Unleashing potential, inspiring progress:
The Academic Advantage Program is designed to make TA Instruments’ high-performing equipment accessible for academic institutions. We value our academic customers who develop new materials, novel applications, publications, and most importantly, talented graduates that will fill future roles in industry. Explore all of our innovative technology below:
What do you want to know about your material?
Flip over each technique to see the properties each one helps you find:
Melting temperature
Glass transition
Crystallinity
Viscosity
Flow properties
Shear properties
Binding affinity
Protein unfolding
Drug stability
Modulus
Stress & fatigue
Crystallinity
Thermal Instruments & Applications
Applications
Differential Scanning Calorimeter
The Discovery DSC Series is the leading platform for measuring temperatures and heat flows associated with thermal transitions in a material. TA Instruments’ proprietary Tzero™ heat flow technology provides the flattest baselines and delivers the highest sensitivity and resolution without any need for lengthy pre- and post-test calculations. Have confidence in every data run, no matter who runs it!
Our DSCs Feature:
- Integrated touchscreen is intuitive to set up test procedures and operate your instrument.
- Tzero™ technology directly measures heat capacity and makes Modulated DSC® experiments faster and more accurate for the most efficient separation of complex thermal events.
- Customizable calibration routines provide the flexibility many research instruments require.
- Versatility to upgrade with an autosampler, photocalorimeter, microscope accessories, and more makes the Discovery DSC Series the ideal choice for changing laboratory needs.
Properties Measured:
Glass transitions, Melting Point, Crystallization, Phase changes, Heat capacity, Cure kinetics, Oxidative induction time, Oxidative stability
Thermogravimetric Analyzer
The Discovery TGA Series provides advanced measurements of weight change and the rate of weight change as a function of temperature, time and atmosphere. Built to maximize temperature control and minimize drift, the TGA 5500 is designed for the researcher that requires the highest level of performance and features in a single package. The TGA 550 delivers premium performance with advanced options and configuration flexibility, making it an ideal choice for research and multi-user laboratories.
Our TGAs Feature:
- Top-of-the-line Tru-Mass™ balance is thermally isolated for the most accurate detection of the smallest weight changes.
- Superior atmosphere control is vacuum tight and allows inputs of up to four gases with controlled switching and blending.
- Integrated touchscreen simplifies operation and places key functions at your fingertips.
- Hyphenate additional techniques including GC-MS, FTIR, and MS for maximum sample information.
- Optional advanced features include Hi-Res™ TGA, MTGA™, DTA signal, and a 25-position autosampler.
Properties Measured:
Weight change temperature, Weight change amount, Decomposition kinetics, Volatilization, Material composition analysis, Oxidative stabilities, Residue
Simultaneous DSC/TGA
The Discovery SDT 650 combines two best-in-class techniques into one! Save time and bench space with simultaneous heat flow and weight measurements of your material, giving you information about its composition and reactivity.
Our SDTs Feature:
- Integrated touchscreen is intuitive to navigate and places key functions at your fingertips.
- Horizontal dual-beam thermobalance with integrated thermocouples are simple to replace and provides direct sample, reference, and differential temperature measurements.
- Superior atmosphere control is vacuum tight and allows inputs of up to four gases for flexibility to test the widest range of applications.
- Modulated testing capabilities enable you to directly measure heat capacity in a single run and calculate activation energy in real-time.
Properties Measured:
Phase transitions, Melting Points, Crystallization, Heat capacity, Decomposition temperature, Decomposition kinetics, Volatilization, Residue, Thermal and oxidative stability
Thermomechanical Analyzer
The Discovery TMA 450 delivers accurate, reliable measurements of changes in the dimensions of your material as a function of time, temperature, and force in a controlled atmosphere. Whether you need straightforward measurements or more sophisticated analyses, the TMA 450 delivers dependable high-quality data to advance your research.
