轧制温度对TA1/Q345复合板性能的影响

Effect of rolling temperature on the properties of TA1/Q345 composite plates

  • 摘要: 相对于爆炸复合法和爆炸轧制复合法而言,采用真空-轧制生产钛钢复合板的方法更加适应大规模生产需要.本实验将TA1钛材置于两块Q345钢材中间组成组合坯,组合坯经抽真空至0.1 Pa后密封,在840~930℃下进行加热轧制,对轧制复合样进行力学性能检测,并利用扫描电镜、X射线衍射分析及显微硬度仪对组织与界面结合度进行分析.在该实验条件下,钛钢复合板剪切强度在159 MPa以上,达到了1类复合板标准要求,870℃轧制复合板性能较优.900和930℃轧制时,钛发生相变,同时在界面处生成了较多的金属问化合物,钛和钢的变形抗力相差过大和变形不协调导致界面附近的内应力变大,这些因素都降低了界面的剪切强度.840℃轧制后剪切强度低的原因是由于温度过低影响了界面附近元素的扩散.

     

    Abstract: Compared to the explosion cladding method and explosion-rolling cladding method, TA1/Q345 clad plates produced by the vacuum rolling method can better meet the demands of large-scale production. A TA1 titanium alloy sheet was packed between two Q345 steel plates to obtain a composite slab. The composite slab was vacuumized to 0.1 Pa and then sealed. At temperatures of 840 to 930℃ the composite slab was rolled to a cladding plate. The mechanical properties of the cladding plate were tested, and the interracial microstructure and bonding were analyzed by scanning electron microscopy, X-ray diffraction, and micro hardness tester. In the laboratory condition, the shear strength of the cladding plate is above 159 MPa, more than the standard requirement of Class 1 clad plates. The bonding mechanical properties are excellent when the rolling temperature is 870℃. During rolling at 900℃ and 930℃ there occur phase transitions in the titanium and a great deal of intermetallics form near the interface. Too much deformation resistance difference between the titanium and the steel brings about more uncoordinated deformation and internal stress near the interface, which decrease the shear strength of the interface. The lower shear strength at 840℃ is due to the low rolling temperature, which leads to slow element diffusion near the interface.

     

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