dynamic mechanical analysis

DMA 503 Eplexor® HT up to 500 N

For ceramics, metals, alloys, glasses, composites and more

Highlights

The DMA 503 Eplexor® HT line is the only instrument series on the market which is able to carry out DMA measurements with a maximum dynamic force of 500 N to 1500°C.

A high-temperature furnaces from RT to 1500°C is available. With a standard furnace (-160°C to 500°C) simultaneously mounted, it is possible to perform consecutive test runs in both the low- and high-temperature range. Eplexor® HT instruments can thus cover the entire temperature span from -160°C to 1500°C.

The electronics within the system automatically identify which furnace is currently in use.

The following DMA 503 Eplexor® HT are available:

Instrument TypeMax. Static ForceMax. Dynamic Force *)
DMA 503 Eplexor® 100 N HT1500 N± 100 N
DMA 503 Eplexor® 150 N HT1500 N± 150 N
DMA 503 Eplexor® 500 N HT1500 N± 500 N

Method

The Dynamic Mechanical Thermal Analyzer applies forced periodic loads to the sample and analyzes the phase shift between this primary excitation and the material’s response. The response of an ideal elastic system (e.g., spring) on a sinusoidal load at a given frequency is of the same frequency and exactly in phase with the excitation. The situation changes in a real system: A phase shift (δ > 0°) between the primary excitation and response of the same frequency occurs in the case of linear visco-elastic materials (e.g., polymers).

Elastic and non-elastic properties inherently describe the dynamic mechanical performance of the material. The storage modulus E’, the real part of the Complex ModulusThe complex modulus consists of two components, the storage and the loss moduli. The storage modulus (or Young’s modulus) describes the stiffness and the loss modulus describes the damping (or viscoelastic) behavior of the corresponding sample using the method of Dynamic Mechanical Analysis (DMA). complex modulus E*, represents the elastic component; the Viscous modulusThe complex modulus (viscous component), loss modulus, or G’’, is the “imaginary” part of the samples the overall complex modulus. This viscous component indicates the liquid like, or out of phase, response of the sample being measurement. loss modulus E’’, the dissipated part, is the imaginary part. Depicted in the complex plane, the loss and storage modulus are the projections of the Complex ModulusThe complex modulus consists of two components, the storage and the loss moduli. The storage modulus (or Young’s modulus) describes the stiffness and the loss modulus describes the damping (or viscoelastic) behavior of the corresponding sample using the method of Dynamic Mechanical Analysis (DMA). complex modulus onto the real and imaginary axis. The tangent of the angle between the real axis and the Complex ModulusThe complex modulus consists of two components, the storage and the loss moduli. The storage modulus (or Young’s modulus) describes the stiffness and the loss modulus describes the damping (or viscoelastic) behavior of the corresponding sample using the method of Dynamic Mechanical Analysis (DMA). complex modulus (E*) represents the phase shift (tanδ) between the two.

Specifications

Technical Data

Temperature Range
-160°C to 1500°C
(two furnaces needed for full temperature range)
Frequency Range
0.0001 Hz to 100 Hz; optional up to 200 Hz for fatigue
Static Force Range
max. 1500 N
  • Dynamic force range: ± 500 N, ± 150 N, ± 100 N
  • Interchangeable force sensor: ±10 N to ±2500 N
  • Blade springs: counteract the static forces and allow for independent superposition of the dynamic forces
  • Static displacement: 80 mm (50 mm with furnace)
  • Dynamic displacement: up to ± 6 mm (depending on the DMA 503 Eplexor® model)
  • Measurement modes for applications above 500°C:
    3-point bending, compression, tension (up to 900°C)
  • Work space of the high-temperature furnaces:
    cylindrical chamber, diameter: 70 mm, height: 120 mm

Software

The comprehensive DMA 503 Eplexor® HT Series software is based on Windows operating systems. The extensive software package comprises data and curve analyses, hysteresis representation, master curve calculations, etc. It also includes specific templates for tension, compression or bending tests.

The software features include:

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Related Devices

  • DMA 303 Eplexor®
    • Wide temperature range from -170°C to 800°C
    • Precise forces up to 50 N dynamic and static
    • Accessories for multiple measuring modes and a variety of sample holders
  • DMA 523 Eplexor®
    • Temperature range from -160°C to 500°C
    • Dynamic forces up to ±4000N
    • Static forces up to 6000N
  • HBU 523 Gabometer
    • Temperature range from -160°C to 500°C
    • Dynamic forces up to ±4000N
    • Static forces up to 6000N
  • DMA 503 Eplexor®
    • Temperature range from -160°C to 500°C
    • Dynamic forces up to ±500N
    • Static forces up to 1500N

Downloads & Media

Brochure and Datasheet

Videos & Webcasts

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NETZSCH GABO Eplexor®® 500 N

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How to test Rubber - Predictive Testing in Tensile Mode - Part 2

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Predictive Testing in the Tire Industry

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How to use Segment Program with Eplexor®® 9 Software

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How to test Rubber - Predictive Testing in Tensile Mode - Part 1