bernardirafael
Mechanical
- Aug 12, 2015
- 18
Hello,
I am performing a transient thermal analysis to identify/predict the heat affected zone dimentions. The welding is being performed on a SAE 1020 steel, using the same metal as filler material. After obtaining the welding results they will be compared to experimental ones. I've seen in a thesys that the author took into consideration that the visible HAZ temperature field for a SAE 1020 is between 1495 °C and 1148 °C. It is known that at this temperature a grain coarsened HAZ is obtained.
The question is, is that correct? Is the visible HAZ's temperature field around 1495 °C and 1148 °C? I am asking this question because it is known that the HAZ has four regions, ranging between ~727 °C up to ~1495°C for the given steel (you can check a FeC diagram to evaluate this information if needed).
If that is correct, then my analysis would be giving out good results... otherwise I am gonna have a bad time.
Thank you in advance.
I am performing a transient thermal analysis to identify/predict the heat affected zone dimentions. The welding is being performed on a SAE 1020 steel, using the same metal as filler material. After obtaining the welding results they will be compared to experimental ones. I've seen in a thesys that the author took into consideration that the visible HAZ temperature field for a SAE 1020 is between 1495 °C and 1148 °C. It is known that at this temperature a grain coarsened HAZ is obtained.
The question is, is that correct? Is the visible HAZ's temperature field around 1495 °C and 1148 °C? I am asking this question because it is known that the HAZ has four regions, ranging between ~727 °C up to ~1495°C for the given steel (you can check a FeC diagram to evaluate this information if needed).
If that is correct, then my analysis would be giving out good results... otherwise I am gonna have a bad time.
Thank you in advance.
