THERMOMECHANICAL ANALYZER

$0.00

Product Overview

The NETZSCH TMA 402 F3 Hyperion® is a high-precision Thermomechanical Analyzer designed to measure dimensional changes of materials as a function of temperature, time, and applied force. The system provides accurate characterization of thermal expansion, shrinkage, softening behavior, glass transition, and viscoelastic properties, making it an essential instrument for advanced materials research and quality control.

The TMA 402 F3 Hyperion® is widely used for the characterization of polymers, composites, ceramics, metals, biomaterials, dental materials, and electronic components, helping researchers understand material behavior under thermal and mechanical loads.

Key Features

  • High-precision thermomechanical measurements

  • Wide temperature operating range

  • Multiple measurement modes for diverse applications

  • Automated force control and displacement measurement

  • High-resolution expansion and contraction analysis

  • Sensitive detection of glass transition temperatures

  • Controlled atmosphere operation

  • Excellent temperature accuracy and reproducibility

  • User-friendly Proteus® software for data acquisition and analysis

  • Suitable for research and industrial quality control

Applications

  • Coefficient of Thermal Expansion (CTE) determination

  • Dimensional stability studies

  • Glass transition temperature (Tg) analysis

  • Softening and deformation behavior evaluation

  • Polymer and composite characterization

  • Dental and biomaterial research

  • Ceramic and metal analysis

  • Thin film and coating evaluation

  • Electronic packaging material testing

  • Quality control and product development

Technical Capabilities

  • Thermal expansion and contraction measurements

  • Coefficient of Thermal Expansion (CTE) determination

  • Penetration and softening point analysis

  • Dilatometric measurements

  • Shrinkage and swelling studies

  • Glass transition detection

  • Viscoelastic property evaluation

  • Creep and stress-relaxation investigations

Product Overview

The NETZSCH TMA 402 F3 Hyperion® is a high-precision Thermomechanical Analyzer designed to measure dimensional changes of materials as a function of temperature, time, and applied force. The system provides accurate characterization of thermal expansion, shrinkage, softening behavior, glass transition, and viscoelastic properties, making it an essential instrument for advanced materials research and quality control.

The TMA 402 F3 Hyperion® is widely used for the characterization of polymers, composites, ceramics, metals, biomaterials, dental materials, and electronic components, helping researchers understand material behavior under thermal and mechanical loads.

Key Features

  • High-precision thermomechanical measurements

  • Wide temperature operating range

  • Multiple measurement modes for diverse applications

  • Automated force control and displacement measurement

  • High-resolution expansion and contraction analysis

  • Sensitive detection of glass transition temperatures

  • Controlled atmosphere operation

  • Excellent temperature accuracy and reproducibility

  • User-friendly Proteus® software for data acquisition and analysis

  • Suitable for research and industrial quality control

Applications

  • Coefficient of Thermal Expansion (CTE) determination

  • Dimensional stability studies

  • Glass transition temperature (Tg) analysis

  • Softening and deformation behavior evaluation

  • Polymer and composite characterization

  • Dental and biomaterial research

  • Ceramic and metal analysis

  • Thin film and coating evaluation

  • Electronic packaging material testing

  • Quality control and product development

Technical Capabilities

  • Thermal expansion and contraction measurements

  • Coefficient of Thermal Expansion (CTE) determination

  • Penetration and softening point analysis

  • Dilatometric measurements

  • Shrinkage and swelling studies

  • Glass transition detection

  • Viscoelastic property evaluation

  • Creep and stress-relaxation investigations