|
|
|
|
|
|
Automatic ashing and drying systems prepASH® 340 Series
prepASH 340 series
... is the latest in the new generation of thermo-gravimetric analysis instruments.
It determines moisture and ash values automatically and produces up to 80% savings in workload and costs. The prepASH provides higher precision and reproducibility of the results through considerable improvements of manual procedures. This is an instrument where no technology transfer data loss occurs and where the entire process is monitored and recorded from start to finish.
In one working cycle, up to 29 specimens and a reference pan are ashed fully automatically in accordance with the latest quality guidelines, monitored and recorded within a wide temperature range of 50° to 1000°C.
prepASH representing the highest level of fully automatic thermo-gravimetric analysis operating at temperatures of up to 1000º C.
Built-in high performance analytical balance 0.0001 g.
Massive reduction in the work-load through the simultaneous evaluation of the moisture and ash content of up to 29 samples in one cycle without desiccator.
Over 36 hours analysis time available.
Selectable atmosphere (N2, O2, Air), exhaust option for measure sulphate-ash.
Display 5.7“ VGA colour touch screen keyboard.
Remote Monitoring on PC via Network.
Various communication ports: Ethernet, USB (PC, Printer).
Printout: Graphics, Tables, Methods and Statistics.
Measurements meet the requirements of DIN, ASTM, ICC and others.
Error free reports conform to GLP guidelines.
|
|
The new GHP 456 Titan® is the ideal tool for researchers and scientists in the field of insulation testing. Based on the well-known, standardized guarded hot plate technique (e.g. ISO 8302, ASTM C 177 or DIN EN 12667), the system features unrivalled performance over an unmatched temperature range.
Combining state-of-the-art technology with the highest quality standards, NETZSCH has designed a robust and easy-to-operate instrument, featuring unparalleled reliability and optimum accuracy over a broad temperature range.
The GHP 456 Titan® works with sheeted individually calibrated PT100 resistance temperature sensors (resolution 1 mK, accuracy in the range of a few 10 mK). Due to special sheeting, the sensors can be used up to 700°C (+ more than 100 K safety range).
The NETZSCH GHP 456 Titan® is the new benchmark in Guarded Hot Plate measurements.
|
|
|
|
|
|
TCT 426 - Thermal Conductivity Tester: furnace/hot-wire method
The TCT 426 works according to the hot wire method and is especially designed for the investigation of refractory rock. The measuring cross, parallel wire, and T(R) methods can be used in the instrument. The TCT 426 is indispensable for the efficient use of energy in industrial kiln engineering with refractories.
The hot-wire method is an absolute method for direct determination of the thermal conductivity, based on the measurement of the temperature increase of a linear heat source/hot wire (cross-wire technique) or at a specific distance from a linear heat source (parallel-wire technique).
The hot wire and thermocouple are embedded between two test pieces, which make up the actual test assembly. The time-dependent temperature increase after the heating current is switched on is a measure of the thermal conductivity of the material being tested.
Another variation, the so-called "Platinum Resistance Thermometer Technique" or "T(R) Technique", is described in ASTM-C 1113. Here an integral temperature measurement is carried out over the entire length of the hot wire; i.e. the hot wire is both heat source and temperature sensor at the same time.
The TCT 426 thermal conductivity tester enables the use of all three of the methods described in easily interchangeable, pre-wired measuring frames.
|
|
|
|
|
|
STA 449 F1 Jupiter® – Simultaneous TG-DSC
Fascinating Flexibility in Thermal Analysis
The new STA 449 F1 Jupiter® combines unlimited configuration flexibility and unmatched performance in just one instruments.
● 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 (TG, TG-DSC, TG-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 FTIR-coupling even more comprehensive analyzes are possible.
All these features make the new developed STA 449 F1 Jupiter® to the ideal tool for thermal analysis of materials in the fields of research, developments and quality assurance.
|
|
Fascinating Flexibility in Thermal Analysis
DSC 404 F3 Pegasus® - High-Temperature DSC
The new DSC 404 F3 Pegasus® offers a high flexibility for all DSC and DTA applications in quality control and product development. Furnaces and DSC/DTA sensors are available for a broad temperature range (-150...2000°C). Numerous upgrade possibilities allow adaption of this cost-effective system to sophisticated applications.
The DSC 404 F3 Pegasus® is part of the economical NETZSCH F3-product line, which is specially tailored to the requirements of comparative material characterization and quality control.
The DSC 404 F3 Pegasus® can be operated from -150°C to 2000°C with various DTA and DSC sensors that are easily exchangeable by the user and various furnace types.
The sample chamber can be purged with inert or oxidizing gases in order to remove gases evolved from the sample.
