It adopts a tungsten alloy heating mold, which can resist high temperature and corrosion, avoiding deformation and corrosion of the mold at 800°C. It has an independent high-temperature control system, with a heating rate of 0–50°C/min adjustable, and the temperature control accuracy can reach ±1°C at 800°C. It is equipped with an inert gas inlet interface to prevent oxidation of high-temperature samples, and supports optional vacuum environment testing. It solves the pain point that traditional rheometers cannot meet the high-temperature testing requirements, providing accurate data support for the development of high-temperature materials.
The overall dimensions are 800mm×600mm×1200mm, with a total weight of 350kg. The torque measurement range is 1–300 N·m with 0.01 N·m resolution, rotational speed range is 5–250 rpm with ±0.3 rpm accuracy. It supports connection to inert gas cylinders and vacuum pumping systems, and is equipped with professional high-temperature rheological analysis software that can process high-temperature test data and generate professional analysis reports.
It is suitable for aerospace composite material R&D, ceramic material sintering testing, metal powder forming rheological testing, and new energy high-temperature material R&D. Typical application scenarios include testing the rheological properties of ceramic matrix composites at 800°C to optimize sintering process parameters, and analyzing the flow behavior of titanium alloy powder during powder metallurgy forming.
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