Dilatometer / Dilatometry (DIL)

Dilatometry (DIL) measures volume changes caused by physical and chemical processes. They are used in manufacturing, engineering, materials science, and chemistry labs. When working with a dilatometer, the first step is to load the sample into the machine. The sample is subjected to physical or chemical processes, most often in the form of heating from a furnace, and a sensor picks up on the volume changes.

Dilatometers can be used to calculate a material's coefficient of thermal expansion, softening point, glass transition temperature, Curie point, crystalline transformation, phase transition, and amount of shrinkage. When purchasing dilatometry equipment, it is important to consider the type of material that will be tested, the method of capture for measurements, and the software used.

CompanyTA Instruments – a division of Waters CorporationTA Instruments – a division of Waters CorporationTA Instruments – a division of Waters CorporationTA Instruments – a division of Waters CorporationTA Instruments – a division of Waters Corporation
ItemDIL 802 Differential DilatomerDIL 820 HT HiTemp Vertical DilatometerHM 867 Heating MicroscopeODP 868 Optical Dilatometer with Heating Microscope and Fleximeter ModesOptical Fleximeter Misura® 3 FLEX
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Catalog NumberDIL 802/802LDIL 821HT / DIL 822HTHM 867ODP 868Misura® FLEX
Price
DescriptionFor highest measurement accuracy, the DIL 802/802L provides a truly differential measurement in a horizontal dilatometer.

For highest measurement accuracy, DIL 802 and DIL 802L provides a truly differential measurement. Measuring only the difference between the sample and the reference specimen, the

The 820HT Series operates up to high temperatures in a vertical orientation , making it uniquely set up for the analysis of sintering, studies in Rate Controlled Sintering (RCS) mode and the determination of dilatometric parameters of samples otherwise Impossible to be correctly analyzed on classic Result of over twenty years of R&D of optical instruments for the study of the thermo-mechanical behavior of materials, HM 867 makes possible the analysis of samples beyond the limits of classical heating microscopy. Its versatility makes of HM 867 the most innovative tool for both R&D and for the ... Read MoreResult of over twenty years of R&D of optical instruments for the study of the thermo-mechanical behavior of materials, ODP 868 makes possible the analysis of samples beyond the limits of classical heating microscopy. Its versatility makes of ODP 868 the most innovative tool for production and R&D ... Read MoreThe Optical Fleximeter Misura® FLEX is the ideal instrument to study flexural behaviour of materials undergoing real industrial firing cycles without application of loads.

The optical fleximeter analyzes a sample that is suspended between two holding rods 60mm spaced. A HiRes videocamera frames the

Temperature Range-160°C to 1650°C according to furnace typeRT – 2000°C / 300°C – 2300°CRT – 1600 °CFrom RT up to 1650 °Cfrom RT up to 1600 °C (1750°C with HiTemp optional furnace)
Heating / Cooling RatesInquireInquireHeating Rate - 0,1 – 80 °C/minHeating Rate – 0,1 – 100 °C/min (200 °C/sec in Flash mode)Max Heating Rate – 0,01- 30 °C/min (20°C/min with HiTemp optional furnace)
Sample HolderInquireAl2O3, GraphiteInquireInquireInquire
Sample Length0 to 50 mm0 to 25 mmInquireUp to 85mmInquire
Sample Diametermax. 7 or 10 mm after conversion to DIL 801: 14 or 20 mm10mm / 5mmInquireInquireInquire
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