Description | A Highly Reliable and Fully Equipped Cost-Saving Instrument Package
The STA 2500 Regulus is a highly reliable and fully equipped top-loading differential balance ideal for standard STA measurements with frequently changing temperature programs available at an excellent price.
Excellent Cost A Highly Reliable and Fully Equipped Cost-Saving Instrument Package
The STA 2500 Regulus is a highly reliable and fully equipped top-loading differential balance ideal for standard STA measurements with frequently changing temperature programs available at an excellent price.
Excellent Cost Performance The STA 2500 Regulus features a highly reliable, fully equipped instrument package for STA measurements up to 1600°C at an attractive price.
Top-Loading and Unique Differential Balance Arrangement The natural gas flow in the top-loading system guarantees automatic protection of the balance against condensation and contamination. The tailor-made differential balance system cancels out buoyancy and convection influences over a broad temperature range. This provides easy operation without the need for timeconsuming baseline runs.
Various Atmospheres Available Measurements can be performed in inert and oxidizing atmospheres but also under vacuum. The atmosphere can be dynamic or static. The built-in mass flow controllers (MFCs) are software-controlled and allow gas changes at any time during the test.
Ideal for Evolved Gas Analysis The top-loading design of the STA allows for convenient coupling to gas analysis systems such as FT-IR (Fourier Transform Infrared) spectrometer, MS (mass spectrometer), or GC-MS (gas chromatograph – mass spectrometer). During thermal treatment, the gases evolved can be simultaneously analyzed.... Read More | The DMA 242 E Artemis combines ease of handling with the user-friendly Proteus® measurement and evaluation software. This makes it fast and easy to characterize the dynamic-mechanical properties as a function of frequency, temperature and time.
Its modular design along with a wide variety of The DMA 242 E Artemis combines ease of handling with the user-friendly Proteus® measurement and evaluation software. This makes it fast and easy to characterize the dynamic-mechanical properties as a function of frequency, temperature and time.
Its modular design along with a wide variety of sample holders and cooling systems allow the DMA 242 E Artemis to handle a broad range of applications and samples.
Various add-on options make it the ideal device for any laboratory and a safe investment for the long-term.
- Hang-down design
for easy accessibility, handling and changing of the different sample holders - Over 30 different sample holders
for optimal adjustment of measurement conditions to material properties - Controlled gas flow (inert or oxidizing)
with optimal heat transfer on samples for defined measurement conditions - Various cooling options.
Two different cooling systems; liquid nitrogen-controlled cooling to -170°C and compressed-air cooling with vortex tube to cool to 0°C - Controlled force range up to 24 N
(12 N static and 12 N dynamic) for measurements of very stiff samples. Increased resolution in the measuring range 4 N static and 4 N dynamic - A stepper motor with a 20-mm travel range
allows for precise testing on materials which exhibit substantial changes in length during a DMA measurement. This is particularly important for the different static experiments available with the DMA 242 E Artemis; i.e., creep, relaxation and TMA mode. ... Read More | Fascinating Flexibility in Thermal Analysis
With the STA 449 F1 Jupiter® NETZSCH is setting new standards. Unlimited configuration flexibility and unmatched performance are the foundations for a great variety of application possibilities in the fields of ceramics, metals, plastics, and Fascinating Flexibility in Thermal Analysis
With the STA 449 F1 Jupiter® NETZSCH is setting new standards. Unlimited configuration flexibility and unmatched performance are the foundations for a great variety of application possibilities in the fields of ceramics, metals, plastics, and composites over a broad temperature range (-150°C ... 2400°C).
The STA 449 F1 Jupiter® combines unlimited configuration flexibility and unmatched performance in just one instrument.
- Thermal stability, decomposition behavior, composition, phase transitions, melting processes to be analyzed comprehensively and quickly
- Easily to use top-loading system with exceptionally precise balance resolution (25 ng resolution at a weighing range of 5g) and highest long-term stability
- Interchangeable sensors for DSC measurements with highest sensitivity and best reproducibility for reaction/transition temperatures and enthalpies as well as for measurements of specific heat
- A variety of optional system enhancements for ideal system adaption to user-defined applications
- Various furnaces, easily interchangeable by the user, available (optional a swiveling double hoisting device for two furnaces)
- Pluggable sample carriers (TGA, TGA-DSC, TGA-DTA, etc.)
- Automatic Sample Changer (ASC) for up to 20 samples
- Automatic evacuation and refilling (AutoVac)
- Plenty of accessories, e.g. sample crucibles in the most varied of forms and materials
- Unique for STA: temperature-modulated DSC (TM-DSC)
By supplementary MS and/or FT-IR coupling even more comprehensive analyses are possible.
