/Q235层合轴复合界面显微硬度的影响
［J］. 中南大学学报：自然科学版，2020，51(1): 94-102.

Zhang X，Peng W F，Shu X D，et al. Effect of process parameters on microhardness of 42CrMo/Q235 laminated shaft composite interface in cross wedge rolling
［J］. Journal of Central South University：Science and Technology，2020，51(1): 94-102.

［12］刘玉洁，蒋显全，佘欣未，等. 固溶处理冷却方式对Cu/Al复合板界面微观组织的影响
［J］. 材料导报，2020，34(10): 10132-10137.

Liu Y J，Jiang X Q，She X W，et al. Effect of solution treatment cooling mode on interfacial microstructure of Cu/Al composite plates
［J］. Materials Review，2020，34(10): 10132-10137.

［13］彭治力，颜家维，唐靖钊，等. 电流辅助累积叠轧镁/铝层状复合板的微观形貌及力学性能
［J］. 机械工程材料，2019，43(12): 1-6.

Peng Z L，Yan J W，Tang J Z，et al. Microstructure and mechanical properties of magnesium/aluminum laminated by current assisted cumulative rolling
［J］. Materials for Mechanical Engineering，2019，43(12): 1-6.

［14］金贺荣，韩民峰，段昌新. 压下率对316L/EH40复合板界面微观形貌的影响
［J］. 钢铁，2019，54(12): 62-69.

Jin H R，Han M F，Duan C X. Effect of reduction rate on interface microstructure of 316L/EH40 composite plates
［J］. Iron and Steel，2019，54(12): 62-69.

［15］刘会云，何毅，何冰冷，等. 热处理对热轧不锈钢复合板组织性能的影响
［J］. 材料热处理学报，2016，37(7): 106-110.

Liu H Y，He Y，He B L，et al. Effect of heat treatment on microstructure and properties of hot rolled stainless steel clad plate
［J］. Journal of Materials and Heat Treatment，2016，37(7): 106-110.

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