Induction Heating is a Good Option for Minimizing Hydrogen in the Welding Process

Hydrogen-induced cracking is an important issue in the welding industry

The presence of hydrogen in the weld can cause significant quality and productivity issues, including stress in the microstructure of the base and weld metal that leads to hydrogen-induced cracking.

Several factors must be present in order for hydrogen-induced cracking (also called cold cracking or hydrogen-assisted cracking) to occur. These include a crack-susceptible microstructure, the presence of residual stress and the presence of hydrogen. In general, the susceptibility to hydrogen-induced cracking increases as the strength of the base metal increases.

Hydrogen can enter the weld pool in various ways. Most often, hydrogen picked up during the welding process is present in the form of moisture, which can come from humidity in the atmosphere or from the base material in the form of mill scale, grease, oils, paint or other coatings. Welding filler metals can also be a source of hydrogen.

Hydrogen is very mobile when introduced into the liquid weld pool, especially at elevated temperatures, and much of it is able to diffuse out into the atmosphere. However, once the weld cools, it is more difficult for hydrogen to escape. Trapped hydrogen tends to collect in the grain boundaries and in the heat affected zone (HAZ). Over time, hydrogen collects in these areas and builds stress that — in some cases — is high enough to cause hydrogen-induced cracking.

Because hydrogen-induced cracking is a weld defect that can require costly repairs and rework — and possibly result in dangerous weld failures if it occurs in critical applications — it is important to take steps to control and minimize the presence of hydrogen in the welding process. These steps include using low hydrogen filler metals, improving pre- and post-weld heating, and accurately maintaining interpass temperatures.

Advantages of preheating and post-weld heat treatment in welding

Using proper preheat and post-weld heat treatment are critical ways to minimize hydrogen-induced cracking.

Preheating can remove residual moisture in the base material, which would otherwise be a source of hydrogen. It also helps slow down the cooling rate after the weld is complete, which allows more time for the hydrogen to diffuse out of the weld. Similarly, elevating the temperature of the weldments after welding can also help reduce residual hydrogen.

While operations commonly use oxy-fuel or propane torches for pre-weld and interpass heating and resistance machines or ovens for post-weld heat treatment, this equipment can pose some challenges. They are not ideal for ensuring uniform heating throughout the weld area, leading to areas that can heat and cool at uncontrolled or inconsistent rates. Torches can also pose issues regarding operator comfort and safety.

Another option for preheat, interpass and post-weld heat treatment is induction heating, which offers many benefits. Induction heating has no open flame; it saves the expense and storage hassle of using fuel gases and ensures more consistent temperatures.

The benefits of induction

Preheating and stress relieving of parts can pose many challenges. Different applications require different heat inputs — from preheat to post-weld heat treatment — and parts can range in size and shape. Also, parts may be located in the shop or in the field.

Induction helps address these challenges by offering flexibility to meet a wide range of heating requirements. In addition, induction heating methods also typically offer quick setup and a comfortable work environment.

Induction heating will produce optimal hydrogen diffusion and uniform heating throughout the part. It’s also a safe, reliable method that can provide a faster time-to-temperature than other heating methods.

With the induction process, heat is induced electromagnetically in the part by placing it in an alternating magnetic field created by liquid- or air-cooled induction heating cables or blankets. The magnetic field creates eddy currents inside the part, exciting the part’s molecules and generating heat from within the part.

Induction heating is a versatile method that can be used in many welding applications, including those where it’s necessary to roll pipe while also heating it. For example, operations can use the ProHeat™ 35 induction system from Miller with air-cooled blankets, liquid-cooled cables and a rolling induction system, specifically designed to heat moving parts. It’s a system that can meet the varying pre-heat, interpass heating and post-weld heat treatment needs you might encounter in welding applications.

Induction for shop and field applications

Another benefit of induction heating is its flexibility. Operations can use induction in both the shop and the field and for differing part geometries.

There are various induction coil configurations available that sit on top of a plate and don’t have to be wrapped around the piece. Operations can use the Miller® ProHeat™ 35 induction heating system with several accessories, including liquid-cooled cables, air-cooled cables and air-cooled blankets.

In addition, ArcReach® Heating Systems are the newest induction heating solutions from Miller. Designed for jobsite weld preheating in construction and pipe applications, ArcReach Heating Systems deliver weld joint preheating that’s easy to use and significantly faster, safer and less expensive than open-flame or resistance methods.

With ArcReach Heating Systems, contractors can insource weld joint preheating in the field — improving productivity and profitability on the jobsite. ArcReach Heating Systems run off existing welding power sources, further enhancing convenience and lowering costs.

Induction offers control

The key factor that makes induction heating a good option is control. The operator controls the ramp-up speed, interpass temperature and post-weld soaking or stress relieving to exact parameters. This controls cooling — helping ensure that the HAZ and the weld retain the desired mechanical properties — and at the same time aids in the removal of diffusible hydrogen.

Low-hydrogen welding practices require attention to detail. Proper pre- and post-weld and interpass heating is a critical part of that.

Induction heating offers a consistent and reliable heating option that can save time and money in many applications. Jobs that typically require hours to heat can be heated in minutes by using induction heating.