We have 2 machines of this type that are suitable for winding the toroid iron cores prior to heat treatment.
Toroid Winder I.
| Raw materials that may be used | |
|---|---|
| Thickness | 18-30 micrometre |
| Width | 3-25 mm |
| Internal diameter | min: 4 mm, max: 40 mm |
| External diameter | min: 5mm, max: 56 m |
| Productivity |
|---|
| 250-1000 items per hour |
Toroid Winder II.
Our Toroid Winder II is suitable for the special size toroid iron cores, prior to heat treatment.
Spectrometer
With our Hitachi Foundry Master Optimum Optical Emission Spectroscopy (OES) equipment we are able to define the element composition of the metals with an analytic method that is reliable and widely used.
The high frequency induction equipment used for melting generates vortexes within the melt, which blend the melt perfectly, thus ensuring its homogeneous composition. Our experts may prepare even jointly with the customer the melting and casting plan, with taking into consideration the special customer demands. Our work is also facilitated by a precision weight scale of 100 microgram resolution, and a high tech optical emission spectrometer.
Cold crucible melting unit
Our company, thanks to its infrastructure is able to produce special alloys in vacuum and inert gas media, with the aid of our vacuum induction melting equipment.
| Paraméterek | |
|---|---|
| Atmosphere | Vacuum (1*10-7 torr), Argon (purity 4.6 or 5.0), Nitrogen (industrial) |
| Output performance | 25 kW |
| Frequency | 600 kHz |
| Sample volume | 5 cm3 |
| Crucible types | Boat, Rose |
We use graphite, boron-nitride, or aluminium oxide melting crucibles in line with the properties of the components of the given alloy. The high frequency induction equipment used for melting generates vortexes within the melt, which blend the melt perfectly, thus ensuring its homogeneous composition. Our experts may prepare even jointly with the customer the melting and casting plan, with taking into consideration the special customer demands.
Our work is also facilitated by a precision weight scale of 100 microgram resolution, and a high tech optical emission spectrometer.
Vacuum melting unit
Our company, thanks to its infrastructure is able to produce special alloys in vacuum and inert gas media with the aid of our vacuum induction melting equipment.
Vacuum metallurgy is playing an increasing role in our days, thanks to the development of scientific technology. The number of those practical alloys increased steeply in the recent years, for the production of which in many cases precision, well controlled and reproduceable production technology is needed. These alloys are widely used for scientific research, and they are also used in electronics, and also in the car and airplane industry.
| Parameters | |
|---|---|
| Atmosphere | Vacuum (1*10-5 torr), Argon (purity 4.6 or 5.0), Nitrogen (industrial) |
| Output performance | 25 kW |
| Frequency | 10 kHz |
| Sample volume | 100 cm3 |
| Crucible types | Al2O3 vagy boron nitride |
Heat treatment ovens
The ovens are suitable for any normal atmospheric heat treatment. We recommend them for the following technologies:
*these functions may be used only in the case of our LTP F bottom tapping ovens
Denkal 1200
| Magasság | 60 mm |
| Szélesség | 100 mm |
| Mélység | 80 mm |
Denkal 1550
| Magasság | 100 mm |
| Szélesség | 100 mm |
| Mélység | 100 mm |
LTP F
| Névleges hőmérséklet | 1300 °C |
| Belső átmérő | 115 mm |
| Magasság | 200 mm |
| Mélység | 80 mm |
Magnetic measurement station | 2 Tesla
The large 2 T homogeneous magnetic field of the GMW 3473-70 electromagnet provides an opportunity for electro-chemical experiments, magnetic field thermal treatment experiments, for implementing magnetising and demagnetising processes. The maximal distance of the two armours may be maximum 96 mm. In this case the magnetic induction developing is of the value of 400 mT. By approaching the armours it is possible to achieve a field of a value of even 2 Tesla, which allows the implementation of unique experiments.
A small-sized air operated heat treatment oven belongs to the magnetising table, with which we are able to carry out heat treatment even up to 700 °C in the strong magnetic field. The oven, due to its design, is suitable for achieving quite high heating and cooling speeds.
| Technical data | |
|---|---|
| Distance of the armours | 0-96 mm |
| Diameter of the armours | 150 mm |
| Maximal magnetic field | 400-2000 mT* |
| Sample volume | 100 cm3 |
| Nominal temperature of the heat treatment oven | 700 °C |
| Dimensions of the oven space (Sz/M/H) | 80/80/100 mm |
*depending on the distance of the armours
Vacuum heat treatment unit
The oven is without insulation, which means a lower working point (max 700 °C), however, it is able to reach extremely large cooling gradients. Regulation is always computer controlled, with the possibility of inserting practically an infinite number of heat treatment steps.
| Parameters | |
|---|---|
| Length | 80 mm |
| Diameter | 65 mm |
| Maximum temperature | 700 °C |
Testo 340 Gas Analyser
Emission measurement in the industry: The testo 340 instrument unites in a single device the professional technology, easy operability, and practical implementation. The high performance testo 340 smoke gas analyser is equipped with an O2 measuring cell, and 3 additional measurement cells.
3D printer
This printer is suitable for printing thermoplastic plastics up to 300 °C.
Parameters