The ElectroForce 3200 Series III test instruments feature a 225 N (450 N optional) maximum force. With the versatility of static to 300 Hz frequency response, the table-top configuration is adaptable to a variety of biomedical research and engineered materials test applications, including torsion testing, creep under dynamic loading and special environments (hot/cold chambers).
Measuring less than 50.8 cm (20 inches) tall, the ElectroForce 3100 test instrument is the smallest in the ElectroForce product family. The 3100 will fit on a desk or table-top, and it is extremely lab friendly thanks to its practically maintenance-free operation. The 3100 instrument is well-suited for micro-characterization of materials and devices because of its exceptional control resolution up to 22 N static maximum force.
Scarabaeus Software Instrument Control and Data Analysis The Scarabaeus Software for instrument control and data analysis is a powerful and versatile system for programming experiments, providing quick feedback of results, and managing data from all rubber testing instruments. The Scarabaeus Software was developed with customers from the rubber industry and is designed to meet the…
Sample preparation for RPA, MDR, and Mooney instruments is made safe and simple with the VS volumetric sample cutter. This dual-action pneumatic system allows for the preparation of uncured rubber specimens of a user-defined volume. Preparing samples in this well-controlled fashion reduces operational variability, greatly improving overall experimental precision.
The VS comes standard with a closing pressure of 6 bar. The sample is first compressed to the user-prescribed thickness, then cut to the die diameter. The closing pressure, and sample volume are user adjustable. Two handed operation and lateral guards guarantee safe operation at all times.
TAM IV is the most sensitive, stable and flexible microcalorimeter system in the world for directly measuring this universal heat signal and, therefore, the quantitative thermodynamic and kinetic observation of any process. It is a unique microcalorimeter system that is completely modular and combines the highest heat flow sensitivity with unmatched long term temperature stability for measuring many processes that are undetectable by other techniques. A wide range of calorimeter configurations and sample handling systems provide maximum application flexibility and ensure optimum laboratory productivity.
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The DIL805 Series comprises of four models: DIL 805L, DIL 805A are quenching dilatometers, DIL 805A/D is a quenching with the capability to deform the specimen by compression, and DIL 805A/D/T that can also stretch it in tension mode.
All four instruments are fully automated, self-contained units used to measure dimensional changes under extreme conditions of controlled heating and cooling.
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.
Adopting state-of-the-art technologies in the field of optical and thermal analysis, it is supplied with Misura 4 Thermal Analysis software, the proven software platform that provides an intuitive interface for instrument control and data handling and features the most thorough and precise image analysis.
VIS 403 and VIS 403HF The high temperature rotational viscometers, adopted as the standard by all the companies for the measurement of the dynamic viscosity of glasses, slags, and mold powders. OverviewSpecifications The high temperature viscometers VIS 403 and VIS 403HF measure the dynamic viscosity of materials with Newtonian behavior such as glasses, slags or mold powder.…
Result 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 laboratories for the optimization of all the industrial processes that involve thermal cycles.
The Heating Microscope mode uses a 5Mpix high resolution camera to study the physical behavior of the materials during the industrial firing cycles.
This optical dilatometric measurement method used in DIL 806 is an absolute process, entirely independent of any possible expansion or contraction of the instrument. Consequently, measured results do not need to be corrected or calibrated for different temperature programs. Coupled with the fast response of the DIL806 furnace, this makes the system particular well-suited for the analysis of dynamic processes that involve multiple temperature steps and dynamic heating rates.
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 dilatometers with horizontal design.
Available in two different models (DIL 821HT and DIL 822HT), both the units feature the new optical encoder with 1nm resolution. That when combined with the True Differential of the DIL822HT, the result is simply the best possible sensitivity and CTE accuracy in the high temperatures segment.