Effects of temperature and load during hot impression behavior of Cr-Ni stainless steel

Metallurgical and Materials Engineering Pub Date : 2021-12-28 DOI:10.30544/745

P. B. Sreevatsava, E. Prasad, A. P. S. Kumar, Mohammad Fayaz Anwar, V. R. Rao, Vanitha Chilamban

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引用次数: 2

Abstract

Austenitic Stainless steels are majorly used because of their high resistance to aqueous corrosion and high temperature properties. Some major applications of stainless steels at high temperatures include engine and exhaust components in aircrafts, recuperators in steel mills, and pulverized coal injection lances for blast furnaces. In all the above said applications, the components are constantly subjected to loads and high temperatures. This makes the study of their creep behavior very important to decide the life of the component. Cr-Ni stainless steel was used as a starting material, and hot impression creep test was performed on cylindrical samples of 10 mm height and 15 mm diameter for a dwell time of 150 min at two different loads of 84 and 98 MPa and at two different temperatures 450 and 500 °C. The time vs. indentation depth was plotted, and creep rate was calculated in each case. It was observed that with an increase in time, creep rate increased in the primary creep region and remained almost constant in the secondary creep region irrespective of temperature and load. The indentation depth and creep rate increased with an increase in load and temperature.

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温度和载荷对Cr-Ni不锈钢热压印行为的影响

奥氏体不锈钢因其耐水腐蚀和高温性能而被广泛使用。不锈钢在高温下的一些主要应用包括飞机的发动机和排气部件，钢厂的回热器，以及高炉的煤粉喷射枪。在上述所有应用中，组件不断受到负载和高温的影响。因此，研究它们的蠕变行为对决定构件的使用寿命非常重要。以Cr-Ni不锈钢为起始材料，对高10 mm、直径15 mm的圆柱形试样进行热压蠕变试验，在84 MPa和98 MPa两种不同载荷、450℃和500℃两种不同温度下，停留时间150 min。绘制了时间与压痕深度的关系，并计算了每种情况下的蠕变率。结果表明:随时间的增加，蠕变速率在初级蠕变区增加，在次级蠕变区基本保持不变，与温度和荷载无关。压痕深度和蠕变速率随载荷和温度的增加而增加。

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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Metallurgical and Materials Engineering

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