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Joining silicon carbide to austenitic stainless steel through diffusion welding; Stellingen behorende bij het proefschrift

Abstract

In this thesis, the results are presented of a study dealing with joining silicon carbide to austenitic stainless steel AIS316 by means of diffusion welding. Welding experiments were carried out without and with the use of a metallic intermediate, like copper, nickel and copper-nickel alloys at various conditions of process temperature, process time, mechanical pressure and interlayer thickness. Most experiments were carried out in high vacuum. For reasons of comparison, however, some experiments were also carried out in a gas shielded environment of 95 vol.% Ar and 5 vol.% H2.
Publication Date:
Jan 19, 1993
Product Type:
Thesis/Dissertation
Subject:
36 MATERIALS SCIENCE; SILICON CARBIDES; DIFFUSION WELDING; STAINLESS STEELS
OSTI ID:
1179217
Research Organizations:
Technische Univ., Delft (Netherlands)
Country of Origin:
Netherlands
Language:
English, Dutch
Submitting Site:
ECN
Size:
186 p.
Announcement Date:
May 14, 2015

Citation Formats

Krugers, Jan-Paul. Joining silicon carbide to austenitic stainless steel through diffusion welding; Stellingen behorende bij het proefschrift. Netherlands: N. p., 1993. Web.
Krugers, Jan-Paul. Joining silicon carbide to austenitic stainless steel through diffusion welding; Stellingen behorende bij het proefschrift. Netherlands.
Krugers, Jan-Paul. 1993. "Joining silicon carbide to austenitic stainless steel through diffusion welding; Stellingen behorende bij het proefschrift." Netherlands.
@misc{etde_1179217,
title = {Joining silicon carbide to austenitic stainless steel through diffusion welding; Stellingen behorende bij het proefschrift}
author = {Krugers, Jan-Paul}
abstractNote = {In this thesis, the results are presented of a study dealing with joining silicon carbide to austenitic stainless steel AIS316 by means of diffusion welding. Welding experiments were carried out without and with the use of a metallic intermediate, like copper, nickel and copper-nickel alloys at various conditions of process temperature, process time, mechanical pressure and interlayer thickness. Most experiments were carried out in high vacuum. For reasons of comparison, however, some experiments were also carried out in a gas shielded environment of 95 vol.% Ar and 5 vol.% H2.}
place = {Netherlands}
year = {1993}
month = {Jan}
}