HERZOG High-Frequency Heating Glass Bead Device BeadOneHF
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High-frequency heating glass bead device (with casting function) Bead One HF
Pioneers in sample preparation! Leave it to HERZOG >>> Bead Sampler with Transfer Function - High Frequency Heating <Bead One HF> Introducing a tabletop bead sampler equipped with HERZOG's unique transfer function. We have achieved the highest quality in safety, reproducibility, and reliability. >> Features << ● Safety measures (Fully automated process from melting to pouring to cooling without operator intervention) ● Temperature control (High-frequency output automatically controlled by a radiation thermometer) ● Ultimate stirring performance (Quick melting through unique inclined oscillation) ● Long-term stabilization of the analysis surface (Stable analysis surface management through unique pouring function) ● Reduction of remelting costs (Transfer function lowers the remelting costs of crucibles and pouring dishes) ● Reproducibility for each sample (16 types of melting programs can be set) ● Various optional functions Please refer to the catalog for more details.
basic information
Please refer to the catalog for details.
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Model number/Brand name
Bead One HF
Applications/Examples of results
●This is a pre-treatment device for fluorescent X-ray analysis equipment. ●It melts fine powder in a dedicated crucible to create glass beads. In addition to manual operation, there are semi-automatic and fully automatic options available.
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Hartzok Japan has been a specialized company in preprocessing equipment for about 30 years. The preprocessing equipment we handle refers to devices that create samples in optimal conditions for analytical instruments. In recent years, the performance of analytical instruments has improved, allowing for more precise analyses. However, as the accuracy of analysis increases, the results can vary significantly based on the preprocessing steps. For example, even if there is a high-spec microscope, poor preprocessing due to contamination, loss, or uneven polishing can lead to low analytical accuracy. Conversely, even a low-spec microscope can yield high-accuracy results if the polishing is done well. Preprocessing equipment is often postponed in capital investments, but the results of the preprocessing steps become more critical as higher analytical accuracy is sought. Furthermore, this preprocessing process is largely analog and relies heavily on empirical knowledge. Hartzok Japan will contribute to improving our customers' quality with the know-how we have cultivated over many years in the preprocessing field.