Improvement of Wear Resistance of the Nickel Based Alloy Mixed with Rare Earth Elements by High Power Direct Diode Laser Cladding

Sayeed Mohammed; Prabu Balu; Arslan Ahmed; Zhe Zhang; Radovan Kovacevic

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Improvement of Wear Resistance of the Nickel Based Alloy Mixed with Rare Earth Elements by High Power Direct Diode Laser Cladding

机译：大功率直接二极管激光熔覆改善镍基合金与稀土元素混合的耐磨性

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Wear is a restricting factor for steel in hostile environments but can be abated by laser cladding. Laser cladding of steel poses a promising solution to wear resistance. The high power direct diode laser is employed for the laser cladding of thicknesses of about 1.6 mm. Recently, the light rare earth metals have become important additions to smart materials, particularly Lanthanum oxide (La_20_3) and Cerium Oxide (Ce0_2), to improve microhardness and wear resistance. Layers of Ni-WC with 1 % and 2% La_20_3 and CeO_2 as alloying elements were cladded onto A36 steel substrate. The wear resistance and microstructure were studied with XRD and SEM. The hardness to modulus of elasticity ratio (H/E) was used to analyze the wear. It was found that the addition of 1 % La_20_3 or 1% Ce0_2 to Nickel-based alloy (40% Ni-60% WC) improves the wear resistance.

机译：磨损是钢铁在不利环境中的限制因素，但可以通过激光熔覆来减轻。钢的激光熔覆为耐磨性提出了有希望的解决方案。高功率直接二极管激光器用于厚度约1.6mm的激光熔覆。最近，轻稀土金属已成为智能材料的重要添加物，特别是氧化镧（La_20_3）和氧化铈（Ce0_2），以提高显微硬度和耐磨性。将具有1％和2％La_20_3和CeO_2作为合金元素的Ni-WC层覆盖在A36钢基底上。用XRD和SEM研究了耐磨性和显微组织。硬度与弹性模量之比（H / E）用于分析磨损。发现向镍基合金（40％Ni-60％WC）中添加1％La_20_3或1％Ce0_2可以提高耐磨性。

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来源
《Lasers in Manufacturing and Materials Processing》 |2019年第2期|173-188|共16页
作者
Sayeed Mohammed; Prabu Balu; Arslan Ahmed; Zhe Zhang; Radovan Kovacevic;
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作者单位

Research Center for Advanced Manufacturing, Department of Mechanical Engineering, Southern Methodist University, Dallas, TX 75205, USA;

Coherent Inc., Santa Clara, CA 95051, USA;

Center of Energy Science, Department of Mechanical Engineering, University of Malaya, Kuala Lumpur, Malaysia;

Research Center for Advanced Manufacturing, Department of Mechanical Engineering, Southern Methodist University, Dallas, TX 75205, USA;

Research Center for Advanced Manufacturing, Department of Mechanical Engineering, Southern Methodist University, Dallas, TX 75205, USA;

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正文语种 eng
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关键词
Wear resistance; La_20_3 and Ce0_2; Cladding; Steel;

机译：耐磨性;La_20_3和Ce0_2;覆层钢;

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专利

1. Improvement of Wear Resistance of the Nickel Based Alloy Mixed with Rare Earth Elements by High Power Direct Diode Laser Cladding [J] . Sayeed Mohammed, Prabu Balu, Arslan Ahmed, Lasers in Manufacturing and Materials Processing . 2019,第2期

机译：通过高功率直接二极管激光覆层改善镍基合金耐稀土元素耐磨性
2. Effect of Rare Earth Element (RE) Oxides on Diffusive Behaviour and Wear Resistance of a Laser Clad TiC/TiB_2 Reinforced Coating on a Ti-3Al-2V Alloy [J] . P. LIU, H. X. LI, Y. B. ZHANG Lasers in engineering . 2013,第5a6期

机译：稀土元素氧化物对Ti-3Al-2V合金上激光熔覆TiC / TiB_2增强涂层的扩散行为和耐磨性的影响
3. Wear and Corrosion Resistance of a Co-based/Al2O3/Rare Earth Composite Laser Clad Coating on Steel [J] . Tian J. Y., Xu P., Shao Y., Lasers in engineering . 2019,第4a6期

机译：CO-碱/ Al2O3 /稀土复合激光器包层钢的磨损和耐腐蚀性
4. Effect of rare-earth cerium on microstructure and wear resistance of Ni-based alloy laser-cladded coating [C] . Qingbo Zhang, Tsinghua Univ., Beijing, Laser Processing of Materials and Industrial Applications . 1996

机译：稀土铈对镍基合金激光熔覆涂层组织和耐磨性的影响
5. Laser Cladding of Iron-Based Erosion and Corrosion Resistant Alloys by a High Power Direct Diode Laser [D] . Zhang, Zhe. 2017

机译：高功率直接二极管激光器对铁基耐蚀耐蚀合金的激光熔覆
6. Microstructure and Wear Resistance of Multi-Layer Ni-Based Alloy Cladding Coating on 316L SS under Different Laser Power [O] . Shaoxiang Qian, Yibo Dai, Yuhang Guo, 2021

机译：不同激光功率下316L SS的多层Ni基合金包层涂层的组织和耐磨性
7. Laser cladding of Zr-based coating on AZ91D magnesium alloy for improvement of wear and corrosion resistance [O] . Huang, K, Lin, X, Xie, C, 2013

机译：在AZ91D镁合金上进行Zr基涂层的激光熔覆以提高耐磨性和耐腐蚀性

Improvement of Wear Resistance of the Nickel Based Alloy Mixed with Rare Earth Elements by High Power Direct Diode Laser Cladding

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