Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication

A new silver-based composite material with an addition of 1 and 10 mass % of rhenium, for prospective application in the production of electric contacts, has been presented. The paper shows results of the research and experimental works aimed at developing technology for fabrication of semiproducts...

Full description

Bibliographic Details
Main Authors: Kołacz D., Księżarek S., Woch M., Karwan-Baczewska J., Staszewski M., Rudnicki K., Borkowski P., Sienicki A.
Format: Article
Language:English
Published: Polish Academy of Sciences 2016-12-01
Series:Archives of Metallurgy and Materials
Subjects:
Online Access:http://www.degruyter.com/view/j/amm.2016.61.issue-4/amm-2016-0298/amm-2016-0298.xml?format=INT
id doaj-87152137cbea472f8688650defde7e70
record_format Article
spelling doaj-87152137cbea472f8688650defde7e702020-11-25T03:03:21ZengPolish Academy of SciencesArchives of Metallurgy and Materials2300-19092016-12-016141847185210.1515/amm-2016-0298amm-2016-0298Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts FabricationKołacz D.0Księżarek S.1Woch M.2Karwan-Baczewska J.3Staszewski M.4Rudnicki K.5Borkowski P.6Sienicki A.7 Institute of Non-Ferous Metals, 5 Sowińskiego Str., 44-100 Gliwice, Poland Institute of Non-Ferous Metals, 5 Sowińskiego Str., 44-100 Gliwice, Poland Institute of Non-Ferous Metals, 5 Sowińskiego Str., 44-100 Gliwice, Poland AGH University of Science and Technology, Faculty of Non-Ferous Metals, Al. A. Mickiewicza 30, 30-059 Kraków, Poland Institute of Non-Ferous Metals, 5 Sowińskiego Str., 44-100 Gliwice, Poland Institute of Non-Ferous Metals, 5 Sowińskiego Str., 44-100 Gliwice, Poland Lodz University of Technology, Department of Electrical Apparatus, 18/22 B. Stefanowskiego Str., 90-924 Łódź, Poland Lodz University of Technology, Department of Electrical Apparatus, 18/22 B. Stefanowskiego Str., 90-924 Łódź, PolandA new silver-based composite material with an addition of 1 and 10 mass % of rhenium, for prospective application in the production of electric contacts, has been presented. The paper shows results of the research and experimental works aimed at developing technology for fabrication of semiproducts (wires and bimetallic contacts) by classical powder metallurgy methods and by a method enabling production of nanocrystalline composite. At each stage of the processes involved, physical, mechanical and technological properties of the materials were investigated. Particular attention was given to final products and semiproducts prepared in a form of bimetallic contacts. It was found that the composite with nanocrystalline structure may be a good material for ecological electric contacts.http://www.degruyter.com/view/j/amm.2016.61.issue-4/amm-2016-0298/amm-2016-0298.xml?format=INTelectric contactcompositenanocrystallinecontact materialsarc erosionexamination methodselectric properties
collection DOAJ
language English
format Article
sources DOAJ
author Kołacz D.
Księżarek S.
Woch M.
Karwan-Baczewska J.
Staszewski M.
Rudnicki K.
Borkowski P.
Sienicki A.
spellingShingle Kołacz D.
Księżarek S.
Woch M.
Karwan-Baczewska J.
Staszewski M.
Rudnicki K.
Borkowski P.
Sienicki A.
Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
Archives of Metallurgy and Materials
electric contact
composite
nanocrystalline
contact materials
arc erosion
examination methods
electric properties
author_facet Kołacz D.
Księżarek S.
Woch M.
Karwan-Baczewska J.
Staszewski M.
Rudnicki K.
Borkowski P.
Sienicki A.
author_sort Kołacz D.
title Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
title_short Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
title_full Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
title_fullStr Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
title_full_unstemmed Nanocrystalline Ag-Re Composite as a Potential Material for Electric Contacts Fabrication
title_sort nanocrystalline ag-re composite as a potential material for electric contacts fabrication
publisher Polish Academy of Sciences
series Archives of Metallurgy and Materials
issn 2300-1909
publishDate 2016-12-01
description A new silver-based composite material with an addition of 1 and 10 mass % of rhenium, for prospective application in the production of electric contacts, has been presented. The paper shows results of the research and experimental works aimed at developing technology for fabrication of semiproducts (wires and bimetallic contacts) by classical powder metallurgy methods and by a method enabling production of nanocrystalline composite. At each stage of the processes involved, physical, mechanical and technological properties of the materials were investigated. Particular attention was given to final products and semiproducts prepared in a form of bimetallic contacts. It was found that the composite with nanocrystalline structure may be a good material for ecological electric contacts.
topic electric contact
composite
nanocrystalline
contact materials
arc erosion
examination methods
electric properties
url http://www.degruyter.com/view/j/amm.2016.61.issue-4/amm-2016-0298/amm-2016-0298.xml?format=INT
work_keys_str_mv AT kołaczd nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT ksiezareks nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT wochm nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT karwanbaczewskaj nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT staszewskim nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT rudnickik nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT borkowskip nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
AT sienickia nanocrystallineagrecompositeasapotentialmaterialforelectriccontactsfabrication
_version_ 1724686197910929408