Effect of austenitizing temperature and cooling rate on the structure and properties of a ultrahigh strength low alloy steel

N. Kishore Babu; M. R. Suresh; P. P. Sinha; D. S. Sarma

首页> 外文期刊>Journal of Materials Science >Effect of austenitizing temperature and cooling rate on the structure and properties of a ultrahigh strength low alloy steel

【24h】

Effect of austenitizing temperature and cooling rate on the structure and properties of a ultrahigh strength low alloy steel

机译：奥氏体化温度和冷却速率对超高强度低合金钢组织和性能的影响

获取原文

获取原文并翻译 | 示例

掌桥外文数据库（机构版） >>

开具论文收录证明 >>

文献代查 >>

页面导航

摘要
著录项
相似文献
相关主题

摘要

A 0.3C-CrMoV(ESR) steel is being developed primarily for making pressure vessels used for aerospace applications. Since it is important to understand the range of microstructures and mechanical properties that will be obtained in the heat affected zone of welds, the steel has been subjected to different austenitizing treatments (temperatures ranging from 925°C to 1250°C) followed by cooling at various rates to room temperature. It has been shown that the austenite grain size increased from about 10 to 250 μm as the austenitizing temperature is increased from 925°C to 1250°C (1 hr) and that the hardness, YS, UTS,% elongation and% reduction in area as well as CVN energy for 450°C tempered condition decrease as the austenitizing temperature is increased for all cooling rates (furnace cooling, air cooling, oil quenching, quenching and tempering at 450°C). This is attributed mainly to the increase in austenitic grain size. The ranges of microstructures that can be obtained in the heat-affected zone are massive ferrite, fine pearlite, upper as well as lower bainite and martensite. The Charpy impact energy for the oil-quenched steel tempered at 200°C, however, did not vary significantly with austenitizing temperature.

机译：正在开发一种0.3C-CrMoV（ESR）钢，主要用于制造用于航空航天应用的压力容器。由于了解在焊接热影响区中获得的显微组织和机械性能的范围很重要，因此对钢进行了不同的奥氏体化处理（温度范围为925°C至1250°C），然后在各种速率到室温。研究表明，随着奥氏体化温度从925°C升高至1250°C（1小时），奥氏体晶粒尺寸从约10微米增加到250微米，并且硬度，YS，UTS，伸长率和面积减小率降低在所有冷却速率下（炉冷却，空气冷却，油淬，在450°C淬火和回火），随着奥氏体化温度的升高，在450°C回火条件下的CVN能量会降低。这主要归因于奥氏体晶粒尺寸的增加。在热影响区可以获得的显微组织范围是块状铁素体，细珠光体，上贝氏体和下贝氏体和马氏体。但是，在200°C回火的油淬火钢的夏比冲击能并未随奥氏体化温度而显着变化。

著录项

来源
《Journal of Materials Science》 |2006年第10期|2971-2980|共10页
作者
N. Kishore Babu; M. R. Suresh; P. P. Sinha; D. S. Sarma;
展开▼
作者单位

Department of Metallurgical Engineering Banaras Hindu University;

Vikram Sarabhai Space Centre ISRO;

Vikram Sarabhai Space Centre ISRO;

Department of Metallurgical Engineering Banaras Hindu University;

展开▼
收录信息
原文格式 PDF
正文语种 eng
中图分类
关键词

相似文献

外文文献
中文文献
专利

1. Effect of austenitizing temperature and cooling rate on the structure and properties of a ultrahigh strength low alloy steel [J] . Babu NK, Suresh MR, Sinha PP, Journal of Materials Science . 2006,第10期

机译：奥氏体化温度和冷却速率对超高强度低合金钢组织和性能的影响
2. The effect of double austenitization and quenching on the microstructure and mechanical properties of CrNiMoWMnV ultrahigh-strength steels after low-temperature tempering [J] . Ali Mohammed, Porter David, Komi Jukka, Materials Science and Engineering . 2019,第AUGa19期

机译：二次奥氏体淬火对CrNiMoWMnV超高强度钢低温回火后组织和力学性能的影响
3. Effects of Cooling Rate by Double Austenitizing Tempering Treatment on the Microstructure and Mechanical Properties in Low Alloy Steel [J] . Kim Gyeong-Hoo, Jang Jae-Ho, Kim Sung-Hwan, Journal of Korean Institute of Metal and Materials . 2017,第8期

机译：通过双重奥氏体化回火处理对低合金钢微观结构和力学性能的影响
4. Effect of Austenitizing Temperature and Air Cooling Rate on Microstructure and Properties of the Low Carbon Mn-Si-Cr steel [C] . Liu Dong-yu, Hou Shi-xiang, Yuan Ye, International Conference on Semi-Solid Processing of Alloys and Composites . 2008

机译：奥氏体化温度和空气冷却速率对低碳Mn-Si-Cr钢的微观结构和性能的影响
5. Effects of carbon percentage, Stelmor cooling rate and laying head temperature on tensile strength gain in low carbon steels . [D] . Gade, Surya Prakash. 2004

机译：碳含量，Stelmor冷却速率和浇头温度对低碳钢抗拉强度增加的影响。
6. Influence of Hot Plastic Deformation in γ and (γ + α) Area on the Structure and Mechanical Properties of High-Strength Low-Alloy (HSLA) Steel [O] . Jan Sas, Tibor Kvačkaj, Ondrej Milkovič, 2016

机译：γ和（γ+α）区域的热塑性变形对高强度低合金（HSLA）钢的组织和力学性能的影响
7. Improvement of Low-Temperature Mechanical Properties of Ultrahigh Strength Low-Alloy Steels. [O] . YOSHIYUKI TOMITA 1995

机译：超高强度低合金钢低温力学性能的提高。
8. High-Temperature Properties of Four Low-Alloy Steels for Jet-Engine Turbine Wheels Part 2. A Survey of the Relations Between Microstructure and Elevated-Temperature Properties of Four Low-Alloyed Steels at 700° to 1200°F [R] . ADRON I. RUSH, JAMES W. FREEMAN 1955

机译：喷气发动机汽轮机用四种低合金钢的高温性能第2部分：4种低合金钢在700°~1200°F的微观结构与高温性能关系的研究

Effect of austenitizing temperature and cooling rate on the structure and properties of a ultrahigh strength low alloy steel

摘要

著录项

相似文献

相关主题

期刊订阅