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引用次数: 0

摘要

马氏体的性质及其形成机制是了解碳钢硬度和淬透性的关键。马氏体是奥氏体的一种转变产物,需要快速冷却来抑制扩散依赖的转变途径。本章描述马氏体形成必须满足的条件。讨论了淬火的作用和影响冷却速度的因素,包括传热、热扩散系数、发射率和截面尺寸。它定义了淬透性,并解释了如何使用Grossmann-Bain方法或Jominy端淬试验来量化淬透性。它还解释了如何通过添加硼、磷和其他合金来提高淬透性。
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Hardness and Hardenability
The properties of martensite and the mechanisms that govern its formation are the key to understanding hardness and the hardenability of carbon steel. Martensite is a transformation product of austenite that requires rapid cooling to suppress diffusion-dependent transformation pathways. This chapter describes the conditions that must be met for martensite to form. It discusses the role of quenching and the factors that affect cooling rate, including heat transfer, thermal diffusivity, emissivity, and section size. It defines hardenability and explains how to quantify it using the Grossmann-Bain approach or Jominy end-quench testing. It also explains how hardenability can be improved through the addition of boron, phosphorus, and other alloys.
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