Our TMAs Feature:
- Integrated touchscreen is intuitive to use and places key functions at your fingertips.
- Our non-contact, friction-free motor allows you to test any material from super soft rubber materials to dense or hard composites and plastics.
- A wide range of test fixtures provide you with the capabilities to bend, flex, expand, or tension test your material to find the information you need.
- Advanced testing modes extend the TMA’s capabilities and provide even more valuable information about the mechanical behavior of your material.
Properties Measured:
Coefficient of Thermal Expansion (CTE), Sample expansion and contraction, Softening points, Glass transition temperatures, Delamination
Dynamic Mechanical Analyzer
A Dynamic Mechanical Analyzer (DMA) is a mechanical instrument that applies specific displacement or force to a sample and very accurately quantifies its force versus displacement response.
DMA instruments can quantify the elastic (spring-like) versus viscous (fluid-like) components of a sample response which is crucial for reliable and complete viscoelastic property characterization such as Storage Modulus, Loss Modulus, and Tan delta.
Our DMAs Feature:
- Integrated touchscreen for a seamless experience
- Powerful easy-to-use software designed for both novice and expert users
- Auto-ranging feature takes the guess work out of starting conditions and ensure force and displacement are automatically maintained
What you can find using a DMA:
- Glass transition temperature (Tg)
- Secondary transitions
- Modulus
- Viscoelasticity (storage modulus, loss modulus, tan delta)
- Creep and creep compliance
- Stress relaxation
- Shrinkage and shrinkage forces
Rheology Instruments & Applications
Applications
Hybrid Rheometer 20
The HR 20 is an exceptional multi-purpose rheometer that can handle everything from groundbreaking research to rigorous testing in shared laboratory spaces. A wide variety of available accessories enables you to update your configuration on the fly to meet the demands of your research, now and in the future.
- 50+ environmental systems and accessories can be interchanged and auto-calibrated by the user in less than 10 minutes.
- Simplified user interface and software is intuitive for users of all skill levels to obtain material property information.
- Superior precision and accuracy in data collection will drive your research to the next level.
Properties Measured:
viscosity, yield stress, thixotropy, curing, modulus (G’, G” G*), damping factor (tan delta), glass transitions, sub-ambient transitions, stress relaxation, creep-recovery
Hybrid Rheometer 30
The HR 30 is a premier research-grade rheometer for scientists looking to advance the boundaries of material science by exploiting its unparalleled measurement sensitivity and accuracy. Advances in core technology enable you to measure lower viscosities, weakly structured liquids, and soft-solid structure, while preserving precious material.
- SmartSwap™ technology makes it easy to change out temperature systems and accessories in less than 10 minutes, setting your lab up for success now and in the future.
- Integrated linear Dynamic Mechanical Analysis provides a two-in-one instrument capability that empowers users to explore entirely new possibilities for mechanical testing.
- Proprietary magnetic bearing delivers industry-leading torque sensitivity for accurate low-stress measurements.
Properties Measured:
viscosity, yield stress, thixotropy, curing, modulus (G’, G” G*), damping factor (tan delta), glass transitions, sub-ambient transitions, stress relaxation, creep-recovery
ARES-G2
The ARES-G2 is a premier high-performance rotational rheometer that provides the most accurate rheological data over a wide range of conditions. It is routinely used in leading research labs to relate material chemistry to its processability and end-use properties for a wide variety of materials.
- The only rheometer on the market with a separate motor and transducer technology, which eliminates any inertial contributions and provides users with unrivaled data accuracy.
- Replicate processing and end-use conditions with fast-responding, accurate temperature control.
- Future-proof with easily interchangeable accessories, including fully integrated DMA mode for testing solid materials.
