Now in addition to the most sensitive and accurate rotational shear measurements, the DHR can deliver accurate linear Dynamic Mechanical Analysis (DMA) data. Thermal Conductivity & Diffusivity Analyzers, High Pressure Thermogravimetric Analyzers (HP-TGA), Discovery Hybrid Rheometer (DHR) Accessories, Nano Differential Scanning Calorimeter (DSC), ElectroForce Mechanical Testing Accessories, Thermal Conductivity & Diffusivity Brochures, ElectroForce Mechanical Testing Brochures, High Force DMA & Fatigue Test Instruments, Dielectric Thermal Analysis Accessory (DETA), Single and Dual Cantilever (Clamped Bending), Axial Force Control tracks material stiffness and automatically adapts static load, AutoStrain adjusts applied strain to changing sample stiffness, Responsive FCO temperature control: -150 C to 600 C. The sample chamber mounts directly to the DMA. Copyright 2023. The course will cover: Revolutionary new Fusion Cell further improves the performance on which youve come to rely. The chiller systems can help eliminate or reduce liquid nitrogen usage and associated hazards from any laboratory and offer an incredible return on investment. This ensures the most durable and reliable performance; proven over billions of cycles through decades of maintenance-free use in ElectroForce fatigue test instruments. Users can easily generate multiple calibration data sets under varying experimental conditions (e.g. Our websites may use cookies to personalize and enhance your experience. These downloads are a full version of the software and documentation. Building on superior technologies of the world's best-selling DMA, improvements in every aspect of DMA performance deliver the most accurate and reproducible measurement of mechanical properties over a wide temperature range. Monotonic testing, also known as tensile testing, is also useful for evaluating strength and deformation response. Go from characterizing molecular architecture and processing performance on the HR 30 to characterizing product performance properties such as impact resistance, blending homogeneity, structural performance, and glass transition temperature measurements on the DSC and HR 30s DMA mode. Competitive instruments employing air bearings and passive normal force measurements are inherently incapable of such measurements due to design limitations. All aspects of the LVR discussed in this note are general to viscoelastic samples, including (but in no way limited to) polymers, foods, gels, creams, pastes, slurries, emulsions, and inks. The analyzer controls deformation, temperature, sample geometry, and sample environment.
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