Materials
D176:
Densimet® High-density heavy metal alloy with excellent shielding capabilities, high strength and ductility.
ML:
Molybdenum stabilized with 0.3 wt% lanthanum oxide having high creep resistance and a high recrystallization temperature.
MLR:
Molybdenum stabilized with 0.7 wt% lanthanum oxide having high creep resistance and a recrystallized microstructure.
MLS:
Molybdenum stabilized with 0.7 wt% lanthanum oxide having high creep resistance and a stress-relief annealed microstructure.
Mo:
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.
MoCu30:
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.
MY:
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.
PMC141®:
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.
SPXF:
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.
SPX:
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.
TaM:
Melted quality tantalum with a high level of chemical resistance and good formability. Less expensive than TaS.
TaS:
Sintered-quality tantalum with a high level of chemical resistance and excellent formability coupled with greater chemical purity and homogeneity than TaM.
TZM:
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.
W:
Tungsten has the highest melting point of all metals, is creep-resistant and exhibits good electrical conductivity, high rigidity and low thermal expansion.
WC20:
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.
WL10, WL15, WL20:
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.
WVM:
Potassium-doped tungsten with a stacked microstructure, resulting in greater dimensional stability at high temperatures.