The formation of the high-melting TiN-Ti composites in the pulse plasma

Michalski, A. ; Sokołowska, A.
Springer
Published 1985
ISSN:
1573-4803
Source:
Springer Online Journal Archives 1860-2000
Topics:
Mechanical Engineering, Materials Science, Production Engineering, Mining and Metallurgy, Traffic Engineering, Precision Mechanics
Notes:
Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
Type of Medium:
Electronic Resource
URL:
_version_ 1798296731028291584
autor Michalski, A.
Sokołowska, A.
autorsonst Michalski, A.
Sokołowska, A.
book_url http://dx.doi.org/10.1007/BF00555292
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLM194580490
issn 1573-4803
journal_name Journal of materials science
materialart 1
notes Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
package_name Springer
publikationsjahr_anzeige 1985
publikationsjahr_facette 1985
publikationsjahr_intervall 8014:1985-1989
publikationsjahr_sort 1985
publisher Springer
reference 20 (1985), S. 1842-1846
search_space articles
shingle_author_1 Michalski, A.
Sokołowska, A.
shingle_author_2 Michalski, A.
Sokołowska, A.
shingle_author_3 Michalski, A.
Sokołowska, A.
shingle_author_4 Michalski, A.
Sokołowska, A.
shingle_catch_all_1 Michalski, A.
Sokołowska, A.
The formation of the high-melting TiN-Ti composites in the pulse plasma
Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
1573-4803
15734803
Springer
shingle_catch_all_2 Michalski, A.
Sokołowska, A.
The formation of the high-melting TiN-Ti composites in the pulse plasma
Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
1573-4803
15734803
Springer
shingle_catch_all_3 Michalski, A.
Sokołowska, A.
The formation of the high-melting TiN-Ti composites in the pulse plasma
Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
1573-4803
15734803
Springer
shingle_catch_all_4 Michalski, A.
Sokołowska, A.
The formation of the high-melting TiN-Ti composites in the pulse plasma
Abstract The composite layers of titanium and its high-melting compounds (TiN x , TiN x C y ) were crystallized from the pulse plasma on steel at a temperature ⩽500 K. It was found that the electrode tip was a source of the composite metallic part and that the electrode lateral surfaces covered by titanium compounds yielded vapours of the elements being components of the compound. These vapours were the source of the second composite part. Considering that the type of crystallized layer is determined by temperature and pressure in the nucleation region, one can assume that the TiN nucleation takes place in this very plasma, in the temperature range 1800 to 2700 K.
1573-4803
15734803
Springer
shingle_title_1 The formation of the high-melting TiN-Ti composites in the pulse plasma
shingle_title_2 The formation of the high-melting TiN-Ti composites in the pulse plasma
shingle_title_3 The formation of the high-melting TiN-Ti composites in the pulse plasma
shingle_title_4 The formation of the high-melting TiN-Ti composites in the pulse plasma
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source_archive Springer Online Journal Archives 1860-2000
timestamp 2024-05-06T09:56:45.421Z
titel The formation of the high-melting TiN-Ti composites in the pulse plasma
titel_suche The formation of the high-melting TiN-Ti composites in the pulse plasma
topic ZL
uid nat_lic_papers_NLM194580490