Szczegóły publikacji

Opis bibliograficzny

High strength, high conductivity and microstructure of nanostructured $Cu-Ag$ wires / Artur KAWECKI, Tadeusz KNYCH, Eliza SIEJA-SMAGA, Andrzej MAMALA, Paweł KWAŚNIEWSKI, Grzegorz KIESIEWICZ, Beata SMYRAK // W: EMC 2013 : European Metallurgical Conference : June 23–26, Weimar, Germany : proceedings. Vol. 1, Copper ; Precious Metals ; Waste Effluent Treatment/Biohydrometallurgical Applications ; Process Metallurgy ; Bridging Non-Ferrous and Ferrous Metallurgy / GDMB Society for Mining, Metallurgy, Resource and Environmental Technology. — Clausthall-Zellerfeld : GDMB, cop. 2013. — Na okł. dod.: Non-ferrous metals for the sustainable development in our world : using resources efficiency, saving energy and protecting the environment. — ISBN: 978-3-940276-49-0. — S. 55–68. — Bibliogr. s. 67–68, Abstr.

Autorzy (7)

Słowa kluczowe

high strength drawing silver-copper alloys continuous casting microwires filamentary microcomposite nano structure high conductivity

Dane bibliometryczne

ID BaDAP	74583
Data dodania do BaDAP	2013-07-19
Rok publikacji	2013
Typ publikacji	materiały konferencyjne (aut.)
Otwarty dostęp
Konferencja	European Metallurgical Conference

Abstract

In the paper are presented chosen own research results on modeling composite filamentary nanostructure Cu-Ag alloys with silver addition up to 15 % mass. Manufacturing technology this kind of composites is using properties of binary system Cu-Ag and bases on variable solubility of silver on copper and copper on silver in range of solid solutions. Suitable quantity and process sequence of cold plastic working and heat treatment type solubility-precipitate allows to obtain wires constituted from Cu and Ag fibers with nanometric cross dimensions. In the paper is presented a method of continuous casting of alloys, deformation scheme and results of research on mechanical and electrical properties of casted materials during converting them on micro wires with tensile strength higher than 1200 MPa and electrical conductivity higher than 40 MS/m. Results of structural research showing evolution of structure in researched material is presented too.

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artykuł

#72225Data dodania: 8.3.2013

Fabrication, properties and microstructures of high strength and high conductivity copper-silver wires — Otrzymywanie oraz własności i mikrostruktura wysokowytrzymałych i wysoko przewodzących drutów ze stopów $Cu-Ag$ / A. KAWECKI, T. KNYCH, E. SIEJA-SMAGA, A. MAMALA, P. KWAŚNIEWSKI, G. KIESIEWICZ, B. SMYRAK, A. Pacewicz // Archives of Metallurgy and Materials / Polish Academy of Sciences. Committee of Metallurgy. Institute of Metallurgy and Materials Science ; ISSN 1733-3490. — 2012 — vol. 57 iss. 4, s. 1261–1270. — Bibliogr. s. 1270

Szczegóły

fragment książki

#74584Data dodania: 19.7.2013

Fundamentals of a new annealability copper wire rod test (AR) / B. SMYRAK, T. KNYCH, A. MAMALA, M. WALKOWICZ, A. KAWECKI, P. KWAŚNIEWSKI, G. KIESIEWICZ // W: EMC 2013 : European Metallurgical Conference : June 23–26, Weimar, Germany : proceedings. Vol. 1, Copper ; Precious Metals ; Waste Effluent Treatment/Biohydrometallurgical Applications ; Process Metallurgy ; Bridging Non-Ferrous and Ferrous Metallurgy / GDMB Society for Mining, Metallurgy, Resource and Environmental Technology. — Clausthall-Zellerfeld : GDMB, cop. 2013. — Na okł. dod.: Non-ferrous metals for the sustainable development in our world : using resources efficiency, saving energy and protecting the environment. — ISBN: 978-3-940276-49-0. — S. 123–138. — Bibliogr. s. 137–138, Abstr.

Szczegóły