Fusion Machine
HNJC-T6D Sample-melting Furnace for X-ray fluorescence Analysis (XRF)
HNJC-T6D is a Sample-melting Furnce for X-ray fluorescence Analysis. The sample obtained by the glass melt method can effectively reduce or even eliminate the adverse factors such as matrix effect, particle effect and mineral effect encountered in XRF analysis, and greatly improve the accuracy of XRF analysis. In the industries of iron and steel, metallurgy, chemical industry, geology, cement, etc., the glass melt sample method has been widely used. The whole machine design structure is reasonable, easy operation and less manual intervention. Various procedurescan be setted by touching screen. Melting process is automatically completed by one button. User adjustable automatic swing system is designed during the process, to ensure the uniformity of the melt. The whole machine adopts silicon carbon rod heating method, thermocouple real-time temperature measurement, PID constant temperature regulation, PIC intelligent control, the whole machine has excellent performance in temperature control, stability, operability and other properties, the highest temperature measurement up to 1400°C.
Field of Application
Widely used in steel, metallurgy, chemical industry, geology, cement, ceramic refractory materials, and other industries. It can prepare glass melt samples for XRF analysis of samples such as ore, rock, soil, refractory materials, metallurgical raw materials, and so on.
Technical Features
- Reasonable overall layout, small size with a great structural appearance.
- Uses high-quality silicon carbon rod heating elements to ensure durable and stable machine operation.
- The interior lining of the heating furnace is made of high-quality refractory insulation materials to ensure efficient utilization and temperature stability of the heating chamber.
- Thermocouple real-time temperature measurement, PID constant temperature regulation, ensures accurate control of the sample preparation process.
- Full touch screen display operation, and the melting process is automatically completed after setting the sample melting curve on the screen.
- The swing angle can be adjusted according to the high-temperature viscosity of the sample needed, fully guaranteeing the uniformity and quality of the fuse, and the mold molding is adjustable.
- Integral ceramic bracket does not contain any iron-based materials, will not drop slag or crack after long-time use, and is easy to disassemble and assemble.
- The bracket can be pickled with hydrochloric acid, can be used repeatedly for more than 3 years, and can be expanded with a remote control system.
- The instrument is equipped with multiple protections (overtemperature, swing motion limit protection, etc.), making the instrument more safe, stable, and reliable in operation.
- The sample pouring is done in the furnace to ensure less radiation to the human body. A forced air cooling system is designed to accelerate the cooling of the bead sample and improve efficiency.
- The machine has fast temperature rise, accurate temperature control, and good temperature applicability for different sample materials.
- The entire machine has high cost performance and can melt 4 samples at a time.
| Temperature range | 1300 Celcius |
|---|---|
| Heating rate | Max. 45u2103/min |
| Heating method | Silicon carbide rod heating |
| Temperature control accuracy | +- 1 celcius |
| Rated power and current | 7.5W, 45A |
| Rated power and current | Single phase 220V, 50/60Hz |
| Crucible frame swinging angle | Max.+-160 degree |
| Crucible frame swinging frequency | Max. 1Hz |
| Molding method | Automatic reverse mold pouring molding |
| Control system | PLC control |
| Crucible standing time before pouring | Adjustable |
| Crucible standing time after pouring | Adjustable |
| Swinging time | Adjustable |
| Fusion sample quantity | 4 |
| Fusion speed | 10-18mins |
| Weight | 150kg |
| Host Dimension | 955 x 7675 x 7668mm |
