WEAR-RESISTANCE OF NITRIDED W-Mo-HIGH SPEED STEEL IN ABRASIVE WEAR CONDITIONS

机译：耐磨损磨损条件下氮化W-Mo高速钢的耐磨性

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In this work the influence of electrolytic-plasma nitriding on the abrasive wear-resistance of R6M5 high-speed steel were under research. We registered that after electrolytic-plasma nitriding on R6M5 steel surface modified layer is formed with 20-40 μm thickness and with increased microhardness of 9000-12200 MPa. Testing mode for the nitrided samples high-speed steel on abrasive wear developed. It is established, that electrolyte-plasma nitriding allows to increase wear-resistance of R6M5 steel surface layer comparing to original. It was determined that abrasive wear-resistance of R6M5 steel surface layer is increased to 25% as a result of electrolytic plasma nitriding. Thus, studies have demonstrated the feasibility and applicability of electrolytic-plasma nitriding in order to improve cutting tools work resource, working under friction and wear conditions.

机译：在这项工作中，电解质 - 等离子体氮化对R6M5高速钢的磨蚀性的影响研究。我们登记了在R6M5钢表面上氮化的电解质 - 等离子改性层后，形成20-40μm厚度，并且具有9000-12200MPa的微硬度增加。氮化样品的测试模式高速钢磨损磨损。建立，电解质 - 等离子体氮化允许增加与原始的R6M5钢表面层的耐磨性。确定R6M5钢表面层的磨料耐磨性由于电解等离子体氮化而增加至25％。因此，研究已经证明了电解质 - 等离子氮化的可行性和适用性，以改善摩擦和磨损条件下的切削工具工作资源。

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《International Conference on Advanced Materials Engineering and Technology》|2014年||共5页
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Skakov Mazhyn; Rakhadilov Bauyrzhan; Rakhadilov Merey;
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中图分类 TB3-532;
关键词
abrasive wear; nitriding; high-speed steel; plasma; wear-resistance; microstructure;

机译：磨料;氮化;高速钢;等离子体;耐磨;微观结构;

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1. Wear-resistance of the mechanical-pulse treated 40X steel during abrasive friction and cavitation [J] . Nykyforchyn H.M., Kyryliv V.I., Bassarab A.I. Физико-химическая механика материалов: Науч.-техн. журн. . 2002,第6期

机译：机械脉冲处理的40X钢在磨擦和气蚀过程中的耐磨性
2. Abrasive wear of high speed steels: Influence of abrasive particles and primary carbides on wear resistance [J] . E. Badisch, C. Mitterer Tribology International . 2003,第10期

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3. Wear of tungsten carbide-cobalt hardmetals and hot isostatically pressed high speed steels under dry abrasive conditions [J] . A. J. Gant, M. G. Gee Wear: an International Journal on the Science and Technology of Friction, Lubrication and Wear . 2001,第2期

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4. WEAR-RESISTANCE OF NITRIDED W-Mo-HIGH SPEED STEEL IN ABRASIVE WEAR CONDITIONS [C] . Skakov Mazhyn, Rakhadilov Bauyrzhan, Rakhadilov Merey International Conference on Advanced Materials Engineering and Technology . 2014

机译：耐磨损磨损条件下氮化W-Mo高速钢的耐磨性
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8. A New Mode of Chipping Fracture in Brittle Solids and its Application in a Model for Wear Under Fixed Abrasive Conditions. I. Mode of Chipping Fracture. II. Wear Model. [R] . lawn,brian r. 1975

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WEAR-RESISTANCE OF NITRIDED W-Mo-HIGH SPEED STEEL IN ABRASIVE WEAR CONDITIONS

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