Properties Measured:
viscosity, yield stress, thixotropy, curing, modulus (G’, G” G*), damping factor (tan delta), glass transitions, sub-ambient transitions, stress relaxation, creep-recovery
Microcalorimetry Instruments & Applications
Applications
Nano DSC
The HR 20 is an exceptional multi-purpose rheometer that can handle everything from groundbreaking research to rigorous testing in shared laboratory spaces. A wide variety of available accessories enables you to update your configuration on the fly to meet the demands of your research, now and in the future.
- 50+ environmental systems and accessories can be interchanged and auto-calibrated by the user in less than 10 minutes.
- Simplified user interface and software is intuitive for users of all skill levels to obtain material property information.
- Superior precision and accuracy in data collection will drive your research to the next level.
What you can Test with the Nano DSC
- Protein unfolding
- Nucleic acid melting/annealing
- Capsid stability
- Drug loading
- Serotype
- LNP stability
- Protein stability
- Phase transition
- Heat capacity
- Thermodynamics of unfolding
Affinity ITC
The HR 30 is a premier research-grade rheometer for scientists looking to advance the boundaries of material science by exploiting its unparalleled measurement sensitivity and accuracy. With integrated linear Dynamic Mechanical Analysis, the HR 30’s two-in-one instrument capabilities empowers users to explore entirely new possibilities for mechanical testing. SmartSwap™ technology makes it easy to change out temperature systems and accessories in less than 10 minutes, setting your lab up for success now and in the future.
Properties Measured
- Viscosity
- Yield stress
- Thixotropy
- Curing
- Modulus (G’, G” G*)
- Damping factor (tan delta)
- Glass transitions
- Sub-ambient transitions
- Stress relaxation
- Creep-recovery
Nano ITC
A rotational rheometer can perform flow measurements to test the viscosity of a liquid as a function of time, temperature shear rate or shear stress. Flow tests can also be used to measure the yield stress and thixotropic properties of a structured fluids. The rheometer can also perform dynamic oscillatory measurements to measure the viscoelastic properties of a semi-solid or solid sample. Typical oscillation tests are used to verify the linear viscoelastic region; monitor thermoset curing or sample stability; quantify differences in different formulations; measure polymer melts to compare differences in their molecular weight and molecular weight distribution; measure sample modulus and elasticity change as a function of time and temperature; measure glass transition (Tg) and sub-ambient transitions of polymers or polymer blends. In addition, a rotational rheometer can also perform transient type of measurements to study creep-recovery and stress relaxation.
Detectable Information: viscosity, yield stress, thixotropy, curing, modulus (G’, G” G*), damping factor (tan delta), glass transitions, sub-ambient transitions, stress relaxation, creep-recovery
The Nano DSC provides the most repeatable, high resolution measurement for drug product formulation stability screening, drug loading and serotype determination of gene-based drug products, and manufacturing QC monitoring. The robust, solid state thermoelectric temperature control and platinum capillary cell provides the purest measurement, without requirement of fluorescent dyes, or requirement of baseline manipulation to increase confidence in the results and to speed up decision making.
Temperature Range: -10 °C to 130 °C
Automation: 96-well plate compatible
The Affinity ITC is designed to provide maximum a rapid and high resolution measurement of binding and stoichiometry of clinically relevant biomolecules. The robust, solid state thermoelectric heating and cooling systems precisely control temperature and true isothermal power compensation design provides the purest measurement of binding, free from non-native dyes and tags for the highest sensitivity and flexibility for an ultrasensitive ITC analyzing biological samples in-solution.
Affinity Range: low-mM, to low-pM
Automation: 96-well plate compatible
The Nano ITC Standard Volume and Nano ITC Low Volume isothermal titration calorimeters are designed to provide maximum sensitivity and flexibility for the study of biomolecular binding. Both instruments use solid state thermoelectric heating and cooling systems to precisely control temperature, and have the same flexible injection syringe assemblies for efficient and accurate delivery of titrant. The true isothermal power compensation design of the Nano ITC instruments provides the highest sensitivity and flexibility for an ultrasensitive ITC analyzing biological samples in-solution.
