The heart of the TMA 402 Hyperion® is a highly precise inductive displacement transducer (LVDT)
This technology has stood the test of time; it is also used for dilatometers and allows measurement of even the smallest of length changes, into the nanometer range (digital resolution of 0.125 nm).

Vacuum-tight thermostatic measuring system
The entire TMA 402 Hyperion® measuring system is thermally stabilized via water-cooling. This ensures that the measurement will not be influenced by heat from the furnace or by temperature fluctuations in the local environment.

All joints have a vacuum-tight design to allow measurements in a highly pure atmosphere or under vacuum. Pressures of less than 10-4 mbar can be achieved in the TMA 402 F1 Hyperion® with the use of a turbo molecular pump. In combination with the integrated mass flow controllers (MFC) for purge and protective gases (optional in the TMA 402 F3 Hyperion®), measurements in highly pure inert gas or in oxidizing atmospheres can be optimally controlled.

Simultaneous measurement of force and displacement signal
The force operating on the sample is generated electromagnetically in the TMA 402 Hyperion®. This guarantees a quick response time for experiments with a changing load, e.g. tests on creep behavior. A highly sensitive force sensor (digital resolution < 0.01 mN) continuously measures the force exerted via the push rod and readjusts it automatically. This sets the TMA 402 Hyperion® apart from other instruments, which use only preset values.

Precise force control
The electronic control system for the TMA 402 Hyperion® allows forces to be set in the mN-range. This enables testing even on sensitive materials such as thin fibers or films. The force operating on the sample can be altered via the software in a stepwise or linear fashion. This makes it particularly simple to carry out such analyses as creep or stress sweep tests. The premium version of the TMA 402 Hyperion®, the TMA 402 F1 Hyperion®, provides even more capabilities. From single pulse in rectangular or ramp form to continuous modulation with a freely selectable frequency (up to 1 Hz), every possibility is covered. This model is
particularly well-suited for determining visco-elastic material properties such as elasticity and creep modulus.

Feature	Advantage	Benefit
Modular Concept	Furnaces are interchangeable and compatible with other NETZSCH instruments	Synergies in procuring and operating, easy and cost-effective expansion and retrofitting
Gas flows controllable via software	Programmable atmosphere change	Analysis of, for example, oxidation behavior without manual valve operation
Digitally programmable force control up to 3 N	Force alteration (linear/stepwise), continuous force modulation (TMA 402 F1 Hyperion®)	Determination of visco-elastic properties
A variety of accessories, e.g. special sample holders, immersion baths	Expansion of the application range	Measurement of powders, liquids, pastes or metals (until melting), immersion measurements