Laboratory Metal Analyzer
Hitachi - Foundry Master Smart
The FOUNDRY-MASTER Smart alloy analyzer spectrometer is the ideal solution with German quality and the most competitive price on the market.
Technical Description
The FOUNDRY-MASTER Smart alloy analyzer spectrometer is increasingly used in the field of materials composition analysis to monitor the chemical composition of elements in metals.
Unlike similar machines from other manufacturers, Hitachi high-tech equipment uses many superior technologies such as CCD sensors, Jet-stream technology, auto profiling...
- The FOUNDRY-MASTER Smart Alloy Analyzer (FMS) is a high-precision laboratory metal composition analyzer. The alloy analyzer uses emission spectroscopy, which is very popular in alloy analysis due to its ability to analyze the carbon element. The new generation of spark generators ensures optimal excitation for a wide range of alloys. The high-resolution Multi-CCD optics using Argon chamber technology allow accurate analysis of the entire spectral range for all alloys with different matrices.
- The sample holder with its three-dimensional open structure allows for safe and efficient analysis of samples of various shapes, including irregular ones. Furthermore, the FOUNDRY-MASTER Smart alloy analysis spectrometer (FMS) uses Jet-stream-Technology to effectively cover the electrode and sample in the sample holder with a stream of argon gas, giving the system two advantages:
- Argon gas consumption is very low, reducing operating costs to a minimum.
- No need to seal the open sides of the test stand, allowing tubes, rods, and wires to be placed on the test stand easily. This allows for a minimum of sample preparation time.
- The GRADE Database software contains 12 million names of 339,000 materials from 69 countries and territories.
Applications
Testing material composition in Steel alloys, Low Carbon Steel, Stainless Steel
Test material composition in Copper, Zinc, Aluminum, Nickel, Cobalt, Chromium, Titanium alloys
Used in steel mills, metallurgy, production of corrugated iron sheets, steel pipes, high-strength steel pipes, prefabricated houses...
Specifications
| Overview | |
| Size | 280 x 415 x 665 mm (HxWxD) |
| Power supply | 90-250 VAC (50/60 Hz) |
| Mass | 35 kg |
| Average power consumption | Main machine 700W |
| Standby power consumption | 50W (Power supply 100W) |
| Argon gas | |
| Purity | ≥5.0 |
| Inlet pressure | 3 Bar |
| Optical system | |
| Optical system | According to the Paschen-Runge Mounting principle |
| Direct light transmission to the optical chamber. | |
| Analysis wavelength range | 175 – 420nm (extended to 671nm for Cu, Na, Li) |
| Sensor | Multi-CCD sensor (2048 pixels per chip) with optimized Pixel resolution. |
| CCD resolution | 7 pico-meter |
| Contrast | 1.75 nm/m (1st order) |
| Focal length | 300 mm |
| Holographic grating | 1774 grooves/mm |
| Plasma generator | High Energy Electric Spark (HEPS) technique for better sample combustion |
| Set parameters using software | |
| Frequency: 80 – 500 Hz | |
| Voltage: 250- 500 V | |
| Sample holder set | The sample clamping set has a 3-dimensional open structure, can hold samples of various sizes. |
| Jet-Stream-electrode structure for working on small samples and samples with complex shapes. Optimized Argon consumption is lowest. | |
| Multi-adjustable sample clamp | |
| The cover plate can be changed for different models. | |
| Limit of analysis of a prime number | C: 30ppm; Si: 20ppm; P: 20ppm; S:20ppm; Mn:20ppm |
