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Using IoT technology to help improve the standardization, intelligence and scale of ranching
Volcano Series In-Situ Stages(Heating)

Volcano Series In-Situ Stages(Heating)

The thermal field control is applied to the sample by MEMS chip, and the thermal field automatic control and feedback measurement system is constructed in the in-situ sample station, combined with EDS, EBSD and other different modes. Realize real-time and dynamic monitoring of key information such as microstructure, phase transition, element valence, microscopic stress, atomic structure and composition evolution of samples at the surface/interface with temperature change under vacuum environment from the nano or even atomic level.

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Breeze Series In-Situ Stages(Heating)

Breeze Series In-Situ Stages(Heating)

The atmosphere nanolaboratory was constructed in the in-situ sample table by MEMS micromachining technology, and the thermal field control was applied to the sample through MEMS chip. While thermal property measurement was carried out, EDS and other different modes were combined. The key information such as microstructure evolution, reaction kinetics, phase transition, element valence, chemical change, microscopic stress, and surface/interface structure and composition evolution of samples under atmospheric environment can be monitored in real time and dynamically at the nano level.

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Spring Series In-Situ Stages(Electrochemistry)

Spring Series In-Situ Stages(Electrochemistry)

Through MEMS chips to apply electrical signals to thin-layer or nano-battery systems, combined with a variety of different modes such as EDS, real-time and dynamic monitoring of key information such as microstructure evolution, reaction dynamics, phase transformation, chemical changes, surface/interface structure and composition evolution at the nano level can be achieved.

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

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

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.

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