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Dynamic Mechanical Viscoelastic Analyzer NEXTA DMA
Dynamic Mechanical Viscoelastic Analyzer NEXTA DMA
Product details
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Advantages and Features of NEXTA DMA200 Product- *Apply a large force of 20N, suitable for measuring carbon fiber composite materials and other high-performance materials.
- Widely applicable power range, with a resolution of 5E-6N and extremely low signal-to-noise ratio, even small material changes can be detected and analyzed.
- You can choose air, liquid nitrogen (LN2), or electronic cooling options; Electronic cooling relies on internal circulation of refrigerant, without any loss concerns; The LN2 cooling device can reduce liquid nitrogen consumption by 30%.
- Equipped with Lissajous monitoring function, it can view the real-time deformation status of the sample at different measurement points, determine whether the DMA line obtained is reliable, and study the influence of factors such as stress-strain amplitude, temperature, frequency, and cycle on vibration fatigue.
- Support the expansion of advanced Real View ® The visualization camera system can provide real-time observation during the measurement process, helping customers understand the changes in sample conditions such as sample damage or color changes.
- The software has a built-in "Guidance Mode" that provides users with step-by-step measurement and analysis guidance. The software comes standard with multiple advanced analysis options, such as main curve (TTS), master curve dominant curve, and activation energy calculation, supporting various advanced applications.
- The Hitachi NEXTA DMA instrument complies with ISO, ASTM, DIN, and JIS standards, and the software includes basic specifications such as ISO 6721-11, ASTM D7028-07, IPC 2.4.24.2, JIS K7095, etc.
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▶ Automotive industry: used to evaluate the material properties of automotive parts, such as the elastic modulus and fatigue resistance of plastics, rubber, and metal materials.
▶ Aerospace industry: used to evaluate the performance of aerospace materials, such as the thermal stability and mechanical properties of aerospace composite materials.
▶ In the field of electronics and semiconductors: used to evaluate the mechanical and thermal properties of packaging materials for electronic components, such as plastic packaging, thermal conductive adhesives, etc.
▶ High performance materials: used to evaluate the performance of high-performance materials, such as the elastic modulus and tensile strength of composite materials such as glass fiber and carbon fiber.
▶ Chemical industry: used to evaluate the material properties of chemical products, such as the viscoelastic properties of polymers, coatings, and adhesives.
▶ Biomedical Engineering: Used to evaluate the material properties in the field of biomedical engineering, such as the viscoelastic properties of water-based adhesives, biomedical film materials, and contact lenses.
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