Offering the highest throughput of our entire DVS range, the DVS Endeavour precisely controls and measures temperature and relative humidity while simultaneously recording the highest resolution changes in mass on up to 5 samples simultaneously.

Combined with a range of modular accessories, the DVS Endeavour is one of the most versatile DVS instruments on the market.

The world’s most advanced DVS Instrument, the DVS Resolution is a dual vapor gravimetric analyzer that brings unparalleled capabilities and precisions to the study of complex sorption behaviors.

The instrument has the combined ability to precisely control and measure temperature and relative humidity while recording the highest resolution changes in mass.

The iGC-SEA continues Surface Measurement Systems’ pioneering history with inverse gas chromatography (iGC), which now spans more than fifteen years.

The iGC-SEA is a second generation iGC instrument. It is the world’s only commercial instrument based on the iGC principle. The unique SMS injection scheme provides a wide range of injection concentrations with unrivalled accuracy and reproducibility.

How Does the iGC-SEA Work?

The iGC-SEA is based on Inverse Gas Chromatography (iGC) methodology and is a gas phase technique for characterising surface and bulk properties of solid materials. The principles of IGC are very simple, being the reverse of a conventional gas chromatographic (GC) experiment.A cylindrical column is uniformly packed with the solid material of interest, typically a powder, fibre or film. A pulse of constant concentration of gas is then injected down the column at a fixed carrier gas flow rate, and the time taken for the pulse or concentration front to elute down the column is measured by a detector. A series of iGC measurements with different gas phase probe molecules then allows access to a wide range of phyisco-chemical properties of the solid sample.

The injected gas molecules passing over the material adsorb on the surface with a partition coefficient KS:

Ks = Vn / Ws

Where VN is the net retention volume – the volume of carrier gas required to elute the injection through the column, and WS is the mass of the sample. VN is a measure of how strongly the probe gas interacts with the solid sample and is the fundamental data obtained from an IGC experiment; from it a wide range of surface and bulk properties can be calculated.

For all laboratory applications even for sophisticated state-of-the-art sterilization processes.

With all possibilities to add additional options for process optimization to enable validatable sterilization to be carried out.

Oxygen And Carbon Dioxide Headspace Measurement For modified Atmosphere Packaged (MAP) Product

These highly advanced instruments are equipped with integral sampling systems, unique, miniature, long-life, zirconia and infrared sensors, and microprocessor control to deliver the most accurate and repeatable performance possible.

The internal microprocessor manages calibration, autoranging, flow control, test duration and many other functions to ensure consistent, error-free results. One touch automated calibration and product analysis make these analyzers easy to use. Response is typically less than five seconds for oxygen and ten seconds for carbon dioxide.

The new more compact corrosion resistant enclosure minimizes the required foot print space on carts and table tops.

Automated package sampling is easy. Measurement duration is user selectable which provides great flexibility for a large variety of products. Using the sample wand, insert the sampling needle into the package and press test. The instrument does the rest; extracting the sample, analyzing sensor output and holding the results for viewing on the bright autoranging display.

• Fast, accurate MAP analyser for testing low volumes of O2 and CO2 in gas flushed food and pharmaceutical products.

This base oxygen analyzer is used in conjunction with a computer interface and will perform most of the functions of the 5250i including non-invasive headspace analysis for packages, bottles and blister packs using the O2xyDot Sensor; package material and design evaluation; closure design and evaluation; MAP production start up monitoring; research and development; QC and assurance, as well as product oxidation studies.

The OxySense 325i is particularly ideal for smaller laboratories and companies considering bringing their oxygen testing requirements in-house for the first time and companies looking for a low-cost solution. With the new EasAlign Pen with integrated capture switch for a simple, one click, oxygen measurement. Multiple measurements can be provided over time on the same package offering accurate analysis through real time, real world measurements. Due to the measurement process used, the risk of sample contamination or leaks is eliminated.

