The development of high-strength superductile hardmetals and tools based on these materials under ultrahigh isostatic pressure

Khvostantsev L. G.; Tsiok O. B.; Ustinov I. V.; Brazhkin V. V.

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The development of high-strength superductile hardmetals and tools based on these materials under ultrahigh isostatic pressure

机译：在超高等静压下开发基于这些材料的高强度超延性硬质合金和工具

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This work was designed to study compressibility behavior of nanopowders of various materials under ultrahigh cold isostatic pressing (CIP) in pure hydrostatic conditions. The results indicate that creation of hardmetals for large-size tools by high-pressure consolidation of nanoparticles is not a very promising approach. An alternative technique for producing hardmetals with the disperse substructure of carbide grains at ultrahigh pressure (CIP) in pure hydrostatic conditions has been developed. The new hardmetals thus obtained have dual properties of high strength and unique superductility under compression. The large-size tools based on these alloys have commercially demonstrated a record-breaking impact resistance an order of magnitude higher than that of the currently available standard hard-alloy tools. (C) 2015 Elsevier Ltd. All rights reserved.

机译：这项工作旨在研究纯静水条件下在超高冷等静压（CIP）下各种材料的纳米粉体的可压缩性。结果表明，通过纳米颗粒的高压固结生成用于大型工具的硬质合金并不是一种非常有前途的方法。已开发出在纯静液压条件下在超高压（CIP）下生产具有碳化物晶粒分散亚结构的硬质合金的替代技术。由此获得的新的硬质合金具有高强度和在压缩下独特的超延展性的双重特性。商业上已经证明了基于这些合金的大型工具的创纪录的抗冲击性，比当前可用的标准硬质合金工具高出一个数量级。（C）2015 Elsevier Ltd.保留所有权利。

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《International Journal of Refractory Metals & Hard Materials》 |2016年第null期|共6页
作者
Khvostantsev L. G.; Tsiok O. B.; Ustinov I. V.; Brazhkin V. V.;
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正文语种 eng
中图分类有色金属及其合金;
关键词
Nanoparticles; Hardmetals; High isostatic pressing; Dislocations; Super ductility;

机译：纳米粒子;重金属;高等静压;位错;超韧性;

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1. The development of high-strength superductile hardmetals and tools based on these materials under ultrahigh isostatic pressure [J] . Khvostantsev L. G., Tsiok O. B., Ustinov I. V., International Journal of Refractory Metals & Hard Materials . 2016,第Null期

机译：在超高等静压下开发基于这些材料的高强度超延性硬质合金和工具
2. Optimum selection of tool materials for machining of high-strength steels based on fuzzy comprehensive evaluation method [J] . Xu Qingzhong, Zhao Jun, Ai Xing, Proceedings of the Institution of Mechanical Engineers, Part B. Journal of engineering manufacture . 2019,第1期

机译：基于模糊综合评价方法的高强度钢加工工具材料的最佳选择
3. Superior transport J(c) obtained in in-situ MgB2 wires by tailoring the starting materials and using a combined cold high pressure densification and hot isostatic pressure treatment [J] . Jie Hyunseock, Qiu Wenbin, Billah Motasim, Scripta materialia . 2017,第期

机译：通过剪裁原料和使用组合的冷高压致密化和热等静压处理，在原位MGB2线中获得的优质运输j（c）
4. ISOSTATIC PRESSURE OF HIGH-STRENGTH TITANIUM ALLOYS [C] . G.A. BOCHVAR, N.V. YANOVSKAYA Titanium'99: Science and Technology . 2000

机译：高强度钛合金的静压力
5. High Pressure Enabled Synthesis of Ultrahigh Aspect Ratio Materials for Superconductive and Optoelectronic Applications [D] . Bischof, Jesse L. 2018

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6. Fabrication and Multiscale Structural Properties of Interconnected Porous Biomaterial for Tissue Engineering by Freeze Isostatic Pressure (FIP) [O] . Mythili Prakasam, Ali Chirazi, Grzegorz Pyka, 2018

机译：冷冻等静压（FIP）制备的组织工程用互连生物材料的制备和多尺度结构特性
7. Development of ultrahigh-temperature oxidation resistant high-strength C/C composite material. [O] . Susumu NAKAI, Tsuneo KINJO, Akinori MATSUURA, 1993

机译：超高温氧化耐高强度C / C复合材料的研制。

The development of high-strength superductile hardmetals and tools based on these materials under ultrahigh isostatic pressure

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