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作 者:田东宽 孟凡月 王浩川 周文 Tian Dongkuan;Meng Fanyue;Wang Haochuan;Zhou Wen(TangshanIronandSteelGroupCo.,Ltd.,Tangshan,Hebei063000,China)
机构地区:[1]唐山钢铁集团有限责任公司,河北唐山063000
出 处:《涂层与防护》2024年第4期46-51,共6页Coating and Protection
摘 要:首先探讨了热模拟技术的基本原理和方法,包括温度控制、热循环模拟、应力控制以及试样在不同气体氛围下受热形变的过程等。接着分析了热模拟技术在研究钢板镀层的晶粒尺寸、晶界特征、相组成与相变行为、界面反应、缺陷与裂纹以及涂层性能等方面的应用。进一步比较了热模拟技术与其他研究方法的优势和融合方式,包括传统实验方法、数值模拟和材料表征技术等。最后讨论了热模拟技术在钢板镀层研究中的局限性与展望,并探讨了热模拟技术在其他新型材料研究中的潜在应用。This article introduces the application and prospects of thermal simulation technology in the study of steel plate coating and protection.Firstly,the basic principles and methods of thermal simulation technology were explored,including temperature control,thermal cycle simulation,stress control and the process of specimen deformation under different gas atmospheres.Subsequently,the application of thermal simulation technology in studying the grain size,grain boundary characteristics,phase composition and phase transformation behavior,interface reactions,defects and cracks,and coating performance of steel plate coatings was analyzed.Furthermore,the advantages and integration methods of thermal simulation technology with other research methods were compared,including traditional experimental methods,numerical simulation and material characterization techniques.Finally,the limitations and prospects of thermal simulation technology in the study of steel plate coatings were discussed,and the potential applications of thermal simulation technology in the study of other new materials were explored.
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