The paper deals with the vibration effect on the porous structure of alloyed steel. It is shown that the use of vibration in this mode affects positively decreasing porosity and the nature of the pores in size distribution in the ingot. Mechanical properties of the ingot, such as tensile strength and toughness, after the vibration action are also improved
Dampening of shock waves is of interest in many applications. The material studied is a low carbon s...
This paper presents some considerations regarding the diffusion processes which occur during the sul...
The microstructure of some components which operate in high-temperature conditions (e.g. boiler comp...
The paper deals with the vibration effect on the porous structure of alloyed steel. It is shown that...
There is considered the impact of the vibration mode on the steel 30CrMnSiNiMoA structure after the ...
Translated from Russian (Report of the Institute of Casting, National Academy of Sciences, Kiev, 199...
Acoustic steel processing in an ingot mould may be the final stage in the process of quality improve...
Grain refinement is a critical method to improve the mechanical and anti-fatigue properties of casti...
The effect of these large shrink cavities on mechanical properties could be easily calculated using ...
The aspects related to the frequency dependence of the elastic properties of porous materials have b...
Discussion on the results of industrial tests of sound amplification of high-carbon steel in a 130 k...
Vibration treatment of solidifying metals results in improvement in the ingot structure. There is a ...
Today’s industry aims at such situation, where number of defective products, so called defects shall...
Porous metal materials are widely used in noise control with high sound pressure applications such a...
The damping capacities of a few porous structures are studied. Damping in porous structures is enhan...
Dampening of shock waves is of interest in many applications. The material studied is a low carbon s...
This paper presents some considerations regarding the diffusion processes which occur during the sul...
The microstructure of some components which operate in high-temperature conditions (e.g. boiler comp...
The paper deals with the vibration effect on the porous structure of alloyed steel. It is shown that...
There is considered the impact of the vibration mode on the steel 30CrMnSiNiMoA structure after the ...
Translated from Russian (Report of the Institute of Casting, National Academy of Sciences, Kiev, 199...
Acoustic steel processing in an ingot mould may be the final stage in the process of quality improve...
Grain refinement is a critical method to improve the mechanical and anti-fatigue properties of casti...
The effect of these large shrink cavities on mechanical properties could be easily calculated using ...
The aspects related to the frequency dependence of the elastic properties of porous materials have b...
Discussion on the results of industrial tests of sound amplification of high-carbon steel in a 130 k...
Vibration treatment of solidifying metals results in improvement in the ingot structure. There is a ...
Today’s industry aims at such situation, where number of defective products, so called defects shall...
Porous metal materials are widely used in noise control with high sound pressure applications such a...
The damping capacities of a few porous structures are studied. Damping in porous structures is enhan...
Dampening of shock waves is of interest in many applications. The material studied is a low carbon s...
This paper presents some considerations regarding the diffusion processes which occur during the sul...
The microstructure of some components which operate in high-temperature conditions (e.g. boiler comp...