Laser Hardfacing of 1050 Mild Steel Using NiCoCrB for Enhancing Cavitation Erosion-corrosion Resistance

机译：使用NICOCRB的1050温和钢激光硬坯来提高空化腐蚀耐腐蚀性

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Laser surface modification of mild steel AISI 1050 was achieved using a hardfacing powder NiCoCrB. NiCoCrB was flame-sprayed on the substrate and then consolidated by a 2-kW NdYAG laser. The microstructures of the laser-modified specimens were studied by SEM, optical microscopy and XRD. The modified layers contained austenite as the main phase, with carbides and borides as the minor phases. The maximum hardness of the specimens was increased to 545 Hv. The cavitation erosion resistance in deionized water and 3.5% NaCl was improved by a factor of 4.4 and 8.3, respectively. The increase in erosion resistance was attributed to the presence of Co, which decreased the stacking-fault energy and enhanced the strain-induced martensitic transformability, and to the presence of carbides and borides, which resulted in an increase in hardness. On the other hand, the presence of Cr and Ni, together with a refined microstructure, led to an improvement in the corrosion resistance.

机译：使用硬折叠粉末尼奥克实现温和钢AISI 1050的激光表面改性。 NICOCRB被火焰喷涂在基材上，然后通过2-kW NDYAG激光固结。通过SEM，光学显微镜和XRD研究了激光改性标本的微观结构。改性层含有奥氏体作为主相，用碳化物和硼化物作为次阶段。标本的最大硬度增加到545HV。去离子水和3.5％NaCl中的空化腐蚀性分别为4.4和8.3分别提高。侵蚀性的增加归因于CO的存在，这降低了堆叠故障能量并增强了应变诱导的马氏体可变性性，并存在碳化物和硼化物的存在，这导致硬度增加。另一方面，Cr和Ni的存在以及精细的微观结构导致耐腐蚀性的改善。

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《International Congress on Applications of Lasers Electro-Optics》|2001年||共1页
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C. T. Kwok; F. T. Cheng; H. C. Man;
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中图分类 TN2-53;
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Laser surface modification; Cavitation erosion-corrosion; Corrosion; Synergism; Stacking-fault energy; Martensitic transformability; Mild steel;

机译：激光表面改性;空化侵蚀腐蚀;腐蚀;协同作用;堆叠故障能量;马氏体可变形性;温和的钢;

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机译：FeCoCrAlNi高熵合金在304不锈钢上的激光表面合金化以增强耐腐蚀和抗气蚀性
2. Laser cladding of Stellite 6 on stainless steel to enhance solid particle erosion and cavitation resistance [J] . Raghuvir Singh, Damodar Kumar, S.K. Mishra, Surface & Coatings Technology . 2014,第Null期

机译：不锈钢上Stellite 6的激光熔覆可增强固体颗粒的侵蚀和抗气蚀性
3. Laser surface modification of UNS S31603 stainless steel using NiCrSiB alloy for enhancing cavitation erosion resistance [J] . Kwok CT., Man HC., Cheng FT. Surface & Coatings Technology . 1998,第1期

机译：使用NiCrSiB合金对UNS S31603不锈钢进行激光表面改性以增强抗气蚀性
4. Laser Hardfacing of 1050 Mild Steel Using NiCoCrB for Enhancing Cavitation Erosion-corrosion Resistance [C] . C. T. Kwok, F. T. Cheng, H. C. Man International Congress on Applications of Lasers Electro-Optics . 2001

机译：使用NICOCRB的1050温和钢激光硬坯来提高空化腐蚀耐腐蚀性
5. Laser surface modification of stainless steels for cavitation erosion resistance. [D] . Kwok, Chi Tat. 1999

机译：不锈钢的激光表面改性，可抵抗气蚀。
6. The Effects of Sand Particles on the Synergy of Cavitation Erosion-Corrosion of MIG Welding Stainless Steel Coating in Saline Water [O] . Haodan Pan, Jun Tao, Meng E, 2020

机译：砂粒对盐水中MIG焊接不锈钢涂层空化腐蚀腐蚀协同作用的影响
7. Cavitation erosion-corrosion behaviour of laser surface alloyed AISI 1050 mild steel using NiCrSiB [O] . Kwok CT, Man HC, Cheng FT 2001

机译：NiCrSiB对激光表面合金化AISI 1050低碳钢的空化腐蚀行为
8. Cathodic Protection in Cavitation Damage:Tests of Mild Steel in a Salt Solution [R] . M. S. Plesset, B. C. Bass, R. Hicking 1958

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Laser Hardfacing of 1050 Mild Steel Using NiCoCrB for Enhancing Cavitation Erosion-corrosion Resistance

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