Add to ORKGThe microstructure and mechanical properties of an API 5CT L80 casing grade steel (0.24C 0,4Si 1.4Mn CrNiCu) have been studied after performing weld thermal simulations (with and without subsequent tempering) applying a thermal cycle weld simulator. Specimens were subjected to three different peak temperatures (1300 °C, 1150 °C, 950 °C) and five different cooling rates (1 °C/s, 3 °C/s, 5 °C/s, 10 °C/s, 60 °C/s) through the austenite transformation temperature range. Based on the microstructure, hardness values, and toughness properties of the simulated specimens, thermal cycles were selected and recommended for welding of L80 components by the SAG-FW (shielded active gas forge welding) method
Two post-weld heat treatment cycles of one-step normalizing and two-step quenching and tempering hav...
Low carbon micro-alloyed steels are used for linepipe applications as they provide a good combinatio...
It has become common for the welding of different steel elements to go through a simulation process....
The microstructure and mechanical properties of an API 5CT L80 casing grade steel (0.24C 0,4Si 1.4Mn...
In this thesis the effect of single and multipass welding on the microstructure and hardness of X65 ...
Single and double cycle simulation techniques have been employed to investigate the structure and p...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
Proper selection of welding parameters for getting excellent weld is a challenge. HAZ simulation he...
For VM12-SHC 11-12 wt. % Cr steel, there have been no systematic investigations to define the region...
The weldability assets of ASTM A 240 S41500 (ASTM A 240/A 240M) martensitic stainless steel are pres...
This work is focused on mechanical properties and microstructure of heat affected zone (HAZ) of stee...
In the present study, the investigation of weldability of ultra-high strength steel has been present...
The thermal cycles associated to friction stir welding and processing produce a wide range of micros...
Metallic materials undergo many metallurgical changes when subjected to welding thermal cycles, and ...
Abstract: The Shielded Active Gas Forge Welding (SAG-FW) method is a solid-state welding technique i...
Two post-weld heat treatment cycles of one-step normalizing and two-step quenching and tempering hav...
Low carbon micro-alloyed steels are used for linepipe applications as they provide a good combinatio...
It has become common for the welding of different steel elements to go through a simulation process....
The microstructure and mechanical properties of an API 5CT L80 casing grade steel (0.24C 0,4Si 1.4Mn...
In this thesis the effect of single and multipass welding on the microstructure and hardness of X65 ...
Single and double cycle simulation techniques have been employed to investigate the structure and p...
This paper presents weld thermal cycle simulation of high strength steel S960QL, and describes influ...
Proper selection of welding parameters for getting excellent weld is a challenge. HAZ simulation he...
For VM12-SHC 11-12 wt. % Cr steel, there have been no systematic investigations to define the region...
The weldability assets of ASTM A 240 S41500 (ASTM A 240/A 240M) martensitic stainless steel are pres...
This work is focused on mechanical properties and microstructure of heat affected zone (HAZ) of stee...
In the present study, the investigation of weldability of ultra-high strength steel has been present...
The thermal cycles associated to friction stir welding and processing produce a wide range of micros...
Metallic materials undergo many metallurgical changes when subjected to welding thermal cycles, and ...
Abstract: The Shielded Active Gas Forge Welding (SAG-FW) method is a solid-state welding technique i...
Two post-weld heat treatment cycles of one-step normalizing and two-step quenching and tempering hav...
Low carbon micro-alloyed steels are used for linepipe applications as they provide a good combinatio...
It has become common for the welding of different steel elements to go through a simulation process....
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