Paper Award—Warm Congratulations to Our Client on the Publication of a Paper in an International Journal Using a Visualized High-Temperature Deformation Tester
2026-02-27
Shanghai Institute of Ceramics Professor Wang Shiwei
Professor Wang Shiwei currently serves as the leader of a research group at the Center for Transparent Ceramics of the Shanghai Institute of Ceramics, Chinese Academy of Sciences. 2016 year 12 Monthly recipient of the State Council Government Special Allowance, 2014 year 4 In [month], he was selected for the Shanghai Outstanding Technical Leader Program. He currently serves as Vice Chairman of the Special Ceramics Division of the Chinese Ceramic Society, a Director of the Chinese Society of Space Sciences, Deputy Chairperson of the Space Materials Committee of the Chinese Society of Space Sciences, Deputy Chairperson of the Ceramics Division of the Chinese Society of Rare Earths, Vice Chairman of the Engineering Ceramics Committee of the Chinese Mechanical Engineering Society, and Associate Editor-in-Chief of the Journal of the Chinese Ceramic Society. J. Asian Ceram. Soc. Associate Editor, International Conference on Luminescence ( ICL ) positions such as organizing committee member.
The paper “Coupled roles of MgF2 additive on sintering of sub-micron alumina transparent ceramics” by Professor Wang Shiwei’s research group has been published in the Journal of the European Ceramic Society, a journal with an impact factor of 6.2. The paper was awarded the Second Prize under our company’s Paper Award Program.
High-temperature visualization used in the paper Deformation Testing Instrument ( TA- Z 16A B , Tianjin Zhonghuan Furnace Corp., China) Used for Measure the dimensional changes of the sample. We would like to express our sincere gratitude to the teachers for their recognition of Tianjin Zhonghuan Instruments. Tianjin Zhonghuan will continue to support researchers in their scientific studies and technological innovation.
Visual High-Temperature Deformation Analyzer , Optical non-contact measurement is used to quantify the expansion and contraction of materials during the sintering process. During temperature cycling, changes in shape, dimensions, and phase state are monitored online in real time, and an intelligent data acquisition and image-processing system generates intuitive, accurate data and graphical reports. The product performance is comparable to that of international counterparts and ranks among the leading domestic offerings. This visual high-temperature deformation analyzer is employed in materials research and development as well as manufacturing, facilitating the precise optimization of sintering and heat-treatment processes, enhancing product quality, and reducing production costs.
Main Functions
♦ High-Temperature Test: Maximum Operating Temperature 1600℃/2000℃
♦ Real-time dynamic measurement of shrinkage deformation during sintering: non-contact measurement and recording of the temperature-dependent curves for sample height, width, and area during the sintering process.
♦ Determine the characteristic temperatures: sintering point, softening point, spheroidization, hemispheroidization, and melting point.
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