Effect of Heat Treatments on the Microstructure and Mechanical Properties of SS317L/ASTM SA516 GR60 Steel Clad Plate Fabricated Through Hot Roll Bonding

Laxya Gupta, Nachiket Keskar, Bikas C. Maji, R. N. Singh, Madangopal Krishnan
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Abstract

Triple-layer stainless-steel clad plate having 317L stainless steel (SS317L) as cladding layer and ASTM SA516 GR60 (GR60) as backing layer was successfully fabricated through vacuum hot roll bonding (VHRB) at 1373 K (1100 °C) temperature and strain rate regime of 1–5 s−1, which were identified through process efficiency maps of the base materials (SS317L and GR60). The process efficiency maps were constructed by conducting isothermal compression tests within the temperature range of 1173 K (900 °C)–1473 K (1200 °C) and 0.1–50 s−1strain rate regime. Effect of post-rolling heat treatments on the mechanical properties of clad plate was studied after solutionization at 1173 K (900 °C) for 1 h followed by cooling at different rates, i.e., water quenching, air cooling, and furnace cooling. As compared to other post-rolling heat treatments, the ultimate tensile strength, uniform plastic elongation, and maximum shear strength showed a significant change from 524 MPa, 0.46 and 519 MPa to 652 MPa, 0.36 and 410 MPa, when the normalized clad plate was solutionized at 1173 K (900 °C) and water quenched. A drastic change in shear fracture mode from gradual failure in normalized condition to catastrophic failure was also noticed after water quenching. These changes are essentially manifestation of the microstructural change in GR60 layer which led to the change in mechanical properties.

Abstract Image

热处理对通过热轧粘合制造的 SS317L/ASTM SA516 GR60 复合钢板微观结构和机械性能的影响
以 317L 不锈钢(SS317L)为覆层、ASTM SA516 GR60(GR60)为背层的三层不锈钢覆层板在 1373 K (1100 °C)温度和 1-5 s-1 应变率条件下通过真空热辊粘合 (VHRB) 成功制成。工艺效率图是通过在 1173 K(900 °C)-1473 K(1200 °C)温度范围和 0.1-50 s-1 应变率条件下进行等温压缩试验绘制的。在 1173 K(900 °C)下固溶 1 小时,然后以不同速率冷却(即水淬、空冷和炉冷)后,研究了轧后热处理对覆铜板机械性能的影响。与其他轧后热处理相比,在 1173 K (900 °C)固溶并水淬后,正火堆焊板的极限拉伸强度、均匀塑性延伸率和最大剪切强度分别从 524 兆帕、0.46 兆帕和 519 兆帕显著提高到 652 兆帕、0.36 兆帕和 410 兆帕。水淬后,剪切断裂模式也发生了急剧变化,从正火状态下的逐渐断裂变为灾难性断裂。这些变化从根本上说明 GR60 层的微观结构发生了变化,从而导致了机械性能的改变。
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