Project Case | Partnering with Kashgar University: A batch of high-quality equipment has been successfully delivered, helping to elevate the quality of education at this border‑area institution.

Recently, Kashgar University and our company have officially established a deep partnership, placing a bulk order for a batch of high-quality educational equipment.

Apr 24,2026

Project Case | Partnering with Kashgar University: A batch of high-quality equipment has been successfully delivered, helping to elevate the quality of education at this border‑area institution.

Project Case | Nanomechanical Indenter with Thermal Stage System Successfully Delivered to a University in Beijing

Recently, a customer‑customized nanoindentation system equipped with a temperature‑controlled stage was successfully delivered and has now been officially integrated into the customer’s materials micro‑mechanical property evaluation platform.

Apr 24,2026

Project Case | Nanomechanical Indenter with Thermal Stage System Successfully Delivered to a University in Beijing

Project Case | Successful Delivery of the Spectrometer Temperature-Controlled Chamber to King Abdullah University of Science and Technology

To meet the need for capturing the dynamic changes in material composition, we successfully customized a high-performance temperature‑controlled heating–cooling stage for a research group at King Abdullah University of Science and Technology, an overseas research institution. This device is not merely a temperature‑control system; it is also a powerful tool that helps researchers expand the frontiers of knowledge, contributing to the advancement of in situ characterization techniques under variable temperatures.

Apr 24,2026

Project Case | Successful Delivery of the Spectrometer Temperature-Controlled Chamber to King Abdullah University of Science and Technology

Project Case | Combined High Pressure and Extreme Temperature: A Breakthrough Technological Platform in Materials Science Example | Combined High Pressure and Extreme Temperature: A Breakthrough Technological Platform in Materials Science

In materials research, simultaneously controlling high pressure and extreme temperatures is essential for uncovering novel physical properties and synthesizing new materials.

Dec 26,2025

Project Case | Combined High Pressure and Extreme Temperature: A Breakthrough Technological Platform in Materials Science Example | Combined High Pressure and Extreme Temperature: A Breakthrough Technological Platform in Materials Science

Project Case | Empowering Research in Extreme Environments: An Ultra-Precise Thermal Stage Designed Specifically for Synchrotron Radiation and X-ray Fluorescence Spectroscopy

X-ray fluorescence spectroscopy (XRF) has emerged as a vital tool for elemental analysis of materials, continually driving research breakthroughs in fields such as new energy, semiconductors, and geosciences. As scientific exploration advances, researchers are moving beyond static observations at ambient temperatures, seeking instead to capture the dynamic evolution of material compositions in temperature‑controlled environments in real time, thereby uncovering deeper underlying mechanisms.

Dec 01,2025

Project Case | Empowering Research in Extreme Environments: An Ultra-Precise Thermal Stage Designed Specifically for Synchrotron Radiation and X-ray Fluorescence Spectroscopy
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