Densimet® High-density heavy metal alloy with excellent shielding capabilities, high strength and ductility.

Molybdenum stabilized with 0.3 wt% lanthanum oxide having high creep resistance and a high recrystallization temperature.

Molybdenum stabilized with 0.7 wt% lanthanum oxide having high creep resistance and a recrystallized microstructure.

Molybdenum stabilized with 0.7 wt% lanthanum oxide having high creep resistance and a stress-relief annealed microstructure.

Molybdenum has a wide range of applications. It is creep-resistant, has high rigidity, low thermal expansion and a high level of thermal conductivity. It is also corrosion resistant against metal and glass melts.

Composite material made from up to 30 wt% copper, which combines the high thermal conductivity of copper with the low thermal expansion of molybdenum, making it particularly suitable for heat sinks.

Particle-reinforced molybdenum with 0.47 wt% yttrium oxide and 0.08 wt% cerium oxide, that exhibits particularly good adhesion on quartz glass and has excellent weldability. Is primarily used as ESS ribbon in the lighting industry.

MoCu30-laminate PMC141® is a 3-layer laminate composite material made from Cu/MoCu30/Cu. It combines the high thermal conductivity of copper with the low thermal expansion of molybdenum, making it particularly suitable for heat sinks.

The Sparkal® WCu alloys material combine a high melting point for a long life service, the young modulus of the tungsten for a good rigidity, the electrical conductivity of the copper and a fine grain structure for complex geometry.

The Sparkal® WCu alloys material combine a high melting point for a long life service, the young modulus of the tungsten for a good rigidity, the electrical conductivity of the copper and a fine grain structure for complex geometry.

Melted quality tantalum with a high level of chemical resistance and good formability. Less expensive than TaS.

Sintered-quality tantalum with a high level of chemical resistance and excellent formability coupled with greater chemical purity and homogeneity than TaM.

Titanium-zirconium-molybdenum. Mixed-crystal and particle-reinforced molybdenum alloy with extremely high strength, even at high temperatures. Higher recrystallization temperature and creep resistance than pure Mo.

Tungsten has the highest melting point of all metals, is creep-resistant and exhibits good electrical conductivity, high rigidity and low thermal expansion.

Tungsten with 2 wt% cerium oxide is the non-radioactive alternative to WT20, which contains thorium. Its low electron work function and good ignition characteristics mean that it is used for welding electrodes with a long service life.

Stabilized tungsten with 1 wt%, 1.5 wt% or 2 wt% lanthanum oxide with a higher creep resistance and, higher recrystallization temperature and a lower electron work function than pure tungsten.

Potassium-doped tungsten with a stacked microstructure, resulting in greater dimensional stability at high temperatures.