Mechanical Properties of Ferritic Martenstic Steels: A Review

Scientific Bulletin of Valahia University Materials and Mechanics Pub Date : 2019-05-01 DOI:10.2478/bsmm-2019-0003

H. Qadr, A. Hamad

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引用次数: 10

Abstract

Abstract The word-wide demand for energy is constantly increasing, and therefore ideas around future energy-generation are also on the increase with the aim of meeting this demand. This includes designs for the next generation of nuclear power reactors, such as gas-cooled, liquid-metal-cooled and water-cooled reactors; the goal being to create smarter ways to produce more economical, environmentally-friendly energy. The conditions such reactors would need to meet, present significant design challenges for scientist and engineers, not least around the structural materials and components to use. Depending on the operational conditions, use of elevated- temperature ferritic/martensitic materials such as P91 and P92 steel are favoured by several of the designs for use with out-of-core and in-core applications. The main goal behind this review article is to explain mechanical properties of P91 and P92 steel; these are two types of ferritic/martensitic steels. This reviewer, highlight and discuss the development of ferritic/martenisitc steels for nuclear programmes and to explain the effect of irradiation on mechanical properties of P91 and P92.

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铁素体马氏体钢的力学性能综述

世界范围内对能源的需求在不断增加，因此围绕未来能源生产的想法也在不断增加，以满足这一需求。这包括下一代核动力反应堆的设计，如气冷、液态金属冷却和水冷反应堆;目标是创造更智能的方式来生产更经济、更环保的能源。这种反应堆需要满足的条件，对科学家和工程师提出了重大的设计挑战，尤其是在结构材料和使用的部件方面。根据操作条件的不同，高温铁素体/马氏体材料(如P91和P92钢)在堆芯外和堆芯内的应用中受到一些设计的青睐。本文的主要目的是解释P91和P92钢的力学性能;这是两种铁素体/马氏体钢。本文着重讨论了核项目用铁素体/马氏体钢的发展，并解释了辐照对P91和P92力学性能的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Scientific Bulletin of Valahia University Materials and Mechanics

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审稿时长

4 weeks