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Temperature Stage
Hot and cold stage
It provides a precise temperature environment for optical microscope observation or material heat treatment, adapts to different sample forms and experimental needs, and covers three scenarios: "polarized light observation", "ultra-thin sample compatibility", and "industrial heat treatment simulation".
Optical
Provide temperature control support for spectral analysis, ellipsometric testing, and electron microscopic observation, compatible with optical paths and vacuum environments, enabling the "temperature-optical properties" correlation research.
Multi-window heating and cooling stage for Spectrometer
Multi-window optical design and wide-temperature-range precision temperature control
- Multi-window Optical Adaptation System
- Wide Temperature Range Precision Temperature Control Technology
- High-efficiency Experimental Process Design
- Harsh Environment Adaptability
OptiThermo Stage
Universal temperature control technology + unified optical adaptability + consistent sample positioning system
- Compatibility with multi-scenario environments
- Intelligent temperature control integration
- Modular interface design
- Lightweight and compact design
PeltierThermo Stage
The core temperature control methods are unified, the basic optical adaptations are consistent, and the temperature control accuracy is stable.
- Lightweight structural design
- Convenient sample operation
- Flexible adaptation to multiple scenarios
- Strong adaptability of temperature control rate
OptiHeat Stage
Good optical adaptability + flexible chamber design + diverse temperature control methods
- Wide temperature range coverage
- Compact structure
- High degree of customization
- Convenient software control
UltraHot Stage
Precise temperature control technology + wide temperature range coverage + optical path and window design
- Excellent high-temperature performance
- Comprehensive customized services
- Compact structure and easy operation
Infrared Heating Furnace
Equipment that uses infrared radiation for heating
- Fast heating speed
- Precise temperature control
- Energy-saving and environmentally friendly
- Flexible heating methods
Electrical
Provide a "temperature + electric field/magnetic field" multi-field coupling environment for testing the electrical properties of electronic devices, and reveal the correlation law of "temperature - electrical characteristics".
Ultra-high temperature probe stage
High temperature resistance stability + High-precision testing + Flexible compatibility
- Super strong high-temperature resistance stability
- Flexible software compatibility
- High-precision temperature control and rapid temperature rise
- Compact and lightweight design
GG Series ProbeThermo Stage
Wide temperature range adjustment, precise temperature control, probe integrated measurement
- Accurate temperature control (±0.1℃, multi-mode)
- Strong adaptability (compatible with optional instrument optical paths)
- Standard probes (4 sets of BNC interfaces)
- Customization support (chamber, probes, software)
- Unified temperature control (high heating and cooling rates)
ExtProbe Stage
External / internal displacement mechanism, with high-precision adjustability + high stability + wide temperature range coverage
- High-precision probe adjustment and signal transmission
- Highly stable temperature control and wide scene adaptation
- Vacuum environment and optical compatibility design
MotorProbe Stage
Quick response feature + strong optical compatibility + easy operability
- Precise electronic control adjustment
- Wide temperature range and stable temperature control
- High-quality optical properties
- Diversified functional design
Mechanical
It provides a temperature-controlled environment for mechanical experiments such as tension and compression, studies the correlation law of "temperature-mechanical properties", and is compatible with equipment such as universal testing machines and nanoindenters.
Temperature Controlled Stages for mechanical testing
Study on Material Properties under Temperature-Mechanical Coupling Environment
- Wide temperature range + high-precision temperature control
- Strong adaptability
- Extensibility of multi-field coupling
- Accurate data synchronization
Tensile Stage
Precision testing equipment dedicated to research on the synergistic evolution of material mechanics - microstructure
- Multimodal mechanical testing
- Wide temperature range
- High-precision control
- In-situ observation capability
- Modular design
TensileThermo Stage
An important equipment for the study of the micromechanical properties of materials
- Precise temperature control
- Diverse mechanical tests
- Convenient in-situ observation
- Strong compatibility
Special Applications
It targets extreme scenarios such as ultra-high temperature, vacuum, and high pressure, meets special experimental needs, and breaks through the environmental limitations of conventional equipment.
Ultra-high temperature stage for Microscope
Ultra-high temperature resistance + long-term stable operation
- Extreme high-temperature performance
- Precise temperature control and stability
- Seamless adaptation to microscopes
- Compact, durable and safe
- Wide range of scenario coverage
XRDThermo Stage
Equipment used with X-ray diffractometers (XRD)
- Wide temperature range regulation
- Precise and stable temperature control
- In-situ testing function
- Good radiation transmittance
SEMThermo Stage
A variable temperature sample stage installed in the sample chamber of a scanning electron microscope (SEM)
- In-situ variable temperature observation
- Wide temperature range
- High-precision temperature control
- Compatible with various analyses
CellInSitu ThermoStage
Battery temperature change experimental equipment
- Wide temperature range control
- High-precision temperature control
- In-situ testing function
- Flexible environmental control
FlashAnneal Furnace
Equipment designed specifically for high-temperature processing of semiconductors
- Rapid temperature rise
- Uniform temperature
- Compatibility with multiple processes
- Wafer adaptation
