Alternative Mechanical Milling Routes For Grain-Refinement Of Conventional High-Speed Steel Powder For Later Consolidation By Sps

机译：常规高速钢粉晶粒细化的替代机械铣削路线，之后通过Sps进行固结

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High-speed steel is the most superior tool steel in terms of wear resistance at high temperature. In order to further improve materials properties, conventional HSS-powder (<76μm) has been mechanically milled by a Planetary Ball Mill (medium kinetic system) and alternatively by a Simoloyer (high kinetic system) in order to reduce particle size and in particular the grain size of the powder material. Consolidation has been done by Spark Plasma Sintering in order to maintain a fine structure of the material. In the Planetary Ball Mill, 25 g of HSS-powder was milled for 720 ks (200h) and resulted in a particle size of <15μm at an average grain size of 10nm. Similar results in the Simoloyer were achieved after 72 ks under higher powder load. The SPS-sintered parts were investigated by hardness, the characterization of the powder is given by XRD, SEM and laser diffraction.

机译：就高温下的耐磨性而言，高速钢是最优越的工具钢。为了进一步改善材料性能，已通过行星式球磨机（中等动力学系统）和Simoloyer（高动力学系统）对常规HSS粉（<76μm）进行了机械研磨，以减小粒径，尤其是粉末材料的粒度。火花等离子烧结已完成固结，以保持材料的精细结构。在行星式球磨机中，将25 g的HSS粉末研磨720 ks（200h），并在平均粒径10nm时产生小于15μm的粒径。在较高的粉末负载下72 ks后，在Simoloyer中也获得了类似的结果。通过硬度研究了SPS烧结零件，通过XRD，SEM和激光衍射对粉末进行了表征。

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《2003 International Conference on Powder Metallurgy amp; Particulate Materials; Jun 8-12, 2003; Las Vegas, NV》|2003年|p.79-95|共17页
会议地点 Las Vegas NV(US)
作者
H. Zoz; K. Ameyama; S. Umekawa; H. Ren; D. Jaramillo V.;
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Zoz GmbH, D-57482 Wenden, Germany;

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正文语种 eng
中图分类 Tf;
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1. Alternative Mechanical Milling routes for grain-refinement of conventional High-Speed Steel powder for later consolidation by SPS [J] . Zoz H., Ameyama K., Umekawa S. Metall . 2003,第10期

机译：替代机械铣削路线以细化常规高速钢粉的晶粒，然后通过SPS进行固结
2. An Alternative Route to the Consolidation of Mechanically Alloyed Aluminum Powder [J] . J. A. Rodriguez, J. M. Gallardo, E. J. Herrera Materials Transactions, JIM . 1995,第2期

机译：机械合金化铝粉固结的替代方法
3. Microstructure and mechanical properties of M62 high-speed steel powder consolidated by high-temperature gas extrusion [J] . D. Sivaprahasam, S. B. Chandrasekhar, K. Murugan, Materials Research Innovations . 2020,第1期

机译：高温气体挤压固结的M62高速钢粉的组织和力学性能
4. Alternative Mechanical Milling Routes For Grain-Refinement Of Conventional High-Speed Steel Powder For Later Consolidation By Sps [C] . H. Zoz, K. Ameyama, S. Umekawa, International conference on powder metallurgy particulate materials . 2003

机译：常规高速钢粉晶粒细化的替代机械研磨路线，以便通过SP巩固
5. Phase Evolution in Cu-Zn Powder Mixtures Subjected to Ultrasonic Powder Consolidation and Ball Milling [D] . Houshmand, Azin. 2016

机译：超声粉末固结和球磨作用下Cu-Zn粉末混合物的相演化
6. Spark Plasma Co-Sintering of Mechanically Milled Tool Steel and High Speed Steel Powders [O] . Massimo Pellizzari, Anna Fedrizzi, Mario Zadra 2016

机译：机械铣削工具钢和高速钢粉的火花等离子体共烧结
7. Spark Plasma Co-Sintering of Mechanically Milled Tool Steel and High Speed Steel Powders [O] . Massimo Pellizzari, Anna Fedrizzi, Mario Zadra 2016

机译：机械研磨工具钢和高速钢粉的放电等离子共烧结
8. Mechanical Properties of a Shock Consolidated Steel Powder [R] . Kasiraj, P., Vreeland, T. S. R. B., Ahrens, T. J. 1983

机译：冲击固结钢粉的力学性能

Alternative Mechanical Milling Routes For Grain-Refinement Of Conventional High-Speed Steel Powder For Later Consolidation By Sps

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