- Preheating During Welding provides the following benefits:
- Reduces the levels of thermal stress.
- Provides compensation for high heat losses.
- Minimizes the rate of weld hardening.
- Reduced porosity in the weld.
- Reduced hydrogen cracking.
- Improved microstructure of heat affected zone.
Click here to request more information or to contact this service representative in your region
THE BENEFITS OF WELD PREHEATING AND REDUCING THERMAL STRESS
| PROBLEM: |
|
Thermal Stresses Occur as Molten Weld Pools Cool
Cracking Can Occur Both During and After Welding
Colder Parent Metal Resists the Inevitable Contraction of the Weld Metal |
| SOLUTION: |
|
Preheating reduces the temperature difference between the Weld Metal and the Parent Metal and Minimizes Potential Cracking |
PRE WELD HEAT TREATING AND HIGH HEAT LOSS
| PROBLEM: |
Heavy Wall Materials and Aluminum Alloys with higher thermal conductivity can act as a heat sink, drawing heat away from a weld and cooling at an accelerated rate.
|
| SOLUTION: |
Preheat Heat treatment will reduce the cooling rate of the deposited weld material and allow a proper fusion with the parent metal
|
PRE WELD HEAT TREATMENT WILL REDUCE WELD PEROCITY
| PROBLEM: |
If moisture is present at a welded joint, the high heat of the welding arc will break the water down into its elements, hydrogen and oxygen. The hydrogen by-product easily dissolves into the weld metal and causes weld porosity during weld solidification.
|
| SOLUTION: |
|
Performing a pre weld heat treat drives away moisture from the welded joint. |
PRE WELDING HEAT TREATMENT WILL REDUCE WELD HARDENING
| PROBLEM: |
|
During and after completing of the welding process, both the weld pool and the Heat Affected Zone (HAZ) can harden and crack when cooling at a rapid pace |
| SOLUTION: |
|
By preheating the weld and the Heat Affected Zone (HAZ) the rate of cooling can be controlled and reduced thereby eliminating problems associated with weld hardening |
PRE WELD HEAT TREATING PREVENT HYDROGEN CRACKING
| PROBLEM: |
|
Electrode Coatings and Fluxes can often introduce moisture directly to the arc and weld pool. The increase in moistures increases the possibility of weld or Heat Affected Zone (HAZ) cracking. |
| SOLUTION: |
|
Preheating slows down the weld cooling rate which allows hydrogen to escape |
WELD PRE HEATING IMPROVES MATERIAL MICROSTRUCTURE
| PROBLEM: |
|
Low Alloy Steels containing elements such as chromium, nickel, molybdenum, and vanadium are susceptible to cracking in the Heat Affected Zone (HAZ) |
| SOLUTION: |
Preheating improves the microstructure inside the HAZ by reducing the post weld cooling rate. The reduced cooling rate produces:
- A more desirable and ductile microstructure to be formed
- Minimizes Under Surface Cracking
|