Gases and Technologies for Your Heat Treating Process
Gases for Consistent
Atmospheres in Sintering
Stronger Metals, Better Parts
Sintering is a process that uses compressed metal or ceramic powders to form various shapes. These structural parts are usually complex. Almost all metals can be sintered, but pure metals with little to no surface contamination result in a better product. The process of sintering with atmospheric pressure requires a protective gas such as hydrogen, nitrogen, or carbon monoxide.
Sintering With Nitrogen and Hydrogen-Based Atmospheres
Using nitrogen and hydrogen-based atmospheres results in a more consistent performance for your sintering operation. Our atmospheres that use hydrogen or carbon monoxide are considered reducing agents. They work together and protect the sintered parts from oxidation and decarburization.
Using nitrogen and hydrogen-based atmospheres results in a more consistent performance for your sintering operation. Our atmospheres that use hydrogen or carbon monoxide are considered reducing agents. They work together and protect the sintered parts from oxidation and decarburization.
What Are the Benefits of Sintering?
- Reproducible size and hardness
- Brighter and cleaner parts
- Decreased soot formation and oxidation
- Fewer process interruptions
- Decreased idle furnace time
- Faster start-ups