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Feb272016

RSA-G2 Solids Analyzer

Dynamic Mechanical Analyzers (Rheology), Products, Rheology, Thermal Analysis

The new RSA-G2 is the most advanced platform for mechanical analysis of solids. The separate motor and transducer technology of the RSA-G2 insures the purest mechanical data through independent control of deformation and measurement of stress. It is capable of performing the most accurate DMA measurements as well as many additional experiments including creep and recovery, stress relaxation, stress ramps, strain rate ramps, iso-strain, iso-force, fatigue, multi-wave, arbitrary waveform, and dielectric thermal analysis.

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Feb272016

VTI-SA+

Products, Thermal Analysis, Vapor Sorption Analysis

The VTI-SA+ Vapor Sorption Analyzer is a continuous vapor flow sorption instrument for obtaining precision water and organic vapor isotherms at temperatures ranging from 5°C to 150°C at ambient pressure. The VTI-SA+. Analyzer embodies the features of VTI’s original SGA design with almost two decades of field-proven performance: the isothermal aluminum block construction, the three isolated thermal zones and chilled-mirror dew point analyzer for primary humidity measurements… all to provide excellent temperature and RH stability.

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Feb92016

Discovery HR-3

Discovery Hybrid Rheometers, Products, Rheology

The new Discovery Series Hybrid Rheometer (DHR) represents the latest technological breakthroughs from the world leader in rheology. It combines a patented advanced drag cup motor, a second generation magnetic bearing, force rebalance transducer (FRT), and the new patent-pending True Position Sensor (TPS) in a single-head Hybrid rheometer. The DHR has unprecedented performance specification and delivers unsurpassed direct strain control, direct stress control, and normal force measurement accuracy.

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Feb92016

Discovery HR-2

Discovery Hybrid Rheometers, Products, Rheology

The new Discovery Series Hybrid Rheometer (DHR) represents the latest technological breakthroughs from the world leader in rheology. It combines a patented advanced drag cup motor, a second generation magnetic bearing, force rebalance transducer (FRT), and the new patent-pending True Position Sensor (TPS) in a single-head Hybrid rheometer. The DHR has unprecedented performance specification and delivers unsurpassed direct strain control, direct stress control, and normal force measurement accuracy.

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Feb92016

Discovery HR-1

Discovery Hybrid Rheometers, Products, Rheology

The new Discovery Series Hybrid Rheometer (DHR) represents the latest technological breakthroughs from the world leader in rheology. It combines a patented advanced drag cup motor, a second generation magnetic bearing, force rebalance transducer (FRT), and the new patent-pending True Position Sensor (TPS) in a single-head Hybrid rheometer. The DHR has unprecedented performance specification and delivers unsurpassed direct strain control, direct stress control, and normal force measurement accuracy.

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Dec172015

DXF 500

Flash Diffusivity Systems, Products, Xenon Flash

The Discovery Xenon Flash (DXF) source module employs a High Speed Xenon-pulse Delivery source (HSXD) which has considerably higher efficiency, lower costs and less maintenance than equivalent systems. A reflective optic configuration of our design effectively harnesses the power of a Xenon flash tube and, with the aid of proprietary wave guides, delivers it to the specimen inside the Environmental Module. DXF 500 produces a pulse width of 400 μs to 600 μs and uniformly concentrates the power from the flash source directly on the entire face of the specimen. Due to this optimized optical arrangement and the broad light spectrum, specimens as large as 25 mm in diameter can be illuminated with sufficient energy to make a high-accuracy measurement. The use of large samples diminishes errors associated with inhomogeneity and permits representative measurements of poorly dispersed composites.

