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Company Description |
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We
focus on what we do.
At
NETZSCH Analyzing & Testing, we have been focusing all of our activities on
thermal analysis methods and product development for more than 50 years.
Precision
is what counts with us.
Today's
market is dominated by our innovative top-quality products, including those for
simultaneous applications with true high-temperature TG-DSC, for the coupling of
mass spectrometers and for thermophysical properties measurement methods. We are
also successfully following the ongoing material research on high-temperature
superconductors, nanomaterials and fuel cells. Benefit from our expertise in
thermal analysis.
Discover
the extraordinary diversity of thermal analysis with NETZSCH Analyzing &
Testing. Let us work out a feasible solution for your applications that meets
all of your expectations. We would be happy to help you with our applications
experience, a broad range of products and comprehensive service which include:
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Differential
Scanning Calorimetry / Differential Thermal Analysis (DSC / DTA)
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Thermogravimetry
(TGA, TG)
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Simultaneous
Thermogravimetry - Differential Scanning Calorimetry STA (TG-DSC)
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Dilatometry
/ Thermomechanical Analysis / Dynamic-Mechanical Analysis (DIL / TMA / DMA /
GST)
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Dielectric
Analysis (DEA)
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Thermal
Diffusivity / Thermal Conductivity (LFA / HFM / TCT)
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Refractory
Testing (RUL/CIC, HMOR, PCE, TCT)
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Gas
Analysis / Couplings (QMS, FTIR, SKIMMER)
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Software
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Brand & Trade Names |
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DEA 230 Epsilon - There are three different systems in the 230 Epsilon series of Dielectric Cure Monitors: the high-performance, 2-channel DEA 230/2 with the broadest measurement and frequency range, particularly for product development and process optimization, the single-channel DEA 230/1, and the 10-channel DEA 230/10, also suitable for applications in manufacturing
DEA 231 Epsilon - This single-channel measurement system can operate at a high data acquisition rate with a selectable frequency and is therefore ideal for investigation of the crosslinking and curing behavior of fast-curing resin systems, adhesives and paints, e.g. SMC/BMC and UV curing materials
DIL 402 C - This highly vacuum-tight, horizontal push rod dilatometer with a measuring system made of Invar, a high-resolution inductive displacement transducer and comprehensive thermostatization offers high precision, reproducibility and long-term stability - the best qualifications for demanding use in research and development.
DIL 402 CD - Expansion measurements at two samples, sample comparisons and differential measurements with a calibration standard are the application fields of the new double and differential dilatometer. A higher sample throughput for routine applications and an easy and fast calibration are the interesting aspects of this new instrument concept.
DIL 402 E - The DIL 402 E dilatometer can be operated up to 2400°C or 2800°C with an optical pyrometer and a graphite furnace. High temperature resistant samples can thereby be studied in glassy carbon sample holders under inert conditions or in a vacuum. Thermocouples may be employed up to 2000°C.
DIL 402 PC - The dilatometer DIL 402 PC is a universally applicable instrument for routine investigations of ceramic, glass, and metal samples, this dilatometer meets all normal requisites regarding resolution, calibratability, precision and sample atmosphere. This is an easy-to-operate, entry-level instrument for materials characterization for in-plant quality control
DMA 242 C - The robust construction of the DMA 242 C and the high resolution of the deformation measuring system enable precise measurements on both very rigid and very soft samples. The most varied of deformation types, digital signal filtering, kinetic evaluation and frequency extrapolation make the DMA 242 C to a real all-rounder.
DSC 200 F3 Maia - This newest Differential Scanning Calorimeter development at NETZSCH unites compactness, robustness and simple operation with high detection sensitivity for your preferred application in material quality control and failure analysis, especially in polymer processing.
DSC 204 F1 Phoenix - Very high sensitivity and resolution can be realized with this premium DSC, which also features an automatic sample changer (ASC), temperature modulation (TM-DSC), baseline optimization (BeFlat®), correction of thermal resistance and time constants (DSC-correction), even coupling to QMS and FTIR as well as UV-extension for photo-calorimetry
DSC 204 HP Phoenix - DSC measurements with selectable gas pressure allow additional possibilities for the study of chemical reactions, vaporization processes (ASTM E 1782), adsorption and desorption, and aging studies (ASTM E 1858, ASTM D 6186, ASTM E 2009, ASTM D 5483). The DSC 204 HP Phoenix® is ideally configured for these applications
DSC 404 C Pegasus - The high-vacuum-tight DSC 404 C Pegasus® is the technology leader among Differential Scanning Calorimeters for the high temperature range and for exact cp determinations. Its application is focused on high-performance materials in air and space travel, in machine and automobile construction, in the electrical industry and in energy technology.
DSC 404 F1 Pegasus - The new NETZSCH DSC 404 F1 Pegasus® allows the determination of specific heat and caloric effects in a broad temperature range with outstanding reliability, best resolution and accuracy. The high vacuum tight design, various furnaces and sensors, easily interchangeable by the user, make the new DSC 404 F1 Pegasus® to an ideal tool for DSC measurements at the highest level for research at universities and development tasks at the industrial sector.
DSC 404 F3 Pegasus - The new DSC 404 F3 Pegasus® offers a high flexibility for all DSC and DTA applications in quality control and product development. Furnaces and DSC/DTA sensors are available for a broad temperature range (-150...2000°C). Numerous upgrade possibilities allow adaption of this cost-effective system to sophisticated applications.
