DMA 242C

Dynamic-Mechanical Analysis (DMA) / Dynamic Mechanical Thermal Analysis (DMTA) records the temperature-dependent visco-elastic properties and determines the modulus of elasticity and the damping values by applying an oscillating force to the sample.

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 for polymers.

TMA 402 Hyperion

What sets the new TMA 402 F1/F3 Hyperion® apart is the modular concept of interchangeable furnaces covering the temperature range from -150°C to 1550°C, which are also compatible with other NETZSCH instruments. A large number of sample holder types and adjustment possibilities are available. The new TMA 402 F1/F3 Hyperion® can be operated with a broad range of force, digitally programmable from -3 N to 3 N. The F1 version is ideal to determine viscoelastic properties of polymers.

DEA 230/X Epsilon

For investigation of the curing behavior of thermosetting resin systems, composite materials, adhesives and paints, Dielectric Analysis (DEA) in accordance with ASTM E 2038 or E 2039 has stood the test of time. The great advantage of DEA is that it can be employed not only on a laboratory scale, but also in process.
For measurement of the ion conductivity, which is calculated from the dielectric loss factor, or its reciprocal value, the ion viscosity, NETZSCH offers single- and multiple-channel DEA systems, depending on the application, which operate in various measurement and frequency ranges with different types of sensors.

There are three different types 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. Every DEA 230/X is now available with a brandnew software for measurement and analysis. 

DSC 200 F3 Maia with automatic sample changer

The Differential Scanning Calorimeter DSC 200 F3 Maia with automatic sample changer unites compactness, robustness and simple operation with high detection sensitivity for your preferred application in quality control and failure analysis, especially in polymer processing.

LFA 447 NanoFlash

Thermal conductivity and diffusivity are the most important thermophysical material parameters for the description of the heat transport properties of a material or component. For the precise measurement of thermal diffusivity, the LaserFlash technique (LFA) has proven itself as a fast, versatile and precise absolute method.

In the LFA 447 NanoFlash®, a powerful Xenon flash lamp is used instead of the laser used in other LFA instruments. An integrated sample changer and easy accessibility to the sample receptacle allow high sample throughput for routine applications up to 300°C - ideal for polymers and composites.

TG 209 F3 Tarsus with automatic sample changer

The easy-to-use thermo-microbalance TG 209 F3 Tarsus with automatic sample changer 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.

DSC

Thanks to its versatility and explanatory power, Differential Scanning Calorimetry (DSC) is the most-employed Thermal Analysis method. NETZSCH DSC instruments work according to the heat flow principle and are characterized by a three-dimensional symmetrical construction with homogeneous heating. Sensors with high calorimetric sensitivity, short time constants and a condensation-free sample chamber in the DSC cell guarantee high detection sensitivity and stable, reproducible baselines over the entire life cycle of an instrument: ideal qualifications for successful application in research and academia, materials development and quality control.