The OxySense 5250i is the o2 analyzers instrument of choice for laboratories and individuals who need to test or evaluate packaging materials through a variety of studies. These studies include: non-invasive headspace analysis for packages, bottles and blister packs using the O2xyDot Sensor; package material and design evaluation; closure design and evaluation; MAP production start up monitoring; research and development; QC and assurance, as well as product oxidation studies.

For non-invasive measurements, oxygen concentration can be determined by placing the O2xyDot Sensor in the package or container prior to filling and sealing. Multiple measurements can be provided over time on the same package offering accurate analysis through real time, real world measurements. Due to the measurement process used, the risk of sample contamination or leaks is eliminated.

This versatile instrument also has the capability to perform permeability analysis (OTR) on film, bottles and packages*.

This carbon dioxide (CO2) and oxygen (O2) headspace analyzer provides consistently reliable results and simplicity in operation allowing you to maximise your production efficiency. Its large buttons and clear display ensures testing is simple, errors are eliminated and no special operator training is required.

Numerous packs can be tested quickly with just one button press, saving time and making Quality Assurance more efficient. These MAP analyzers can test all pack sizes and very low volumes.

Rigid cans and jars can also be tested using the simple-to-use can piercing station which supports the cans and jars for accurate analysis using a standard needle probe. A 45° Adaptor is also available to aid measurement of small volumes of headspace.

There are a variety of ways to perform analysis; Timed Tests, AutoSense, Peak/Valley, Syringe Direct Injection or Continuous Testing. Fast configuration and selection provides the test method which is best for you. Easy to see Pass and Fail messages speeds up the analysis process and removes any uncertainty with interpreting measurements.

The Gaspace Data Manager software allows you to download results stored on your gas analyzer and upload new settings. You can also search through your stored data by time, date, user, production line or any of the product information.

Latest Coulometric Sensor technology ASTM D3985 Compliant

Setting the new bench mark in oxygen transmission rate measurement instruments, the All-NEW OxySense® instrument incorporates the latest in coulometric sensor technology with high sensitivity and the widest test range. The instrument is simple to operate, designed to lower testing costs, and increase productivity.

The OxySense 8101e is designed to be expandable and lower your testing costs. Systech Illinois is the only major developer of transmission rate test instrumentation to offer satellite expansion. The satellites can be configured to meet your precise testing needs, allowing you to cost effectively add lab capability as needed while continuing to lower your “cost per test”.

The TME BT Integra-Pack© is a bench-top, highresolution (0.001 psig) test instrument with a small footprint and user-friendly ease of operation. Electronic pressure and flow controls provide precise and repeatable test conditions, while automatic and high flow output allow testing of large porous packages. Applications cover a range of flexible or rigid, porous and non-porous, open or sealed packages.

Automatic or Manual Parameter Definition 

The intelligent BT Integra-Pack will test any package in automatic mode, with no need to input test parameters. However, its sophisticated nature is combined with a manual mode that lets the user input parameters such as ramp rate control and back pressure drop sensitivity. This allows testing of special configurations or types of packages or perform specific research and datagathering activities.

Icon-based, Touch-Driven Color Display

The touchscreen color display provides easy, clear navigation through the wide variety of data handling and review screens. Clearly defined icons make it easy to choose test modes, move from automatic to manual test settings, view test results in numeric and/or graphical format, and securely handle accumulated data.

Modular systems for precision water vapor permeabilty testing of packaging film barriers.

The 7000 water vapor analyzer range utilises the sensitive and stable P2O5 sensor for absolute moisture measurement. These water vapor analyzers offer a wide measurement range of 0.002-1000 g/m²/day and precision temperature, humidity and flow control. Providing accurate and repeatable results for research and development testing of water transmission rate (wvtr) in both current and newly formulated packaging film materials and fast testing for Quality Control.

All Systech Illinois analyzers are certified traceable to NIST. In addition, analytical performance is validated using NIST certified gases and NIST traceable films.

A set of validation films and a spare P2O5 sensor comes as standard with all of our water vapor permeation analyzers.

