The boronizing of a tungsten heavy alloy containing Ni and Fe as the major alloying elements were performed in the present study to increase its surface hardening. Pack cementation method was employed as a well-known, successful solid-state process for boronizing. The coating treatment was accomplished at different temperatures of 1000, 1050 and 1100°C for 6 and 9 hours. The formation of tungsten boride phase was confirmed, although a silicide layer covered the surface of the specimen as the outer layer. The mechanism of the formation of a multilayered surface was explained. The maximum thickness of reaction zone and surface hardness achieved in the current work were 300 µm and 2470 HV, respectively
Boronizing is a thermochemical diffusion-based process for producing iron boride layers in the surfa...
In this study, an alternative powder-pack boriding mixture containing H3BO3 as boron source was prep...
There are no single materials which can withstand all the extreme operating conditions in modern tec...
This study reports on mechanical properties of borided pure tungsten. Boronizing heat treatment was ...
Metal borides are attractive candidates for high-temperature, wear resistance, and corrosion resista...
In a variety of industrial area, hard face applications are mostly required. In order to obtain high...
A series of experiments was performed to evaluate some mechanical properties of boronized AISI W4 st...
In this study, the pack boronizing behavior of Fe-4M alloys (at.% M=W, V, Co) along with pure iron w...
Considerable R&D efforts are being carried out in order to produce materials with satisfactory r...
A technologically interesting characteristic of boriding is the production of a hard, wear-resistant...
In this study, some mechanical properties of borided AISI 51100 steel with high C concentration were...
AISI D2 is the most commonly used cold-work tool steel of its grade. It offers high hardenability, l...
WOS: 000471268800007In this study, AISI 1050 steel was boronized at temperatures of 800, 850, 900, 9...
The effect of boron powder on surface AISI W2 steel and growth kinetic of the boride layer is studie...
In this study, a substitute boriding poWder including boric acid as boron source was Prepired and em...
Boronizing is a thermochemical diffusion-based process for producing iron boride layers in the surfa...
In this study, an alternative powder-pack boriding mixture containing H3BO3 as boron source was prep...
There are no single materials which can withstand all the extreme operating conditions in modern tec...
This study reports on mechanical properties of borided pure tungsten. Boronizing heat treatment was ...
Metal borides are attractive candidates for high-temperature, wear resistance, and corrosion resista...
In a variety of industrial area, hard face applications are mostly required. In order to obtain high...
A series of experiments was performed to evaluate some mechanical properties of boronized AISI W4 st...
In this study, the pack boronizing behavior of Fe-4M alloys (at.% M=W, V, Co) along with pure iron w...
Considerable R&D efforts are being carried out in order to produce materials with satisfactory r...
A technologically interesting characteristic of boriding is the production of a hard, wear-resistant...
In this study, some mechanical properties of borided AISI 51100 steel with high C concentration were...
AISI D2 is the most commonly used cold-work tool steel of its grade. It offers high hardenability, l...
WOS: 000471268800007In this study, AISI 1050 steel was boronized at temperatures of 800, 850, 900, 9...
The effect of boron powder on surface AISI W2 steel and growth kinetic of the boride layer is studie...
In this study, a substitute boriding poWder including boric acid as boron source was Prepired and em...
Boronizing is a thermochemical diffusion-based process for producing iron boride layers in the surfa...
In this study, an alternative powder-pack boriding mixture containing H3BO3 as boron source was prep...
There are no single materials which can withstand all the extreme operating conditions in modern tec...
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