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Dec172015

DXF 200

Flash Diffusivity Systems, Products, Xenon Flash

The Discovery Xenon Flash DXF 200 employs a High Speed Xenon-pulse Delivery source (HSXD) with considerably lower cost and less maintenance than a laser and generates equivalent results. A reflective optic configuration of our design effectively harnesses the power of a Xenon flash tube and, with the aid of proprietary wave guides, delivers it to the specimen inside the Environmental Module. DXF 200 produces a pulse width that is shorter (400 μs to 600 μs) than many commercial laser-based systems, while uniformly concentrating sufficient power from the flash source directly on the entire face of the specimen. Due to this optimized optical arrangement and the broad light spectrum, specimens as large as 25 mm in diameter can be illuminated with sufficient energy to make a high-accuracy measurement. The use of large samples diminishes errors associated with inhomogeneity and permits representative measurements of poorly dispersed composites.

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Dec172015

DLF 1600

Flash Diffusivity Systems, Laser Flash

Discovery Laser Flash DLF 1600’s source module is a freestanding unit employing a custom Class 1 35 J Nd:Glass laser pulse source. It provides a collimated, monochromatic energy pulse to specimens heated up to the temperature of 1600°C. The laser radiation is delivered via a proprietary fiber optic delivery wand which ensures a 99% homogenized laser pulse. Leading to much more accurate measurements than any direct firing laser pulse instruments. The laser source produces a 300 µs to 400 µs pulse width.

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Sep212015

BioDynamic 5200

BioDynamic Instruments, Cardiovascular (Tissue Engineering), Cell Biology and Cell-Biomaterial, Dental Implants and Materials, General Scaffold Characterization, ISO, Material Characterization, Orthopaedic and Musculoskeletal, Other Tissues and Organs, Pharmaceuticals, Regenerative Medicine, Scaffold Biodegradation, Sterile, Tissue Engineering, Tissue Engineering, Tissue/Organ Baths

ElectroForce multi-specimen BioDynamic test instruments can be used for a variety of tissues and biomaterials, and allow reproducible mechanical stimulation, for statistical characterization of multiple specimens. With multi-mover capabilities for tension/compression loading and dynamic (pulsatile) flow stimulation, multi-specimen BioDynamic instruments from TA ElectroForce open up new research possibilities for advanced tissue engineering and biomaterials research

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Sep212015

BioDynamic 5100

BioDynamic Instruments, Cardiovascular (Tissue Engineering), Cell Biology and Cell-Biomaterial, Dental Implants and Materials, General Scaffold Characterization, Material Characterization, Orthopaedic and Musculoskeletal, Other Tissues and Organs, Pharmaceuticals, Regenerative Medicine, Scaffold Biodegradation, Sterile, Tissue Engineering, Tissue Engineering, Tissue/Organ Baths

TA ElectroForce BioDynamic test instruments provide accurate mechanical stimulation and characterization characterization of biomaterials and biological specimens within a sterile cell culture media environment. The instruments can be used for the evaluation of a variety of specimens, including biomaterials, acellular and cell-seeded scaffolds, native tissue samples and tissue-engineered constructs.

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Sep212015

3D CulturePro Bioreactors

BioDynamic Instruments, Cardiovascular (Tissue Engineering), Cell Biology and Cell-Biomaterial, Dental Implants and Materials, General Scaffold Characterization, Material Characterization, Orthopaedic and Musculoskeletal, Other Tissues and Organs, Pharmaceuticals, Regenerative Medicine, Scaffold Biodegradation, Sterile, Tissue Engineering, Tissue Engineering, Tissue/Organ Baths

The TA ElectroForce 3DCulturePro bioreactor is a multi-specimen perfusion bioreactor for reproducible and reliable tissue growth. This system supports cell growth and 3D tissue culture in an easy-to-use, scalable setup. The bioreactor comes as a single, standalone chamber with specimen fixtures or as a complete, multi-chamber system with a perfusion pump to fill the needs of individual labs at an affordable price.

This bioreactor can be used by biologists interested in 3D cell culture, biomedical researchers and medical device product manufacturers transitioning from static to perfusion fluid flow culture, and pharmacologists and drug development researchers looking for in vitro test beds or ex vivo drug delivery systems.

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