DESIGN OF HIGH STRENGTH MICROSTRUCTURES IN CARBON STEEL BY THERMO MECHANICAL TREATMENT

机译：Thermo Mechanical Proceping碳钢高强度微观结构设计

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This research work describes a thermo mechanical investigation of medium carbon steel in the (alpha + gamma) phase region. The aim is to develop a high tensile, ductile microstructure that could have a wide range of engineering applications. Recent advances in the area of crystallographic transformations, especially, precipitation and recrystallization mechanisms, provide strong background to this study. In a preliminary heat treatment, various microstructures (normalized)(p), martensitic(m) and tempered martensite(T)) were produced and deformed to varying degrees. Subsequently, these microstructures were subjected to various intercritical temperatures (740°C 760°C, 780°C) for various times and a very high cooling rate. Light - and transmission electron microscopic investigations were carried out to study the ensuing microstructures. Mechanical testing results (tensile and hardness values) were used to characterize the structures obtained. On analysis of the result, it was observed that well defined microduplex structures of perlitic and martensitic nature, possessing good combinations of strength and ductility, were obtained.

机译：该研究工作描述了（α+γ）相位区域中碳钢的热机械研究。目的是开发一种高拉伸，延展性微观结构，可具有广泛的工程应用。晶体转化领域的最新进展，特别是降水和再结晶机制，为本研究提供了强大的背景。在初步热处理中，产生各种微观结构（归一化）（P），马氏体（M）和回火马氏体（T））并变形为不同程度。随后，将这些微观结构进行各种临临互临界温度（740℃760℃，780℃），各个时间和非常高的冷却速率。进行光线和透射电子显微镜研究以研究随后的微观结构。机械测试结果（拉伸和硬度值）用于表征所获得的结构。在分析结果上，据观察，获得了具有良好的强度和延展性组合的Perlitic和马氏体性质的明确定义的微掺杂结构。

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《Materials Science Technology Conference》|2005年||共11页
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KAMMA C. M.; ALANEME K. K.;
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中图分类工程材料一般性问题;
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机译：实验用高强度Fe - 4Cr - 0.4C钢的热处理，组织和力学性能。

DESIGN OF HIGH STRENGTH MICROSTRUCTURES IN CARBON STEEL BY THERMO MECHANICAL TREATMENT

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