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Effect of vanadium carbide on dry sliding wear behavior of powder metallurgy AISI M2 high speed steel processed by concentrated solar energy

机译：碳化钒对粉末冶金AISI M2高速太阳能加工高速钢干式滑动磨损行为的影响

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Mixtures of AISI M2 high speed steel and vanadium carbide (3, 6 or 10 wt.%) were prepared by powder metallurgy and sintered by concentrated solar energy (CSE). Two different powerful solar furnaces were employed to sinter the parts and the results were compared with those obtained by conventional powder metallurgy using a tubular electric furnace. CSE allowed significant reduction of processing times and high heating rates. The wear resistance of compacts was studied by using rotating pin-on-disk and linearly reciprocating ball-on-flat methods. Wear mechanisms were investigated by means of scanning electron microscopy (SEM) observations and chemical inspections of the microstructures of the samples. Better wear properties than those obtained by conventional powder metallurgy were achieved. The refinement of the microstructure and the formation of carbonitrides were the reasons for this.

机译：通过粉末冶金制备AISI M2高速钢和碳化钒（3、6％或10 wt。％）的混合物，并通过聚光太阳能（CSE）进行烧结。使用两个不同的高能太阳能炉来烧结零件，并将结果与使用管状电炉的常规粉末冶金法得到的结果进行比较。 CSE大大减少了处理时间并提高了加热速率。通过使用旋转销盘式和线性往复式扁平球式方法研究了压坯的耐磨性。通过扫描电子显微镜（SEM）观察和样品微观结构的化学检查研究了磨损机理。获得了比常规粉末冶金获得的更好的磨损性能。微观结构的细化和碳氮化物的形成是其原因。

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García Cabezón Cristina; Romero Ana; Herranz Gemma; Blanco Yolanda; Martín Pedrosa Fernando;
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年度 2016
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1. Effect of vanadium carbide on dry sliding wear behavior of powder metallurgy AISI M2 high speed steel processed by concentrated solar energy [J] . Garcia C., Romero A., Herranz G., Materials Characterization . 2016,第Null期

机译：碳化钒对粉末太阳能AISI M2高速钢经集中太阳能处理后干式滑动磨损行为的影响
2. Effect of vanadium carbide on dry sliding wear behavior of powder metallurgy AISI M2 high speed steel processed by concentrated solar energy [J] . Garcia C., Romero A., Herranz G., Materials Characterization . 2016,第Null期

机译：碳化钒对浓缩太阳能加工粉冶金AISI M2高速钢干磨损行为的影响
3. Processing of AISI M2 high speed steel reinforced with vanadium carbide by solar sintering [J] . G. Herranz, A. Romero, V. de Castro, Materials & design . 2014,第Feba期

机译：太阳烧结烧结碳化钒增强AISI M2高速钢
4. MECHANICAL AND DRY SLIDING WEAR BEHAVIOR OF ULTRAFINE-GRAINED AISI 1024 STEEL PROCESSED USING MULTI AXIAL FORGING [C] . A. K. Padap, G. P. Chaudhari, S. K. Nath TMS Annual Meeting Exhibition . 2010

机译：使用多轴锻造加工超细颗粒AISI 1024钢的机械干燥滑动磨损行为
5. Wear behaviour and microstructural characterization of worn surfaces and wear debris of a high purity aluminum and an aluminum-silicon alloy and an aluminum-silicon/silicon carbide composite sliding against an M2 steel. [D] . Li, Xianyao. 1999

机译：高纯铝，铝硅合金和铝硅/碳化硅复合材料在M2钢上滑动的磨损表面和磨损碎屑的磨损行为和微观结构表征。
6. Dataset and methodology on identification and correlation of secondary carbides with microstructure wear mechanism and tool performance for different CERMET grades during high-speed dry finish turning of AISI 304 stainless steel [O] . Uttkarsh Patel, Sushant Rawal, A.F.M. Arif, 2020

机译：在高速干燥结束后AISI 304不锈钢的高速干燥结束过程中二级碳化物识别和相关机构和工具性能的识别和相关性的数据集和方法
7. Avaliação da Geração de Microtrincas do Aço Rápido ABNT M2 no Processo EDM com Adição de SiC - DOI: 10.4025/actascitechnol.v30i2.543 Evaluation of the Microcrack Generation of ABNT M2 High Speed Steel in EDM Process With Addition of Silicon Carbide Powder - DOI: 10.4025/actascitechnol.v30i2.543 [O] . José Roberto Pereira Rodrigues, Sinésio Domingues Franco, Claudionor Cruz, 2008

机译：AvaliaçãodaGeraçãode Microtrincas doAçoRápidoABNT M2无工艺电火花加工和SiC加工-DOI：10.4025 / actascitechnol.v30i2.543 对EDM中ABNT M2高速钢微裂纹生成的评估添加碳化硅粉的工艺-DOI：10.4025 / actascitechnol.v30i2.543

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3. High speed tool steel mfd. by powder metallurgy for high resistance to wear - comprises carbon@, silicon@, manganese@, chromium@, molybdenum@, tungsten@, vanadium@ and iron@, for tools with high toughness e.g. knives [P] . 外国专利： SE500007C2 . 1994-03-21

机译：高速工具钢MFD。粉末冶金的高耐磨性-包括碳@，硅@，锰@，铬@，钼@，钨@，钒@和铁@，用于高韧性工具，例如刀

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机译：由氮雾化预合金粉末制成的具有高冲击韧性的热加工，全致密，耐磨，富钒的粉末冶金冷加工工具钢制品

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机译：含钨高速钢切削钒型粉末冶金的制备方法

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Effect of vanadium carbide on dry sliding wear behavior of powder metallurgy AISI M2 high speed steel processed by concentrated solar energy

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