| Description | For 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 For 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 True Differential design negates the influence of measurement system expansion on the sample measurement. This measurement design is of particular benefit for dynamic temperature programs such as those employed in Rate-Controlled-Sintering (RCS) and for measurements at lower temperatures. The DIL 802 is designed for measurements under vacuum or inert gas while the DIL 802L is designed for measurements under air.... Read More | Two-samples simultaneous operation to maximize productivity without comprises on results.To maximize sample throughput, DIL 803 and DIL 803L offers two-samples simultaneous operation. DIL803 and DIL 803L can also be operated with an inert reference sample for quasi-differential measurement, reducingTwo-samples simultaneous operation to maximize productivity without comprises on results.To maximize sample throughput, DIL 803 and DIL 803L offers two-samples simultaneous operation. DIL803 and DIL 803L can also be operated with an inert reference sample for quasi-differential measurement, reducing the influence of measurement system expansion and increasing measurement accuracy under dynamic temperature conditions. The DIL 803 is designed for measurements under vacuum or inert gas while the DIL 803L is designed for measurements under air, making the DIL 803L ideally suited to measuring ceramic materials... Read More | With a proven record of hundreds of units installed globally in the laboratories of the most prominent Companies and Universities in the ceramics, metals and energy markets, Heating Microscopes Misura® 3 HSM and Misura® 3 HSML study the behaviour of a material subjected to a thermal treatment, With a proven record of hundreds of units installed globally in the laboratories of the most prominent Companies and Universities in the ceramics, metals and energy markets, Heating Microscopes Misura® 3 HSM and Misura® 3 HSML study the behaviour of a material subjected to a thermal treatment, ranging from room temperature up to a maximum of 1650°C, without any contact with the sample.... Read More | 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 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 optimization of all the industrial processes that involve thermal cycles.... Read More | Based upon the double beam design, with one optical path always aligned to the top of the specimen while the second focused on sample lower end correcting for any thermal-profile related drift, the contact-less Vertical Optical Dilatometer Misura® 3 ODHT allows to carry out measurements of Based upon the double beam design, with one optical path always aligned to the top of the specimen while the second focused on sample lower end correcting for any thermal-profile related drift, the contact-less Vertical Optical Dilatometer Misura® 3 ODHT allows to carry out measurements of dimensional changes up to 15% in expansion and down to 50% in shrinkage of the original dimensions. It enables to precisely study materials’ expansion, sintering or bloating and analyzes the sample behaviour throughout the entire industrial firing cycle up to a maximum temperature of 1650 °C with heating rates up to 80 °C/min.... Read More |