DMG MORI Unveils ULTRASONIC 80 Precision for Advanced Materials Machining
DMG MORI has introduced the ULTRASONIC 80 Precision, a new 5-axis machining center designed for the high-precision processing of hard and brittle materials used in industries such as semiconductors, optics, medical technology, and aerospace. The machine expands the company's ULTRASONIC Precision series and was unveiled during the ULTRASONIC Technology Days in Stipshausen, Germany.
The ULTRASONIC 80 Precision combines ultrasonic-assisted milling and grinding within a single machine platform, enabling manufacturers to process advanced materials such as ceramics, silicon carbide, glass, and carbide with reduced cutting forces and improved precision. The system features a working area of 800 x 600 x 510 mm and can accommodate workpieces up to 800 mm in diameter and 350 kg in weight.
According to DMG MORI, the machine integrates high-frequency ultrasonic vibrations into the tool rotation process, helping improve surface quality, increase tool life, and enhance machining efficiency. The platform also supports automated production workflows and includes advanced process monitoring and control technologies designed to improve manufacturing accuracy and reliability.
The launch reflects growing demand for precision manufacturing solutions capable of handling increasingly complex components used in next-generation semiconductor, medical, and industrial applications. DMG MORI stated that the new system is intended to provide manufacturers with greater productivity, process integration, and flexibility when machining advanced materials.
About DMG MORI: DMG MORI is a global manufacturer of machine tools and advanced manufacturing solutions, serving industries including aerospace, automotive, medical technology, semiconductor, and precision engineering. Headquartered in Japan and Germany, the company provides machining centers, automation systems, digital manufacturing technologies, and lifecycle services, supporting customers worldwide with integrated solutions for modern industrial production.
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