Netzsch
About us
The NETZSCH Group is an owner-managed, international technology
company with headquarters in Germany. The Business Units Analyzing &
Testing, Grinding & Dispersing and Pumps & Systems represent customized
solutions at the highest level. More than 4,000 employees in 36 countries and
a worldwide sales and service network ensure customer proximity and
competent service.
Our performance standards are high. We promise our customers Proven
Excellence – exceptional performance in everything we do, proven time and
again since 1873.
When it comes to Thermal Analysis, Calorimetry (adiabatic & reaction), the
determination of Thermophysical Properties, Rheology and Fire Testing,
NETZSCH has it covered. Our 60 years of applications experience, broad
state-of-the-art product line and comprehensive service offerings ensure
that our solutions will not only meet your every requirement but also exceed
your every expectation.
Products & services
DSC Caliris - Differential Scanning Calorimetry
Modular Design – Maximum Flexibility Ever-accelerating new material developments, triggered by fast-moving mobility and technical trends, require continuous adaptability. The new generation of NETZSCH DSCs is based on a modular concept. The DSC 300 Caliris® is the only instrument of its kind with interchangeable and exchangeable sensor-furnace modules. The Supreme version of the DSC 300 Caliris® allows the exchange of modules, to be able to adapt to current and future needs. The DSC 300 Caliris® Supreme – The Future-Proof Choice This version offers a choice of currently three modules and can be configured to achieve an unrivaled maximum temperature range of -180°C to 750°C. It is possible to update your device at any time to take advantage of the latest technological developments or to change your application. The choice of the module used remains unrestricted. Just choose between broad temperature range, fast heating rates or high sensitivity as needed. The DSC 300 Caliris® Select – Tailor Made for Your Application In the Select version of the DSC 300 Caliris®, there is an initial choice between three currently available modules. The maximum temperature range available in the DSC 300 Caliris® Select is -170°C to 650°C. The Select version allows for the exchange of modules of the same type avoiding instrument downtimes. Both versions come with integrated color touch display, an LED status bar and can optionally be equipped with an automatic sample changer.
Kinexus Prime ultra+ - More Rheology, less effort
The Power of Prime for advanced testing The Kinexus Prime ultra+ rheometer has the highest sensitivity air bearing and widest torque range, coupled with the unprecedented vertical (axial) control capabilities of the Kinexus platform, for advanced rheological testing. Unique sequence-driven rSpace software enables fully customizable test design to allow researchers to set-up and investigate tailored rheological test protocols.
DMA 303 Eplexor - Use Dynamic-Mechanical Analysis to gain insights into your material’s mechanical properties
ake Control of the Dynamic-Mechanical Properties of Your Products The DMA 303 Eplexor is a highly precise and reliable analysis instrument that can handle a wide range of samples and applications. With its user-friendly software and improved ergonomics, it's the ideal device for intensive use in research and quality control laboratories. The DMA 303 Eplexor is extremely versatile and designed to handle a wide range of samples and applications. Thanks to its various accessories, such as sample holders and cooling systems, it can accommodate a variety of different testing requirements. In addition to its user-friendly software, the DMA 303 Eplexor features significantly improved ergonomics, making it pleasant to operate on a daily basis. Its various add-on options make it an ideal device to use and a safe long-term investment.
Application - Polymers
Polymers Polymers can generally be divided into three main groups: thermoplastics, elastomers and thermosets. Their thermal properties can be determined with our thermoanalytical measuring systems in the areas of product development, quality assurance, failure analysis and process optimization. Our analytical instruments serve to characterize thermal effects and determine material data such as the melting/ Crystallization Crystallization is the physical process of hardening during the formation and growth of crystals. During this process, heat of crystallization is released. crystallization of thermoplastics, Glass Transition Temperature The glass transition is one of the most important properties of amorphous and semi-crystalline materials, e.g., inorganic glasses, amorphous metals, polymers, pharmaceuticals and food ingredients, etc., and describes the temperature region where the mechanical properties of the materials change from hard and brittle to more soft, deformable or rubbery. glass transition temperature, Thermal Stability A material is thermally stable if it does not decompose under the influence of temperature. One way to determine the thermal stability of a substance is to use a TGA (thermogravimetric analyzer). thermal stability, composition of rubber mixtures, Curing (Crosslinking Reactions) Literally translated, the term “crosslinking“ means “cross networking”. In the chemical context, it is used for reactions in which molecules are linked together by introducing covalent bonds and forming three-dimensional networks. curing behavior of thermosetting materials, and E modulus values of anisotropic composites.
Thermogravimetric analysis TG 309 Libra® Classic Ensure product quality and safety by detecting mass changes. TG 309 Libra® Classic Ensure product quality and safety by detecting mass changes.
Analyze the unique thermal behavior of materials and their components TG 309 Libra® Classic The TG 309 Libra® Classic is the device with the best price-performance ratio in the Libra® series. It is the ideal instrument for Quality Control. The Classic offers a temperature range from 10 °C up to 1025 °C. In addition, it can be equipped with a 20-position ASC (Automatic Sample Changer). Get Results Faster Without a Baseline Run To ensure accurate mass change values, a baseline run is typically conducted under test conditions that are identical in terms of heating rate, gas type, and gas flow. The baseline takes factors such as heating rate, crucible type and geometry into account while also accounting for instrument and buoyancy effects, thus allowing these to be subtracted from the sample measurement. The TG 309 Libra® typically eliminates the need for a separate baseline run when using the integrated BeFlat® baseline run for typical temperature measurements. This significantly speeds up tests.
Fire Testing LOI 901 - Oxygen Index Analyzer
Testing system for determining the burning behavior of plastics by oxygen index at ambient temperature in accordance with ISO 4589-2 and ASTM D 2863 Compact and lightweight, the device features a high-resolution touch display for intuitive user guidance. The fully automatic calibration and testing functions make it easy to operate the device. All relevant data such as temperature, flow rate and time are displayed during the test. Except for the test gases (O2 / N2), all necessary accessories for performing standard tests are included with the device and greatly simplify day-to-day work at the lab.
Rheology Rosand RH2000 Advanced Bench top capillary rheometer for research to QC testing
The benchop capillary rheometers of the NETZSCH Rosand RH2000 series are covering most of the requirements as a compact system. Available in a single or double bore configuration, the RH2000 integrates many features of the floor standing models Rosand RH7/RH10. Its digital drive system provides unrivalles speed control, exact accuracy and a wide dynamic operation range. Based on the latest generation of Flowmaster software, the RH2000 allows for numerous experimental possibilities.