Add to ORKGThis paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of high-alloy steel P 91 and their dependence on cooling time from 800 to 500 °C. Results were obtained by measuring hardness HV 1 and by experimental testing of Charpy notched specimens. Metallographic analysis of samples was performed on scanning electronic microscope
In the present study, the investigation of weldability of ultra-high strength steel has been present...
The paper presents a short description and overview of the weld thermal cycle simulation methods. An...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
The paper deals with research into dependence of hardness and impact energy of thermal cycle simulat...
The paper deals with research into dependence of hardness and impact energy of thermal cycle simulat...
This paper presents accelerated weldability investigation after weld thermal cycle simulation of TSt...
In the process of testing real components exposed to elevated temperature, it is not possible to neg...
In the process of testing real components exposed to elevated temperature, it is not possible to neg...
The paper presents results of impact energy effects on real welded specimens of fine-grained high-st...
The paper presents results of impact energy effects on real welded specimens of fine-grained high-st...
In the present study, the investigation of weldability of ultra-high strength steel has been present...
The paper presents a short description and overview of the weld thermal cycle simulation methods. An...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper elaborates results of hardness and impact energy of thermal cycle simulated specimens of ...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
The paper deals with research into dependence of hardness and impact energy of thermal cycle simulat...
The paper deals with research into dependence of hardness and impact energy of thermal cycle simulat...
This paper presents accelerated weldability investigation after weld thermal cycle simulation of TSt...
In the process of testing real components exposed to elevated temperature, it is not possible to neg...
In the process of testing real components exposed to elevated temperature, it is not possible to neg...
The paper presents results of impact energy effects on real welded specimens of fine-grained high-st...
The paper presents results of impact energy effects on real welded specimens of fine-grained high-st...
In the present study, the investigation of weldability of ultra-high strength steel has been present...
The paper presents a short description and overview of the weld thermal cycle simulation methods. An...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...