Product Details:
Minimum Order Quantity | 100 KG |
Shape | Round |
Single Piece Length | 3 meter, 6 meter, 18 meter |
Usage | Construction |
Size/Diameter | 3 inch, >4 inch, 1 inch, 2 inch, 4 inch |
Purity | 99.97 % |
Material | Molybdenum |
The industrial applications for our molybdenum are as varied as its properties. We briefly present three of these below:
Our molybdenum is exceptionally pure, withstands very high temperatures and is nevertheless still easy to machine. For example,to produce crucibles for all the conventionally employed processes in the field of sapphire growth. Thanks to their exceptional purity, these have proved their worth as optimized melting and solidification vessels.
Our stirrers homogenize all types of glass melt. To do this, they must withstand extreme temperatures and aggressive glass melts. Molybdenum makes it possible. With its excellent dimensional stability and corrosion resistance against metal and glass melts, our material ensures optimum stirring coupled with long product service lives.
High power densities and the flow of electricity through power diodes and transistors generate heat. Thanks to its good thermal conductivity and thermal expansion properties that are adapted to the relevant semiconductor material, molybdenum and its alloys are the perfect substrate for power electronics. When used as a base plate, molybdenum reliably dissipates heat.
We prepare our molybdenum to perform perfectly in every application. We can determine the following properties through the addition of various alloys:
And there's more: By using our own customized manufacturing processes, we can modulate various other properties of molybdenum across a wide range of values. The result: Molybdenum alloys with different ranges of properties which are precisely engineered to meet the requirements of each individual application.
Name of material | Chemical composition (percentage by weight) | |
---|---|---|
Mo (pure) | >99.97 | |
TZM | 0.5 % Ti / 0.08 % Zr / 0.01 - 0.04 % C | |
MHC | 1.2 % Hf / 0.05 - 0.12 % C | |
Mo-Lanthanoxid (ML) | ML | 0.3 % La2O3 |
MLR (R = Recrystallized) | 0.7 % La2O3 | |
MLS (S = Stress relieved) | 0.7 % La2O3 | |
MoILQ (ILQ = Incandescent Lamp Quality) | 0.03 % La2O3 | |
Mo-Yttriumoxid | MY | 0.47 % Y2O3/ 0.08 % Ce2O3 |
MoRe | MoRe5 | 5.0 % Re |
MoRe41 | 41.0 % Re | |
MoW | MW20 | 20.0 % W |
MW30 | 30.0 % W | |
MW50 | 50.0 % W | |
MoCu | MoCu30 | 30.0 % Cu |
MoCu15 | 15.0 % Cu | |
MoZrO2 | MZ17 | 1.7 % ZrO2 |
MoNb | MoNb10 | 9.71 % Nb |
MoTa | MT11 | 10.75 % Ta |
Additional Information: