DIL 801 Single Sample Dilatometer

Suitable for a wide range of routine dilatometric tests, the DIL 801 and DIL 801L are horizontally configured single-sample dilatometers. The DIL 801 is designed for measurements under vacuum or inert gas while the DIL 801L is designed for measurements in air, making the DIL 801L ideally suited to measuring ceramic materials which are often processed in air.

Without a doubt DIL 801 and DIL 801L represent today the dilatometers with the best price / performance ratio on the market

Tuber 100

The Tuber 100 instrument conforms to ASTM C335 and ISO 8497. The absolute method combined with a sophisticated end guard heater system makes of Tuber 100 the most advanced and easiest tool to test pipe insulation. Sample length is one meter long with diameters ranging from 12mm to 100mm+. Two standard probes, 15mm and 22mm, are available, different sizes can be provided upon request.

Conductivity range is 0.02W/mK – 0.08W/mK. Temperature range up to 80°C with temperature control of 0.01°C.

FOX 1000

The FOX 1000 is a microprocessor-based thermal conductivity instrument specifically designed to accommodate large samples. For the testing of especially long sample, like for instance the large format vacuum insulation panels, the test chamber has front and back doors which allow to test specimens 1050 mm wide and as long as they are manufactured.

The instrument features proprietary thin film heat flux transducers, automatic digital thickness measurements, and responsive temperature control.

FOX 600 GHP

FOX 600 GHP is especially well-suited for thermal conductivity measurements at high temperatures, exhibiting unrivaled temperature and dimensional stability. Each of its components include state-of-art technology representing the best available today in advanced materials and electronics.

In a Guarded Hot Plate system a temperature difference (ΔT) is established across a sample of known thickness (L). The thermal conductivity is calculated from the temperature difference across the known thickness and the steady state power (W) per area (A) required to maintain the temperature difference. The Guarded Hot Plate uses a direct measurement of the electrical power supplied to the hot plate rather than heat flow meter signals from a Heat Flux Transducer.

Fox 801

The FOX 801 Heat Flow Meter is an accurate, easy-to-use instrument for measuring thermal conductivity according to ASTM C518 and ISO 8301. Capable to operate both in standalone or PC-controlled configurations, FOX 801 Heat Flow Meter provides rapid and accurate results. The instrument features proprietary thin film heat flux transducers, digital thickness measurements and responsive temperature control. A versatile instrument, it is especially well-suited to measuring slices of cellular plastics.

FOX 600

The FOX 600 Heat Flow Meter is an accurate, easy-to-use instrument for measuring thermal conductivity according to ASTM C518 and ISO 8301. Capable to operate both in standalone or PC-controlled configurations, FOX 600 Heat Flow Meter provides rapid and accurate results. The instrument features proprietary thin film heat flux transducers, digital thickness measurements and responsive temperature control. A versatile instrument, it is especially well-suited to measuring slices of cellular plastics.

Fox 314

The FOX 314 Heat Flow Meter is an accurate, easy-to-use instrument for measuring thermal conductivity according to ASTM C518 and ISO 8301. Operating in standalone or PC-controlled configurations, the FOX Heat Flow Meter provides rapid, accurate results. The instrument features proprietary thin film heat flux transducers, digital thickness measurements and responsive temperature control. The FOX 314 is a versatile instrument and is especially well-suited to measuring slices of cellular plastics.

FOX 200

The FOX 200 Heat Flow Meter is an accurate, easy-to-use instrument for measuring thermal conductivity according to ASTM C518 and ISO 8301. Operating in standalone or PC-controlled configurations, the FOX Heat Flow Meter provides rapid, accurate results. The instrument features proprietary thin film heat flux transducers, digital thickness measurements and responsive temperature control. The FOX 200 is a versatile instrument and is especially well-suited to measuring slices of cellular plastics.

Fox 50

The FOX 50 Heat Flow Meter is an accurate, easy-to-use instrument for measuring thermal conductivity and provides rapid results in a compact footprint. The instrument is configured with the identical high performance features and proprietary technologies of the larger FOX systems including thin film heat flux transducers, digital thickness measurements, responsive temperature control, plus an integrated contact-resistance correction.

DTC 300

DTC 300 is a guarded heat flow meter measuring the thermal conductivity over a wide range of temperatures accordingly to the ASTM E1530 Standard.

It employs one calorimeter module, located in the bottom stack, for the measurement of thermal conductivity, and a side guard furnace to prevent edge heat loss. The contact resistance is minimized by applying a pneumatic load to the test stack, and by using a thermally conductive interface compound.

ADT – Automated Density Tester

Density testing is made simple with the TA Instruments fully Automated Density Tester. This fully programmable, automated system measures the density of cured rubber materials using the finite difference (buoyancy) method. Active measurement of the fluid temperature increases accuracy by accounting for small changes in the density of the immersion fluid with temperature.

AHT – Automated Hardness Tester

The AHT Automated Hardness Tester streamlines the measurement of Shore A hardness for cured rubber materials. This fully programmable, automated system measures the hardness of cured rubber materials according to all international standards for Shore A hardness. Each measurement involves the determination of a user-defined number of single point Shore A values. The individual readings, mean and median of this set are reported for each sample.