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Gravity Series In-Situ Stages(Nano Indentation&Heating)

Product Features

The force and thermal composite multi-field automatic control and feedback measurement system is constructed in the in-situ sample station by MEMS chip, combined with EDS, EBSD and other different modes. The key information such as microstructure evolution, phase transition, elemental valence state, microscopic stress, and surface/interface structure and composition evolution of samples under vacuum environment can be monitored in real time and dynamically at the nano level.

  • Product composition
  • Unique Advantages
  • Functional Parameters
  • Application
  • a.Gravity Series In-Situ Stages(Nano Indentation&Heating)
    b.Nano Eletron Microscope Flange 
    c.in-situ stage storage box
    d.Nano Mechanics Heating Chip
    e.Nano Motion&Heating&Mechanics Measurement Control Software
    f.Thermal Controller
    g.Nano Probe Controller
    h.Probe Preparation System
    i.Accessory Package



    Leading mechanical properties ·1. High precision piezoelectric ceramic drive, nanometer level precision digital accurate positioning.
    ·2. Realize compression, tensile, bending and other micromechanical properties testing under 1000℃ heating conditions.
    ·3. Industry-leading NN-class mechanical measurement noise.
    ·4. With continuous load-displacement-time data real-time automatic collection function.
    ·5. With the control function of constant load, constant displacement and cyclic loading, it is suitable for the research of creep characteristics, stress relaxation and fatigue properties of materials.
    Excellent thermal properties ·1. High precision infrared temperature measurement and calibration, micron level high resolution thermal field measurement and calibration, to ensure the accuracy of temperature.
    ·2. Ultra-high frequency temperature control method, excluding the influence of wire and contact resistance, more accurate measurement of temperature and electrical parameters.
    ·3. High stability precious metal heating wire (non-ceramic material) is used, which is both a thermal conductive material and a thermal sensitive material, its resistance has a good linear relationship with temperature, the heating area covers the entire observation area, the heating and cooling speed is fast, the thermal field is stable and uniform, and the temperature fluctuation is ≤±0.1℃ in a stable state.
    ·4. High frequency dynamic control of closed loop and feedback of ambient temperature control mode, high frequency feedback control to eliminate errors, temperature control accuracy of ±0.01℃.
    ·5. Unique multi-stage composite heating MEMS chip design, control heat diffusion during heating process, greatly inhibit heat drift during heating process, and ensure efficient observation of the experiment.
    Efficient intelligent software ·1. Man-machine separation, software remote control of nanoprobe movement and sample platform tilting, automatic measurement of load-displacement data.
    ·2. Customize the program temperature curve. It can define more than 10 steps of heating procedures, constant temperature time, etc., and can manually control the target temperature and time. In the process of programmed heating, it is found that the temperature change and constant temperature are needed, and the experimental scheme can be adjusted immediately to improve the experimental efficiency.
    ·3. Built-in absolute temperature scale calibration program. Each chip can re-fit and correct the curve according to the change of resistance value each time to ensure the accuracy of measurement temperature and ensure the reproducibility and reliability of high temperature experiment.





  • Category Index  Numerical value
     Basic parameters Shaft material High strength titanium alloy
    Mode of control High precision piezoelectric ceramics
    Sample pedestal tilt Angle 360° rotation and ±90° tilt
    EBSD/EDS Available


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