The ElectroForce Load Frame series features electrodynamic linear motors, combining rare-earth magnets and specifically designed electromagnetic topologies that are optimized for material testing and deliver best-in-class displacements and force over a wide range of frequencies. Operating without contact bearings, these motors provide friction-free linear guidance that delivers the ultimate reliability backed by a 10-year motor warranty and precise control that is only possible with a no-friction motor design.

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.

The characteristic temperatures the system can automatically identify include the beginning of sintering, softening, sphere, half-sphere, and melting/fusion. Morphometrix, the latest TA Instruments image analysis software, can also determine the following: flattening curve, contact angle curve, sample area variation curve, ratio curve between width and height, bloating effects, combustion, theoretical glass viscosity (V.F.T. equation) and surface tension (glasses) using the Young-Laplace equation.

Dilatometry measures the change in size of a sample as a function of temperature. In addition to directly determining the thermal expansion of the sample, the change in size also provides information about phase transitions and physical or chemical changes in the microstructure. These can be identified by the associated changes in density and rate of expansion of the material. Dilatometry is also an extremely useful method for evaluating the sintering behavior of materials, as it records both the shrinkage of a sintered sample and the temperatures required to achieve this change. This analysis allows optimization of workpiece shapes and processing temperatures, improvement of product quality and reduction of costs.

 

Key Features

• Patented, linear motor and high-resolution displacement sensor provide unmatched control over the widest ranges of force, displacement, and frequency, for superior data accuracy
• Ultra-durable, frictionless motor, backed by the industry’s only ten-year warranty, provides maintenance- and worry-free operation
• High force of 500 N enables testing of larger samples or final parts under real-world conditions, by achieving higher loading levels in both DMA and fatigue analysis
• Forced Convection Oven (FCO) provides superior control and responsiveness over a temperature range of -150 °C to 600 °C for the highest degree of accuracy and flexibility in experiment thermal profiles
• Large Sample Oven (LSO), with a temperature range of -150 °C to 315 °C, offers spacious interior dimensions to accommodate testing of large samples or component
• Air Chiller Systems (ACS) offer unique gas flow cooling for sub-ambient testing without the use of liquid nitrogen, eliminating potential laboratory hazards while providing an incredible return on investment
• Broad range of fixtures accommodate a wide range of sample sizes and geometries adding to testing versatility
• Extremely rigid test frame and air bearings ensure the most accurate results on samples of very high stiffness
• Multi-color status lights provide clear and visible indication of instrument and test status
• WinTest^® and TRIOS Software packages provide powerful and easy-to-use instrument control and data analysis for the ultimate flexibility in experimental design

The Thermal Activity Monitor (TAM) is a high resolution, real-time method for monitoring chemical, biological, and physical reaction process(es) occurring in a sample. The monitoring of heat flow over time allows for determination of the various reaction processes that may occur in a sample over minutes, hours, days, weeks, or years. Samples can be measured under user defined conditions, to control temperature, atmosphere, as well as sample composition.

Key Features

• Modular system that can be adapted by the researcher to control the sample and sample environment
• Capability to precisely set temperature within 100uC over a minimum of 24-hours
• Interchangeable accessories allow for RH, liquid and gas perfusion, liquid titration, addition of solids or pastes, dissolution, pressure monitoring, and electric charge
• Enables researchers to test materials and products under accelerated or during  operation conditions

Isothermal titration calorimetry (ITC) is a high-resolution method for complete characterization of the basic chemical details of a binding interaction. The method determines a binding constant, reaction stoichiometry, and total reaction energy of two or more compounds (small or large molecules) in solution. Isothermal titration calorimeters do this by measuring the heat that is released or absorbed when molecules interact with each other. Temperature conditions can be controlled to understand the temperature dependence of binding.

Light or laser flash is a crucial measurement technique used to determine the thermal diffusivity, thermal conductivity, and specific heat capacity of materials. This method is useful in characterizing the heat transfer and storage properties of a variety of materials, providing essential information about material composition and structure. Light/Laser flash is the most effective method for measuring thermal diffusivity over a wide range of temperatures and offers non-destructive material testing with accurate, reproducible results. The Xenon and Laser Flash instruments generate high-energy Laser or Xenon pulse sources and use a PIN contact detector or non-contact IR detector to measure the resulting temperature rise. The selection of the ideal source and detector depends on various factors such as sample morphology, dimensions, expected thermal conductivity, and measurement temperature range.

