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It is designed to transfer the structure of a solid surface to a flexible, highly accurate, and stable replica. The result is an exact 3D copy of the surface, allowing microscopic examination and precise measurements.
The purpose of mounting is to protect fragile or coated materials during preparation and to obtain perfect edge retention. Mounting is used when the protection of layers is imperative, and also it enables a safer and more convenient handling of small, sharp, or irregularly shaped specimens, for example. The best possible result.
Electrolytic preparation is a fast and efficient method for metallographic preparation, providing a deformation-free surface, whereas mechanical grinding and polishing tends to leave a thin deformation layer at the surface.
Ensure reproducible results with our best-in-class SiC Foils and Papers. Maximize your process flexibility when working with many different materials and tasks. Choose from a full range of SiC Foils and Papers, compatible with any set-up. Buy in Webshop. Contact our sales team.
A powerful solution, combining micro and universal testing in one efficient machine. READ MORE. Duramin-600. Methods: Vickers, Knoop, Brinell and Rockwell hardness testing. Load ranges: 1-250 kgf, 3-750 kgf, 5-3000 kgf. Semi-automatic universal tester. Robust and automatic universal hardness testing. READ MORE.
MD grinding surfaces. Experience superior results with our unique MD grinding surfaces. With an MD grinding surface dedicated to your specific material, you can reduce your preparation time while meeting high preparation requirements – ideal for high-volume, automated set-ups.
What is metallography? In short, metallography can be defined as the science and art of studying the microstructure of different metals and metal alloys. In metallography, the surface of a metal sample is prepared through various methods – including cutting, mounting, polishing and etching – to reveal the metal’s microstructure.
Its attractive color, corrosion resistance and high electrical and thermal conductivity mean it is widely used in the electronics, automotive, building, chemical, and food and beverage industries. With increasing purity, the electrical and thermal conductivity of copper increases.