All these features make the new developed STA 449 F1 Jupiter®; the ideal tool for thermal analysis of materials in the fields of research, developments and quality assurance.... Read More | The vacuum-tight thermo-microbalance for highest demands
Flexibility with the fittings of this premium instrument for thermogravimetric analysis allow it to cover almost any imaginable application in the range up to 1100°C. The system has many outstanding features: BeFlat® function allows or The vacuum-tight thermo-microbalance for highest demands
Flexibility with the fittings of this premium instrument for thermogravimetric analysis allow it to cover almost any imaginable application in the range up to 1100°C. The system has many outstanding features: BeFlat® function allows or immediate measurement upon switching on the unit, the system’s heating rates of up to 200 K/min allow for faster results, while its corrosion-resistant ceramic furnace withstands even fluorine- or chlorine-containing polymers, c-DTA® function for the detection of exothermal and endothermal reactions.
Faster and more comprehensive characterization of materials Based on over 50 years of experience in thermogravimetric analysis, NETZSCH has developed the thermo-balance TG 209 F1 Libra®. This instrument allows for analyses to be carried out even faster, more accurately, and across an extended temperature range.
Twice as fast by means of BeFlat® In contrast with other thermo-balances, no time-consuming baseline determinations need normally to be carried out with the TG 209 F1 Libra® prior to a measurement. The unique BeFlat® function of the TG 209 F1 Libra® automatically compensates for any external factors influencing the measurement. This cuts work hours by up to 50%, leaving more time available, for example, for further measurements.
20 times faster due to high heating rates The heart of the TG 209 F1 Libra® is the micro furnace made of high-performance ceramics. It not only allows for a wider sample temperature range of up to 1100°C, but also for heating rates of up to 200 K/min. The user can thus receive the results of the analysis – even at highest temperature – within a few minutes, i.e. 20 times faster than for other thermo-balances.
More comprehensive and faster characterization by patented c-DTA® With the TG 209 F1 Libra®, the sample temperature is measured directly. Endo- and exothermal reactions can now be detected and show, for example, the melting point of the sample, in the evaluation. This yields considerably more information on the sample behavior without having to carry out further measurements.
High-performance ceramics for a long lifespan The lifespan of the new, especially designed ceramic furnace – even when investigating materials containing corrosive components – is many times longer than that of conventional thermo-balances. The analysis of fluorinated or chlorinated polymers is therefore no problem. The reaction and purge gases flow in the natural, vertical direction. Condensation on measure-relevant components (sample holders) can therefore be excluded. This not only is gentle on the material, but also prevents occurrence of the dreaded memory effect which can distort subsequent measurements in conventional systems.... Read More | Thermal Stability Studies and Compositional Analysis of Pharmaceuticals, Foods and Cosmetics by means of the TG 209 F3 Nevio ? the workhorse for quality control and process optimization.
Information obtained by thermogravimetric analysis (TGA):
- Mass changes
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Decomposition behavior
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Pyrolysis
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Solvent
Thermal Stability Studies and Compositional Analysis of Pharmaceuticals, Foods and Cosmetics by means of the TG 209 F3 Nevio ? the workhorse for quality control and process optimization.
Information obtained by thermogravimetric analysis (TGA):
- Mass changes
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Decomposition behavior
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Pyrolysis
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Solvent content (e.g., water amount)
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Oxidation
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Shelf life
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Thermal kinetics (combined with Kinetics Neo)
Features:
- Temperature range (max.): RT to 1000°C
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Cooling rate/heating rate (max.): 100 K/min / 200 K/min
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Measuring range/ weighing range (max.): 2000 mg (minus weight of crucible)
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Enthalpy accuracy: n/a
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TGA resolution: 0.1 µg
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Indium Response Ratio: n/a
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Exchangeable sensors: Yes
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Cooling options: n/a
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Gas atmospheres: Inert, oxidizing, static and dynamic
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Mass flow controller for purge/protective gas: Optional, 3 (0 to 250 ml/min) 3, integrated (0 to 250 ml/min)
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Gas flow regulation: With MFCs: software-controlled
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Automatic Sample Changer (ASC): Yes (optional)
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Software: min. Proteus® 8
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Proteus® software extensions included:
- SmartMode
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ExpertMode
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AutoCalibration
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c-DTA®
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AutoEvaluation
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Proteus® software extensions (optional):
- Temperature modulation (Not available in the USA.)
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o Proteus® Protect
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o Identify
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Advanced Software extensions (optional):
- Peak Separation
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Kinetics Neo
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Thermal Simulations
Size (W x H x D) – incl. ASC, without physical connections: 575 mm x 460 mm x 560 mm ... Read More |