Powder technology for manufacturing compact blanks of Ti – Nb – Ta, Ti – Nb – Zr alloys

IF 1.5 Q3 Materials Science

Nonferrous Metals Pub Date : 2018-12-28 DOI:10.17580/NFM.2018.02.06

A. Kasimtsev, Tula Russia Metsintez Llc, S. Yudin, S. Volodko, A. Alpatov

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引用次数: 2

Abstract

Non-ferrous Metals. 2018. No. 2. pp. 29–36 16. Aksenov A. A., Mansurov Yu. N., Ivanov D. O., Reva V. P., Kadyrova D. S., Shuvatkin R. K., Kim E. D. Mechanical Alloying of Secondary Raw Material for Foam Aluminum Production. Metallurgist. 2017. Vol. 61, Iss. 5–6. pp 475–484. 17. Thermo-Calc Software. Available at:www.thermocalc. com (accessed: 23.11.2018). 18. Khansen M., Anderko K. The structures of binary alloys. Vol. 1. Translated from English. Moscow : Metallurgizdat, 1962. 608 p. 19. Mondolfo L. F. Aluminum Alloys: Structure and Properties. Butterworths. London/Boston : Butterworth & Co Publishers Ltd., 1976. 971 p. 20. Moore D. M., Morris L. R. Superplastic aluminium alloy products and method of preparation. Patent UK, No. 1580281. 1978. 21. Moore D. M., Morris L. R. A new superplastic aluminum sheet alloy. Materials Science and Engineering. 1980. Vol. 43, No. 1. pp. 85–92. 22. Ilenko V. M. Superplasticity of eutectic alloys on the basis of aluminum-calcium system and development of materials for superplastic forming: Dissertation ... of Candidate of Engineering Sciences. Moscow : MISiS, 1985. 264 p. 23. Swaminathan K., Padmanabhan K. A. Tensile flow and fracture behaviour of a superplastic Al–Ca–Zn alloy. J. Mater. Sci. 1990. Vol. 25, No. 11. pp. 4579–4586. 24. Perez-Prado M. T., Cristina M. C., Ruano O. A., Gonza G. Microstructural evolution of annealed Al–5%Ca–5% Zn sheet alloy. J. Mater. Sci. 1997. Vol. 32. pp. 1313–1318. 25. Kono N., Tsuchida Y., Muromachi S., Watanabe H. Study of the AlCaZn ternary phase diagram. Light Metals. 1985. Vol. 35. pp. 574–580. 26. Belov N. A., Naumova E. A., Akopyan T. K. Eutectic alloys based on aluminum: new alloying systems. Moscow : “Ore and Metals” Publishing House, 2016. 256 p. 27. Rudnev V. S., Yarovaya T. P., Nedozorov P. M., Mansurov Y. N. Wear-resistant oxide coatings on aluminum alloy formed in borate and silicate aqueous electrolytes by plasma electrolytic oxidation. Protection of Metals and Physical Chemistry of Surfaces. 2017. Vol. 53, Iss. 3. pp. 466–474. 28. Rudnev V. S., Nedozorov P. M., Yarovaya T. P., Mansurov Yu. N. Local plasma and electrochemical oxygenating on the example of AMg5 (АМг5) alloy. Tsvetnye Metally. 2017. No. 1. pp. 59–64. DOI: 10.17580/tsm.2017.01.10 NFM

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制造Ti–Nb–Ta、Ti–Nb-Zr合金致密坯料的粉末技术

有色金属。2018年第2名。第29-3616页。Aksenov A.A.，Mansurov Yu。N.、Ivanov D.O.、Reva V.P.、Kadyrova D.S.、Shuvatkin R.K.、Kim E.D.泡沫铝生产用二次原料的机械合金化。冶金学家。2017年，第61卷，Iss。第475–484页，第5–6页。17.Thermo Calc软件。网址：www.therocalc.com（访问时间：2018年11月23日）。Khansen M.，Anderko K.二元合金的结构。第1卷。翻译自英语。莫斯科：冶金工业，1962年。608，第19页。Mondolfo L.F.铝合金：结构与性能。巴特沃斯。伦敦/波士顿：巴特沃斯出版社有限公司，1976年。971，第20页。Moore D.M.，Morris L.R.超塑铝合金产品和制备方法。英国专利号1580281。1978年。Moore D.M.，Morris L.R.一种新型超塑铝片合金。材料科学与工程。1980年，第43卷，第1期。第85-92页。22.Ilenko V.M.基于铝钙体系的共晶合金的超塑性和超塑成形材料的发展：论文。。。工程科学候选人。莫斯科：MISiS，1985年。264第23页。Swaminathan K.，Padmanabhan K.A.超塑Al–Ca–Zn合金的拉伸流动和断裂行为。J.Mater。科学。1990年，第25卷，第11期。第4579-4586页。24.Perez Prado M.T.，Cristina M.C.，Ruano O.A.，Gonza G.退火Al–5%Ca–5%Zn板合金的微观结构演变。J.Mater。科学。1997年，第32卷。第1313-1318页。25.Kono N.，Tsuchida Y.，Muromachi S.，Watanabe H.AlCaZn三元相图的研究。轻金属。1985年，第35卷。第574-580页。26.Belov N.A.，Naumova E.A.，Akopyan T.K.基于铝的共晶合金：新的合金体系。莫斯科：《矿石与金属》出版社，2016年。256第27页。Rudnev V.S.、Yarovaya T.P.、Nedozorov P.M.、Mansurov Y.N.通过等离子体电解氧化在硼酸盐和硅酸盐水电解质中形成的铝合金耐磨氧化物涂层。金属保护和表面物理化学。2017年第53卷。3，第466–474页。28.Rudnev V.S.、Nedozorov P.M.、Yarovaya T.P.、Mansurov Yu。N.AMg5（АМΓ5）合金的局部等离子体和电化学充氧。Tsvetnye Metalli。2017年第1名。第59–64页。DOI:10.17580/tsm.2017.01.10 NFM

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来源期刊

Nonferrous Metals METALLURGY & METALLURGICAL ENGINEERING-

CiteScore

1.50

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0.00%

发文量

期刊介绍： Its thematic plan covers all directions of scientific and technical development in non-ferrous metallurgy. The main journal sections include scientific-technical papers on heavy and light non-ferrous metals, noble metals and alloys, rare and rare earth metals, carbon materials, composites and multi-functional coatings, radioactive elements, nanostructured metals and materials, metal forming, automation etc. Theoretical and practical problems of ore mining and mineral processing, production and processing of non-ferrous metals, complex usage of ores, economics and production management, automation of metallurgical processes are widely observed in this journal. "Non-ferrous Metals" journal publishes the papers of well-known scientists and leading metallurgists, elucidates important scientific-technical problems of development of concentrating and metallurgical enterprises, scientific-research institutes and universities in the field of non-ferrous metallurgy, presents new scientific directions and technical innovations in this area. The readers can find in this journal both the articles with applied investigations and with results of fundamental researches that make the base for new technical developments. Publishing according to the approach APC (Article processing charge).