Powder metallurgy of beryllium: The developments of the national scientific center -Khar’kov physicotechnical instituteReportar como inadecuado

Powder metallurgy of beryllium: The developments of the national scientific center -Khar’kov physicotechnical institute - Descarga este documento en PDF. Documentación en PDF para descargar gratis. Disponible también para leer online.

Powder Metallurgy and Metal Ceramics

, Volume 45, Issue 3–4, pp 207–213

Received: 06 April 2005


For the first time in the production of construction beryllium an integrated technology for the production of a new generation of high-purity isotropic materials has been developed and mastered. The technology combines processes of vacuum distillation of the metal, gas flow atomization of a melt, specialized processing of the powder prior to densification and hot isostatic pressing. A technology for the production of spherical powders of beryllium and beryllium-based alloys by atomization of a melt is also developed and employed for the first time. A technology is developed and optimal conditions of isostatic pressing of spherical powders are determined. Isotropic beryllium with high physico-mechanical characteristics is obtained. The properties of the materials thus obtained are studied. The strength of the new materials is 20%, and their plasticity two to three times greater, than commercial beryllium. It is shown that the high purity of the initial powder, the cellular structure, uniform distribution, and dispersity of the particles of beryllium oxide and segregations of secondary phases are the principal factors that govern the level of the properties of compact beryllium materials.

Keywordsphysical metallurgy of beryllium powder technology for production of beryllium atomization of a melt hot isostatic pressing physico-mechanical properties isotropicity cellular structure 

Translated from Poroshkaya Metallurgiya,Nos. 3–4448, pp. 118–125, March—April, 2006.

Download to read the full article text

Autor: A. V. Babun - I. M. Neklyudov - V. M. Azhazha - K. V. Kovtun - A. A. Vasil’ev - G. G. Bobylev

Fuente: https://link.springer.com/

Documentos relacionados