Temperature Range: 2 °C to 80 °C
The DMA 3200 features patented ElectroForce linear motor technology enabling a single instrument to deliver unequalled performance and data accuracy. This unique motor technology combines powerful rare-earth magnets with a frictionless flexural suspension for the most precise force and displacement control over a wide range of frequencies and amplitudes. The DMA 3200 motor delivers a force output of up to 500 N and controlled displacements ranging from 1 micron to 13 mm. Testing can be conducted in both static and dynamic modes.
Maximum Force: 500 N
Detectable Information: Complex modulus, E*, storage and loss moduli (E’, & E”) and damping (tan δ) of viscoelastic materials, detect molecular motions, and develop structure-property relationships. Young’s Modulus and material strength parameters, including S-N curves for fatigue performance.
The ElectroForce® 3200 Series III test instruments feature a 225 N (450 N optional) maximum force. With the versatility of static to 300 Hz frequency response, the table-top configuration is adaptable to a variety of biomedical research and engineered materials test applications, including torsion testing, creep under dynamic loading and special environments (hot/cold chambers).
Force Range 3220: 0.002 N – 225 N
Force Range 3230: 0.002 N – 450 N
Detectable Information: Young’s Modulus and material strength parameters, including S-N curves for fatigue performance.
ElectroForce 3300 Series III instruments are well-suited for a variety of tests that include ASTM and ISO standards for materials and biomaterials characterization and long-term durability tests of materials, components and devices.
The ElectroForce 3300 family includes two models; the ElectroForce 3310 provides 1000 N of maximum force while the ElectroForce 3330 provides 3000 N. Both models are available with either table-top or floor-standing frames. The floor-standing frame enables the expansion of capabilities by either adding torsion or extended stroke motors. All configurations can perform tests that range from one cycle per day (or static tests) up to 100 Hz. Select the force capacity and frame configuration that is appropriate for your testing needs.
Force Range 3330: 0.2 N – 3000 N
Force Range 3310: 0.02 N – 1000 N
Detectable Information: Young’s Modulus and material strength parameters, including S-N curves for fatigue performance.
The ElectroForce Planar Biaxial TestBench instrument offers superior control and unparalleled performance in material and soft tissue characterization. Using this instrument, you can assess mechanical anisotropy and stress-strain relationships in samples that range from engineered devices, including wearable sensors and wound repair meshes, to tissues such as skin, pericardium, and heart valve leaflets. This instrument can be configured with either two or four ElectroForce linear motors mounted on a horizontal baseplate and load cell options for each axis of loading.
Force Range: 0.002 N – 200 N
Detectable Information: Mechanical properties such as Young’s Modulus, including anisotropy measurements of sheet-like samples or tissues.
DLF 1200
The Discovery Laser Flash DLF 1200 is a compact benchtop instrument for the measurement of thermal diffusivity, thermal conductivity, and specific heat capacity of materials from room temperature to 1200˚C. It features a proprietary laser source with 17 Joules of energy for testing of the widest range of samples under the most demanding conditions. Productivity is no problem with the four-sample tray design. It is the only benchtop light flash instrument available with a laser pulse source for enhanced precision, accuracy and capabilities beyond competitive Xenon light source designs.
Temperature Range: RT to 1200°C
Academic Support Plan
Keep your instrument running smoothly and reduce downtime, whether due to routine use or from being subject to the hands of less experienced users (or both). Our Academic Support Plan is the lowest cost, full-coverage warranty available anywhere, and is designed to reduce the cost of ownership and maximize uptime and product life.
More Perks:
- FREE tuition to our regularly scheduled Theory & Applications Training Courses
- 10% discount on supplies & consumables
Contact Us
*Offers expire December 15, 2024. Pricing on this page is shown in USD. International orders will be converted to local currency at the same rate of discount. Some modules and OEM products are excluded. Please contact your local TA representative for more details.