TA Instruments

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Microcalorimeters

TA Instruments

TA Instruments

TA Instruments’ Isothermal Titration Calorimetry (ITC), Differential Scanning Calorimetry (DSC), and Isothermal Calorimetry systems are powerful analytical techniques for in-depth characterization of molecular binding events and structural stability. Thermodynamic binding signatures not only reveal the strength of a binding event, but the specific or nonspecific driving forces involved. Structural stability profiles from DSC reveal strengths and weaknesses in higher order structure and define the behavior of individual domains and their interactions. The TA Instruments Affinity ITC, Nano ITC and Nano DSC provide the performance, reliability and ease-of-use required for the most demanding applications in drug discovery, protein-protein interactions, structure-function characterization and more.

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Discovery Hybrid Rheometers

TA Instruments

TA Instruments

TA Instruments invites you to experience the latest innovations in rotational shear rheometers, the Discovery Hybrid Rheometer HR 10, HR 20, and HR 30. The Discovery Hybrid Rheometers are designed for scientists who need to obtain better rheological data, under the widest range of measurement conditions, collected by more users, with less training.

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ElectroForce Load Frame Instruments

TA Instruments

TA Instruments

The design of new materials and products requires a thorough assessment of material properties and complete performance evaluation within, and sometimes beyond, the intended end-use.

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Dynamic Mechanical Analyzers

TA Instruments

TA Instruments

Dynamic Mechanical Analysis measures the mechanical properties of materials as a function of time, temperature, and frequency. In addition to basic material properties, DMA also quantifies finished part characteristics, reflecting the important contribution that processing has on end-use performance. DMA is commonly used to measure glass transition temperatures and secondary transitions, orientation caused by processing, cold crystallization, cure optimization, filler effects in composites, and much more. DMA provides an accurate measure of material stiffness (modulus) but also other important mechanical properties such as damping, creep, and stress relaxation.

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Rubber Testers

TA Instruments

TA Instruments

TA Instruments introduces a complete line of new instruments for the measurement of rheological and physical properties of polymers, rubber and rubber compounds at all stages of manufacture. The new rubber testing instruments include a Rubber Process Analyzer, Moving Die Rheometer, Mooney Viscometer, Automated Density Tester and Automated Hardness Tester.

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Rotational Rheometer

ARES-G2

TA Instruments

ARES-G2 - TA Instruments

The ARES-G2 is the most advanced rotational rheometer for research and material development. It remains the only commercially available rheometer with a dedicated actuator for deformation control, Torque Rebalance Transducer (TRT), and Force Rebalance Transducer (FRT) for independent shear stress and normal stress measurements. It is recognized by the rheological community as the industry standard to which all other rheometer measurements are compared for accuracy.

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Differential Scanning Calorimeters

TA Instruments

TA Instruments

Differential Scanning Calorimeters (DSC) measure temperatures and heat flows associated with thermal transitions in a material. Common usage includes investigation, selection, comparison and end-use performance evaluation of materials in research, quality control and production applications. Properties measured by TA Instruments’ DSC techniques include glass transitions, “cold” crystallization, phase changes, melting, crystallization, product stability, cure / cure kinetics, and oxidative stability.

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General Purpose Heat Flow Meters

TA Instruments

TA Instruments

Thermal conductivity defines a material’s ability to transfer heat. A precise and accurate measurement is critical for any process or material experiencing large or fast temperature gradients, or for which the tolerance for temperature changes is exacting. Accurate values are essential for modeling and managing heat, whether the component of interest is called on to insulate, conduct, or simply withstand temperature changes. Information about these properties are routinely used in heat transfer models of all complexities. Thermophysical property measurements also reflect important information about material composition, purity and structure, as well as secondary performance characteristics such as tolerance to thermal shock.

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Rheology

TA Instruments

TA Instruments

Rheology is the study of flow and deformation of materials. Deformation and flow are referred to as strain or strain rate, respectively, and indicate the distance over which a body moves under the influence of an external force, or stress. For this reason, rheology is also considered to be the study of stress-strain relationships in materials.

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Heat Flow Meters

Fox Series

TA Instruments

Fox Series - TA Instruments

Fox Series Heat Flow Meters are reliable, easy-to-use, and durable thermal conductivity measurement instruments. Each of our FOX heat flow meters combines advanced technology with over 20 years of superior engineering. Explore our lineup of thermal conductivity instruments.

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Heating Microscope

TA Instruments

TA Instruments

Heating microscopy is a non-contact technique that, based upon an advanced image analysis of a specimen subjected to a thermal treatment reproducing industrial firing conditions, identifies several characteristic shapes and related temperatures key to the optimization of manufacturing processes in ceramics, metals, and alloys.

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Rubber Process Analyzers

RPA

TA Instruments

RPA - TA Instruments

Virtually every aspect of a rubber material’s processing and performance characteristics is influenced by its rheological properties. TA Instruments provides a complete range of rotorless shear rheometers and curemeters to help you optimize processing, curing, and application performance. All TA Instruments rubber rheometers are manufactured to exacting mechanical standards and with the latest measurement technology for the most accurate, reliable, and reproducible data available. Available automation systems allow for maximum unattended laboratory productivity in all test environments. Relevant ASTM, DIN, and ISO standards are easily met, as are demands for advanced testing, making these instruments the ideal choice for quality control, analytical, and research needs.

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Isothermal Microcalorimetry

TA Instruments

TA Instruments

Isothermal Microcalorimetry is an extremely sensitive technique complementary to TA Instruments differential scanning calorimeters. TAM is a microcalorimeter system represented by TAM IV, TAM IV-48 and TAM Air.

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Simultaneous Thermal Analyzer

SDT 650

TA Instruments

SDT 650 - TA Instruments

TA Instruments invites you to experience the world’s finest Simultaneous DSC/TGA, the Discovery SDT 650. Discover the advanced engineering and attention to detail that provides enhancements in every aspect of performance and a new level of user experience. Available with or without an Autosampler, the Discovery SDT is sure to meet your needs and exceed your expectations.

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Flash Diffusivity Analyzers

DLF 2800

TA Instruments

DLF 2800 - TA Instruments

The Discovery Laser Flash DLF 2800 is an advanced freestanding instrument for the measurement of thermal diffusivity and specific heat capacity of materials from room temperature to 2800°C. The distinctive design incorporates a proprietary laser, laser optics, detector, and furnace technologies, and along with the unique six-position sample carousel, ensures unprecedented measurement accuracy and sample throughput. With the ability to operate in a variety of atmospheric conditions, including inert gas or under vacuum, the DLF 2800 can characterize a wide variety of materials, including polymers, ceramics, carbons, graphite, composites, glasses, metals, and alloys.