HOT DISK TPS M1 Thermal Conductivity Instrument

TPS M1

 hotdisk m1

M1 - Thermal Conductivity Meter

The Hot Disk M1 is a basic Thermal Conductivity Meter with high accuracy and measurement repeatability. With the M1, solids, powders and pastes in the thermal conductivity range of 0.03 to 40 W/m/K are readily tested. The sample size should be minimum 40 mm diameter (or square) and have a thickness of at least 10 + 10 mm. Larger samples are easily tackled without any further preparations than two parallel samples.

Operating the M1

The Hot Disk M1 is controlled from your iPad® via a Wi-Fi connection, or through USB cable and the optional PC software. The M1 constitutes a complete package with the core M1 unit, Hot Disk Kapton sensor (#8563, radius 9.9 mm), sample holder, verification samples of stainless steel and Wi-Fi transmitter. The iPad® software for thermal conductivity measurements is available free through the App Store. Measurement data can be stored and exported via DropBox® oriTunes®. The simplicity of the M1 device and the quick-start guide makes it possible to begin measurements within minutes. To further add to its flexibility, the compact design of the M1 instrument makes it easy to move between measurement stations or other locations of interest.

Thermal Conductivity: 0.03 to 40 W/m/K

Measurement Time: 2.5 to 160 seconds

Reproducibility: Typically better than 3%

Temperature of operation: 10°C to 40°C

Power Requirements: Adjusted to the line voltage in the country of use

Smallest Sample Dimensions: 10 mm x 40 mm diameter  8or square)

Largest Sample Size: Unlimited

Sensor: Kapton sensor #8563 (9.9mm radius)

Sensors: The TPS 1500 operates a selection of Hot Disk sensors suitable for different materials and applications.

Temperature Control: Automatic Temperature series measurements (Isothermal Steps) are easy to perform using either an optional external Furnace or a temperature-controlled Circulating Bath. The Hot Disk Analysis software and TPS 1500 instrument controls the external device using RS-232 protocol.

Everything to get you started: The basic TPS 1500 system includes everything necessary to begin making measurements, including installation and on-site training. The instrumentation includes: Software with standard isotropic module, one Sensor, Stainless Steel verification samples and a Room-Temperature Sample Holder.

Optional Software Modules: In addition to the standard ISOTROPIC and ONE-DIMENSIONAL modules, optional ones for ANISOTROPIC, SPECIFIC HEAT CAPACITY, and LOW-DENSITY, HIGHLY-INSULATING SAMPLES are available.

The advantages of using a TPS instruments involve the following:

The method is non-destructive.

Contact resistance between sensor and sample does not influence measurement results.

Porous and transparent samples are easy to test, without modification.

Surface roughness or surface color does not influence measurement results.

Minimum- or no sample preparation.

Double-sided testing for maximum accuracy.

Optional single-sided QC-testing for maximum ease.

Instant and fully consistent thermal conductivity results.

Three thermal transport properties measured in a single transient.

No calibration or reference sample verification required. (The TPS technique is an absolute technique.)

Thermal Testing Laboratories: The Transient Plane Source (TPS) series of thermal conductivity systems are well suited for thermal testing laboratories due to their superior material type, sample size and temperature flexibility.

Nanotechnology: Nano-Research is the creation of high performance functional materials, devices and systems through control of matter on the nanometer length scale. The TPS series of thermal conductivity systems are particularly well suited for the testing of nano-engineered materials, whether your interests are in solids or liquids. One highlight is the electrically insulated TPS sensors, which are key to accurately measuring the thermal conductivity of liquids, without the negative influence of nano-particle + non-insulated metal sensor the more traditional methods suffer from.

Building Materials: With the ability to measure homogenious and non-homogenious materials, the TPS thermal conductivity systems can be used to test all building materials from insulation to concrete and everything in between.

Heat Transfer Materials: Uniquely designed to test heat transfer materials of all types, including solids, liquids and pastes. The TPS Thermal Conductivity Systems are also able to test complex heat transfer samples such as thin films and higly conductive sheets. For anisotropic samples, the TPS can measure directional thermal conductivity through the thickness and in the plane.

Geothermal: Thermal Conductivity is an ever increasing property to understanding the geothermal industry. Widely used for its ability to test samples like soil and rock with temperature, the TPS thermal conductivity instrument continues to play an important part in this growing industry.

Solids: Offering the best combination of accuracy and testing flexibility, the TPS thermal conductivity systems cover a wide range of thermal conductivity (0.001 to 500 W/mK). Added to this flexibility is the ability to test composites, thin films and anisotropic solids.

Liquids: The TPS thermal conductivity systems can be used to test liquids under conditions of minimised volume, temperature and pressure. The electrically insulated TPS sensor offers several advancements over the typical bare metal sensors, such as protection from particle interference and convection effects.

Powders: Whether your particles are small or large in size, the TPS thermal conductivity system offers several sensor sizes to accomadate the individual particle or bulk sample.

Pastes: Combining the ability to measure semi-solids and high thermal conductivity, make the TPS thermal conductivity system a perfect tool for measuring pastes.

Top