Tungsten steel brings extreme hardness and exceptional wear resistance to the cutting edge. High-speed steel contributes toughness heat resistance and the ability to stay sharp at elevated temperatures. Precision welding joins them into finished products that outperform anything made from a single material.
The smart design puts tungsten steel where wear is worst – on the cutting surface. High-speed steel goes where strength and shock absorption matter most – in the tool body and support structure. Together they create a finished product that cuts faster lasts longer and handles tougher jobs.
Our precision welding process ensures the bond between these two materials is strong clean and reliable. No weak spots. No hidden cracks. Just a solid metallurgical joint that holds up under heavy cuts and high temperatures.
The result is finished products that deliver excellent hardness superior wear resistance and consistent cutting performance. Designed for demanding tooling and machining applications requiring durability and long service life.
Drill bits. End mills. Step tools. Custom cutting solutions. When the job is tough and downtime is not an option tungsten steel to high-speed steel welding delivers.
An ion source sampling cone sits at the front line of mass spectrometry. It faces high temperatures corrosive gases and constant mechanical stress. The weld quality determines whether the cone delivers accurate results or becomes a source of contamination and drift.
Beryllium copper is a high-performance copper alloy widely used in industries requiring a unique combination of electrical conductivity, strength, elasticity, and wear resistance.
Silver contacts on silicon nitride ceramic heating plates take a beating. High temperatures thermal cycling and mechanical stress eventually take their toll. When the contact degrades heating performance suffers.