| | | Since 1962, NETZSCH-Geratebau GmbH has presevered in providing our customers with the latest thermal analysis techniques, the broadest range of best-quality products, the most complete technical support and the most comprehensive service. | | Thanks to our proficient R&D team, NETZSCH Analyzing & Testing consistently offers the "utmost": the most complete product line, the widest temperature range and the highest measurement pressure, to name a few. The series of patents and international R&D awards which we have received attest to our products' leadership in terms of technique and quality. Besides the products themselves NETZSCH also provides localized software, operation manuals and application references. Seminars and users' meetings are also organized by our specialists, and we offer a series of advanced training programs on demand. | | Our branches, representative offices and application laboratories worldwide offer our customers excellent R&D and technical support, wherever on the globe they may be. At NETZSCH, we regard customer satisfaction as our first priority. We are looking forward to working with you. | | All materials change their physical properties and their chemical characteristics under the influence of temperature. Thermal Analysis methods systematically analyze these changes by application of programmed temperature variations for heating and cooling, and by application of specified sample atmospheres and pressures. The properties most often studied are specific heat and enthalpy changes, weight loss or weight gain, Young's modulus, thermal expansion or shrinkage and gas evolution. Knowledge of the thermophysical properties of solids and liquids has become very important for a sustainable energy industry and process economy. Thermal conductivity and thermal diffusivity measurements for insulating and for good conducting materials supply the data basis for engineering calculations and practical application of construction parts. The temperature-contingent information on material properties determined by Thermal Analysis methods allows conclusions to be drawn regarding the identification of materials as well as their purity and composition, polymorphism and structural changes, | | thermal stability and temperature limits of application, aging behavior, thermo-mechanical behavior and viscoelastic properties, and processing conditions for shaping, casting, molding and extrusion. This comprehensiveness in material characterization encompasses all kinds of applications of Thermal Analysis for samples of organic, inorganic and biological origin. It is a very seldom occurrence that a sample cannot be tested successfully with any of the Thermal Analysis techniques. NETZSCH Analyzing & Testing is focused on the development of versatile, reliable and sensitive instruments for material research, development, quality control and failure analysis. Our broad application know-how is transferred to our customers by means of demonstration or contract testing, application books for different materials or industrial branches, or directly and personally in seminars, workshops and users' meetings. In addition to laboratory techniques for Thermal Analysis and Thermophysical Properties, NETZSCH also offers online process control techniques for reacting resin systems based on the change of dielectric properties and ion mobility. | | Thermal Analysis • DSC/DTA • TGA • STA (TG - DSC) • DIL • TMA/DMA • DEA • EGA (MS/FTIR Coupling) Thermal Diffusivity and Conductivity •LFA • HFM/GHP • TCT Cure Monitoring • DEA Refractory Testing • RUL/CIC • HMOR • PCE Advanced Software • Thermokinetics • Thermal Simulations • DSC Correction • Peak Separation • Purity | | |