Mechanical Testing Heating and Cooling Stage-Product Center-Congtical Technology

In-situ temperature‑controlled fatigue testing rig

The in-situ variable-temperature fatigue stage is a thermal‑mechanical testing platform specifically designed for material fatigue studies. When coupled with a scanning electron microscope, it enables real-time, in-situ observation of the evolution of a material’s microstructure under combined dynamic temperature and cyclic loading conditions.

Tensile Heating and Cooling Stage

The thermomechanical testing platform is widely used in scientific research for investigating the mechanical properties of materials. It can perform tensile, compressive, and other mechanical tests on a variety of materials, including metals, inorganic compounds, and polymers, making it an essential tool for studying the temperature‑dependent mechanical behavior of materials, particularly at low temperatures.

Nanoindenter Heating and Cooling Stage

The nanoindentation system’s temperature‑controlled stage is suitable for applications involving semiconductor and aerospace materials that require mechanical and thermal testing. It is primarily used to investigate how a material’s hardness, elastic modulus, and other mechanical properties vary with temperature. The system enables vacuum‑environment testing over a range from −190°C to 400°C, without causing oxidation or frost formation on the sample.

In-situ SEM tensile stage for heating and cooling

The SEM in-situ tensile heating–cooling stage enables microstructural observation of materials under tensile or compressive loading at elevated and reduced temperatures. It is primarily designed for research in areas such as organic polymers, nanomaterials, metallic materials, and composite materials, and serves as an essential tool for investigating the mechanical properties of new materials.

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