The work deals with the investigation of the effects of vacuum degassing and decarburization in high alloyed stainless steel. The reason for this is to increase corrosion resistance and mechanical properties. The theoretical part is devoted to the analysis of options to reduce carbon, nitrogen, hydrogen and manganese at atmospheric pressure and in vacuum. In experimental part there is the description of melting, calculation of conditions facilitating reduction of oxide inclusions as a function of the gas pressure in the furnace and the evaluation of the influence of vacuum on the content reduction of carbon, nitrogen and manganese
With the progress of high alloy steelmaking processes, it is essential to minimize the loss of valua...
The potential of thermal treatment at intermediate temperatures in a vacuum as a means of enriching ...
The importance of a good vacuum for brazing Chromium containing alloys on stainless steel is well kn...
Stainless steel family grades are very famous for their combined corrosion resistance and high mecha...
Vacuum metallurgical processes are necessary for the production of steel grades with high quality st...
Deoxidation of steel with carbon under reduced pressure is often used for increasing the steel purit...
Chromium is a high value metal and the retention of the same during the refining of high carbon ferr...
Vacuum levitation experiments have been conducted to study the decarburization kinetics of levitated...
During the production of steel, a certain proportion of non-metallic inclusions always arises, which...
A horizontal tube furnace was used to study a decarburization of steel (i.e. carbonyl iron) containi...
As part of the economy, metallurgy must address the problem of product quality in all aspects, espe...
Application of low carbon steel and ultra-low carbon (ULC) steel has been improved signi...
The carbon content of high carbon ferroalloy melts can be reduced by a vacuum treatment. Carbon and ...
Chemical vapour deposition of chromium on the surface of low-carbon iron alloys has been investigate...
There the purpose are to generalize by theory, to develop the hew dephosphorization manner of high-a...
With the progress of high alloy steelmaking processes, it is essential to minimize the loss of valua...
The potential of thermal treatment at intermediate temperatures in a vacuum as a means of enriching ...
The importance of a good vacuum for brazing Chromium containing alloys on stainless steel is well kn...
Stainless steel family grades are very famous for their combined corrosion resistance and high mecha...
Vacuum metallurgical processes are necessary for the production of steel grades with high quality st...
Deoxidation of steel with carbon under reduced pressure is often used for increasing the steel purit...
Chromium is a high value metal and the retention of the same during the refining of high carbon ferr...
Vacuum levitation experiments have been conducted to study the decarburization kinetics of levitated...
During the production of steel, a certain proportion of non-metallic inclusions always arises, which...
A horizontal tube furnace was used to study a decarburization of steel (i.e. carbonyl iron) containi...
As part of the economy, metallurgy must address the problem of product quality in all aspects, espe...
Application of low carbon steel and ultra-low carbon (ULC) steel has been improved signi...
The carbon content of high carbon ferroalloy melts can be reduced by a vacuum treatment. Carbon and ...
Chemical vapour deposition of chromium on the surface of low-carbon iron alloys has been investigate...
There the purpose are to generalize by theory, to develop the hew dephosphorization manner of high-a...
With the progress of high alloy steelmaking processes, it is essential to minimize the loss of valua...
The potential of thermal treatment at intermediate temperatures in a vacuum as a means of enriching ...
The importance of a good vacuum for brazing Chromium containing alloys on stainless steel is well kn...