NETZSCH – Gerätebau GmbH offers the broadest product range for material research, development and quality assurance with methods of Thermal Analysis and Thermophysical Properties Measurements.
Main applications: ceramic, polymers, composites, nanomaterials, metals, refractories, pharmaceutics, fuels of all kinds, etc. Russian customers are supported directly from Moscow, Yekaterinburg and Novosibirsk.
At NETZSCH, you will find solutions for Thermal Analysis, thermophysical properties testing, cure monitoring, dynamic-mechanical testing, multiple module and accelerating rate calorimetry that will meet your every need.
Our instruments and methods allow for material characterization and the study of properties such as specific heat, enthalpies, weight change, Young’s modulus, dimensional changes, thermal conductivity, thermal diffusivity and evolved gases including determinations with regard to purity and composition, polymorphism, thermal stability and application temperature limits, aging and thermomechanical behavior, visco-elastic properties, and processing conditions.
At NETZSCH, we regard customer satisfaction as our first priority. We are looking forward to working with you.
Easy-to-use, robust, precise, optimized for everyday use – these are the features of the innovative DSC 214 Polyma. The unique design of this instrument encompasses everything needed for successful DSC investigations – regardless of whether the user is a beginner or an experienced professional. Above all, it is the two new software developments that are setting new standards: AutoEvaluation and Identify. These have the potential to revolutionize DSC analysis.
Various EPLEXOR® systems with different maximum forces and strains are available. A fully automatic testing instrument is realized by the automatic sample changer. The instruments are based on: DIN 53513, ISO 6721/1 und 4, ISO 6721/5, ISO 6721/6, ISO 4664, ASTM D4065, ASTM D4473.
The characterization of highly conductive materials at cryogenic and moderate temperatures or ceramics and refractories at elevated temperatures is of high interest. One accurate and robust solution is offered by the Laser/Light Flash Methods (LFA). The HyperFlash® series features an intelligent lens system (ZoomOptics) between the sample and the detector, an extremely fast data acquisition and a wide temperature range. These systems are capable of measuring thin films.
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Phone: +7 499 2720532
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