TA Instruments Discovery Flash product line offers the most compelling range of benchtop and floor-standing flash diffusivity analyzers, enabling the analysis of a wide array of material forms and providing true measurements without the need for extrapolation. TA Instruments’ proprietary light flash technology, combined with full time pulse mapping, precision optics, and the latest data analysis models, make the Discovery Flash platform the most versatile, accurate and precise light flash system of its kind. It offers measurement capabilities over the broadest temperature range from -175°C up to 2800°C and multiple source and detector options. Additionally, a variety of sample holders and fixtures allow for in-plane measurement of thin-films, through-plane analysis of thick samples, and metals through their melt transition. Every system includes a multiple specimen autosampler that provides a several times increase in productivity and accuracy of specific heat capacity results. The Discovery Flash platform is an ideal choice for non-destructive material testing, providing reliable and reproducible results for a wide range of applications.

Refrigerated Cooling Systems (RCS)

Full line of cooling systems, designed and manufactured by TA Instruments, specifically for our DSC’s, featuring the new RCS 120 three-stage refrigerated system capable of temperatures down to -120°C. RCS Features and Benefits:

• One-, Two-, or Three-stage refrigeration system that achieves temperature ranges down to -120°C.

• Sealed system eliminates the need for LN2 cooling system.

• Enables cycling, MDSC®, controlled and ballistic cooling experiments.

• Safe, convenient, and continuous cooling operation for your laboratory needs.

Air Chiller System (ACS)

The new Air Chiller System models offer unique gas flow cooling systems that provide the capability for sub-ambient testing without the use of liquid nitrogen. Available in two models, the ACS-2 and ACS-3, the chillers feature a multi-stage cascading compressor design that employs compressed air (7 bar, 200 l/min) as the cooling medium. The ACS-2 and ACS-3 models permit operation of the DMA 850 with Standard Furnace at temperatures as low as -50 °C and -100 °C respectively *. The chiller systems can help eliminate or reduce liquid nitrogen usage and associated hazards from any laboratory and offer an incredible return on investment. The ACS-2 and ACS-3 are also compatible with DMA3200, Discovery Hybrid Rheometer, ARES-G2 Rheometer, and RSA-G2 Solids Analyzer.

Dilatometry is a method for measuring changes in a sample’s size as it’s heated or cooled. It can provide information about phase transitions and changes in the sample’s structure.

The TA Instruments dilatometers, including DIL806 and ODP868, use an optical measurement method to evaluate the shadow width of a sample placed horizontally inside a furnace. This method is free of external contact forces, making it ideal for measuring soft, fragile, or small samples that may be damaged or difficult to handle in a pushrod dilatometer.

The DIL806 can measure samples in various atmospheres and cover temperatures from -150°C to 1400°C. The ODP868 can analyze samples’ dimensions, shape, and bending up to 1650°C. Optical dilatometry offers high resolution and accuracy similar to a pushrod dilatometer, making it an optimal method for measuring challenging samples.

Quenching dilatometers are used to study phase transformations and microstructural changes in steel and metal alloys. Phase transformations occur upon heating and cooling during manufacturing of metal parts and are generated in a controlled way during heat treatment. Changes in microstructure and phase transformations cause changes of volume and expansion rate. Dilatometry is the ideal method to identify the extent and the temperatures of these solid-state phase transitions in metals. Quenching dilatometry helps to optimize heat treatment of metals to yield the required physical properties of the finished product. The heat treatment temperature profile results in different microstructures, which impacts key properties such as hardness yield strength.

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.

Our Viscometers incorporate the latest measurement technology for the traditional Mooney viscosity, Mooney scorch, and the dynamic viscosity of glasses, slags, and mold powders in the glass, ceramics and metals industries.