DTA 404 PC Eos - The DTA 404 PC ?os was developed for comparative material control up to high temperatures. All criteria for a dependable routine instrument for this area of application are integrated; increased flexibility and high sensitivity are achieved by using DSC sample carriers.
HMOR 422 - The modulus of rupture of refractory ceramics is determined as the amount of force applied to a rectangular test piece of specific dimensions until failure occurs. The available models of the HMOR 422 hot modulus of rupture apparatus are used to measure the failure load as well as bending under load or deformation force.
RUL/CIC 421 - The RUL/CIC Apparatus 421 RUL/CIC 421 enables determination of the deformation point under compression and the creep in compression with one instrument without retrofitting. Furnace, load device, differential measuring system, control and software are designed for reliable, automatic long-term operation.
STA 409 CD - STA 409 CD - Simultaneous TG-DSC
The STA 409 CD with single and double lifting devices for various exchangeable furnace types offers the extremely broad temperature range of -160°C to 2000°C. When equipped with a QMS Skimmer Coupling, the STA 409 CD becomes top-notch in the analysis of condensable vapors
STA 409 CD - The STA 409 CD with single and double lifting devices for various exchangeable furnace types offers the extremely broad temperature range of -160°C to 2000°C. When equipped with a QMS Skimmer Coupling, the STA 409 CD becomes top-notch in the analysis of condensable vapors
STA 409 F3 Luxx - The new STA 449 F3 Jupiter® combines the advantages of a high sensitive thermobalance and a true Differential Scanning Calorimeter. Various furnaces and TG, TG-DTA- and TG-DSC-sensors can be used, whereby the system can be easily optimized for the most versatile applications
STA 409 PC Luxx - The STA 409 PC Luxx® is among the most versatile systems in Simultaneous Thermal Analysis for routine applications in material research and development as well as in quality assurance, primarily in the inorganic field. Primed for QMS and FTIR coupling, it offers every alternative for comprehensive material characterization.
STA 429 CD - The perfect concept of the STA 429 CD - with its highest working temperature tungsten furnace up to 2400°C, its high-vacuum-tight construction and its sophisticated gas paths for high-purity atmospheres - allows simultaneous TG-DTA applications for contamination-free material studies in temperature ranges not achievable by any other STA
STA 449 C Jupiter - The STA 449 C Jupiter® is the most powerful and versatile STA system on the market for general research and development as well as for all material characterization tasks. This top-rate performance for Simultaneous Thermogravimetry - Differential Scanning Calorimetry instruments is achieved as a result of highly vacuum-tight instrument construction and the high TG and DSC resolution.
STA 449 F1 Jupiter - With the introduction of the new STA 449 F1 Jupiter® NETZSCH is setting new standards. Unlimited configuration flexibility and unmatched performance are the foundations for a great variety of application possibilities in the fields of ceramics, metals, plastics, and composites over a broad temperature range (-150...2000°C).
TG 209 F1 Iris - This premium thermobalance, through flexibility in the fittings, covers all imaginable applications of a modern TG in the range up to 1000°C. High sensitivity, short cooling times and the automatic sample changer (ASC), make this TGA particularly well-suited for the compositional analysis of plastics and rubbers
TG 209 F3 Tarsus - This easy-to-use thermo-microbalance was developed especially for routine applications in the field of plastics, but also for the chemical industry. It is the ideal starter unit up to 1000°C and, together with the DSC 200 F3 Maia®, represents a cost-effective overall concept.
TG 409 CD - The design of the TG 409 CD thermobalance is tailored for its application as a high-temperature instrument up to 2000°C with a graphite tube furnace and as unsurpassed Skimmer coupling for QMS up to 1450°C or 2000°
TG 409 F3 Jupiter - The new STA 449 F3 Jupiter® combines the advantages of a high sensitive thermobalance and a true Differential Scanning Calorimeter. Various furnaces and TG, TG-DTA- and TG-DSC-sensors can be used, whereby the system can be easily optimized for the most versatile applications
TG 409 PC Luxx - "Robust" and "dependable" are the outstanding characteristics of the TG 409 PC Luxx®. Any application requiring relatively high sample weights and high temperatures remains fair game. This thermobalance offers extension for TG-DSC and TG-DTA, coupling to QMS and FTIR, and corrosive gas and water vapor atmosphere.
TG 429 CD - For temperatures over 2000°C, the TG 429 CD is unsurpassable. Its perfect concept, the tungsten furnace up to 2400°C working temperature, the vacuum-tight construction and the sophisticated gas paths for very pure atmospheres allow material studies in temperature ranges that cannot be achieved by any other thermobalance
TG 449 C Jupiter - Highest sensitivity and excellent long-term stability are united in the TG 449 C Jupiter®. Flexibility in the fittings and broadest temperature range enable every research application imaginable. SuperRes®, extension for STA, coupling with QMS and FTIR, water vapor furnace and Knudsen cell are striking examples of the flexibility.
TG 449 F1 Jupiter - With the introduction of the new STA 449 F1 Jupiter® NETZSCH is setting new standards. Unlimited configuration flexibility and unmatched performance are the foundations for a great variety of application possibilities in the fields of ceramics, metals, plastics, and composites over a broad temperature range (-150...2000°C).
TMA 202 - With a unique concept for simple operation, the TMA 202 is the routine instrument for materials developers and polymer users and enables expansion, penetration, bending and tension measurements on polymers.
TMA 402 - The TMA 402 provides flexibility for the most varied types of burden and extremely precise and high-resolution determination of sample dilation or deformation for practically all materials and fields of application.
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