Hardfacing of a Modified 9Cr–1Mo Steel Component Using a Nickel-Base Alloy

Hemant Kumar; S. K. Albert; C. Sudha; R. Vijayashree; A. K. Bhaduri; C. Balasubramanian

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Hardfacing of a Modified 9Cr–1Mo Steel Component Using a Nickel-Base Alloy

机译：使用镍基合金对9Cr-1Mo改性钢构件进行表面硬化处理

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A dashpot piston made of modified 9Cr–1Mo steel is hardfaced with NiCr-B alloy by the Plasma Transferred Arc (PTA) process. During initial trials, a large number of cracks were observed in the hardface deposit when hardfacing was carried out directly on the modified 9Cr–1Mo steel substrate using a preheat temperature of 723 K. Both the deposit and the martensitic structure formed in the heat affected zone of the substrate during deposition are hard and hence were unable to absorb the thermal stresses generated, leading to cracking. Subsequently, hardfacing trials carried out with an intermediate layer of 2 mm thick Inconel-625 alloy, were successful and deposits were crack-free. Use of a relatively soft Inconel-625 between the hardface deposit and the substrate reduced martensite formation in the substrate, and thus the cracking susceptibility of the deposit.

机译：由改性9Cr-1Mo钢制成的防撞活塞通过等离子弧转移（PTA）工艺用NiCr-B合金进行表面硬化处理。在最初的试验中，当使用723 K的预热温度直接在改性的9Cr-1Mo钢基材上进行堆焊时，在堆焊层中观察到大量裂纹。堆焊层和马氏体组织均在热影响区形成沉积期间基材的表面硬度很高，因此不能吸收所产生的热应力，从而导致破裂。随后，成功地对2mm厚的Inconel-625合金中间层进行了堆焊试验，并且沉积物无裂纹。在硬面沉积物和基底之间使用相对较软的Inconel-625可减少基底中马氏体的形成，从而减少沉积物的开裂敏感性。

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《Transactions of the Indian Institute of Metals》 |2011年第5期|p.339-343|共5页
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Hemant Kumar; S. K. Albert; C. Sudha; R. Vijayashree; A. K. Bhaduri; C. Balasubramanian;
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1. Hardfacing of a Modified 9Cr-lMo Steel Component Using a Nickel-Base Alloy [J] . Hemant Kumar, S. K. Albert, C. Sudha Transactions of the Indian Institute of Metals . 2011,第4a5期

机译：使用镍基合金对9Cr-1Mo改性钢构件进行表面硬化处理
2. A comparative study on Johnson Cook, modified Zerilli–Armstrong and Arrhenius-type constitutive models to predict elevated temperature flow behaviour in modified 9Cr–1Mo steel [J] . Dipti Samantaray, Sumantra Mandal, A.K. Bhaduri Computational Materials Science . 2009,第2期

机译：约翰逊·库克，改进的Zerilli-Armstrong和Arrhenius型本构模型预测9Cr-1Mo改性钢高温流动行为的比较研究
3. Tensile Properties Variation Across the Dissimilar Metal Weld Joint Between Modified 9Cr–1Mo Ferritic Steel and 316LN Stainless Steel at RT and 550?°C [J] . K. Karthick, S. Malarvizhi, V. Balasubramanian, Metallography, Microstructure, and Analysis . 2018,第2期

机译：在室温下改性的9Cr-1MO铁素体钢和316LN不锈钢之间的不同金属焊接接头的拉伸性能变化，在室温下和550Ω°C
4. Alloy Design of Creep and Oxidation Resistant 9Cr Steels for Thick Section Boiler Components Operating at 650°C [C] . F. Abe International Conference on Advances in Materials Technology for Fossil Power Plants . 2005

机译：厚截面锅炉部件的蠕变和抗氧化耐热钢的合金设计在650°C
5. Assessment of Cobalt-Free Hardfacing Stainless Steel Alloys for Nuclear Applications [D] . Bowden, David James. 2017

机译：核应用的无钴硬钢合金评估
6. Precipitates and Particles Coarsening of 9Cr–1.7W–0.4Mo–Co Ferritic Heat-Resistant Steel after Isothermal Aging [O] . Qiuzhi Gao, Yanan Zhang, Hailian Zhang, -1

机译：等温时效后9Cr–1.7W–0.4Mo–Co铁素体耐热钢的析出物和颗粒粗化
7. Premature Creep Rupture and Overestimation of Rupture Life in Modified 9Cr–1Mo Steel [O] . R. P. Chen, H. Ghassemi Armaki, Kyosuke Yoshimi, 2010

机译：修改9CR-1MO钢的过早蠕变破裂和过度估计的破裂寿命

Hardfacing of a Modified 9Cr–1Mo Steel Component Using a Nickel-Base Alloy

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