The measuring system is vacuum tight (10-2mbar).
|
|
|
|
|
|
TG 209 F3 Tarsus - Thermo-Microbalance
Together with the DSC 200 F3 Maia®, the new thermo-microbalance, TG 209 F3 Tarsus, represents a cost-effective overall concept, tailored not only to the quality assurance of polymers, but also to routine applications in the fields of organic chemistry, pharmaceuticals, cosmetics and food.
This new basic instrument for thermogravimetric measurements offers already a resolution of 0.1 µg. The TG 209 F3 Tarsus operates between room temperature and 1000°C with freely selectable heating rates from 0.001 K/min up to 100 K/min. The accurate sample temperature is detected by a thermocouple in direct contact with the sample crucible. Through the reliable vertical construction with sample carrier lift, the thermo-balance as a top-loader, is easy and safe to use, with no hang-down wires or exposed fragile parts.
The calculated DTA-signal c-DTA® (option) not only is ideal for temperature calibration. During sample measurements it yields important information regarding endothermal processes (e.g. vaporization with mass loss or melting without mass loss) as well as exothermal reactions.
For the TG 209 F3 Tarsus we offer an automatic sample changer (ASC) for up to 20 samples also in different crucible types.
|
|
TMA 402 - Vertical thermomechanical analyzer
The TMA 402 thermo-mechanical analyzer combines in a unique way the flexibility for investigation of samples under loads of various types and configurations with extremely precise, high-resolution determination of expansion and deformation. This is achieved through the vertical design, with the very homogeneous furnace at the bottom and thermostatically controlled measurement system at the top.
Easy handling and exchangeable sample holders for expansion, penetration, bending and tension measurements, as well as load selection via standard weights, mean quick sample preparation and measurement.
Dynamic elasticity measurements are possible with an electromagnetic dynamic load accessory.
Polymers, composite materials, glass, ceramics and metals are among the preferred application materials in the form of cylinders, rods, small plates, films, fibers or wires.
|
|
Model Unitherm 6000 Guarded Hot Plate Thermal Conductivity Measuring System
* -175°C to 550°C, in several ranges
* Guarded hot plate method
* Fully automated operation
* For insulating materials
* 300 mm square samples
* ASTM C177, ISO 8302
|
|
SETSYS Evolution: High Performance Thermal Analyzers (ambient to 2400°C): DTA, DSC, TGA, simultaneous TGA-DTA/DSC, TMA, coupling to gas analyzers
Widest temperature range (ambient / 2400°C) on the market
Modularity: the different modules DTA, DSC, TGA, TMA can be adapted interchangeably around the same structure
Measurement performance: satisfy unique resolution, precision and sensitivity criteria
SETSYS Evolution is today the state-of-the-art in research-grade thermal analyzers.
It includes:
-SETSYS Evolution DTA (up to 2400°C), DSC (up to 1600°C)
-SETSYS Evolution TGA
-SETSYS Evolution simultaneous TGA-DTA/DSC-EGA
-SETSYS Evolution TMA
|
|
Model FireLine 1000 Thermal Conductivity Measuring System
* RT to 1000°C
* Fire protective materials & insulation
* 150 mm square samples
* Slug calorimeter method
* ASTM E-2584-07
|
|
Model QuickLine -10 Thermal Conductivity Meter
* Ambient temperature operation
* Guarded heat flow meter
* Manual or computerized operation
* 2 inch dia. sample
* Solids, pastes, liquids
* Filled polymers
* ASTM E1530
|
|
Model Unitherm 2022 Thermal Conductivity Measurement Instrument
* -20°C to 300°C
* Guarded Heat Flow Meter
* Fully computerized operation
* 2'' dia. sample
* Solids, pastes, liquids
* Filled polymers
* ASTM E1530
|
|
|
|
|
|
The QuickLine™-50 instrument is a device specifically developed for measuring interface thermal resistance.
Heat transport across gaps is most frequently improved by the addition of a layer of conductive material that fills the crevices in between, and with that thermally bridges the gap. Heat transfer is then governed by the thermal conductivity of the material, the thickness of the layer, and the two interfaces at the boundaries of the layer. For most engineering applications it is extremely difficult to model this combination from its components, as exact figures for the boundary resistances are usually not known. Further aggravating this is the effect varying surface conditions can bring to the interface. For this reason it is becoming general practice to measure the combination that closely replicates actual use, and determine experimentally the interface impedance of the filler and the two interfaces combined.
* Thermal Interface Materials
* Fast Test Times
* RT to 150°C
* Variable (controlled) Loading
* Easy to use
|
|
Thermogravimetry (TGA) measures weight changes in a material (subjected to temperature variation in a controlled atmosphere).
All SETARAM Instrumentation's balances satisfy the highest accuracy and stability criteria.
Properties measured by thermogravimetry (TGA) include corrosion, pyrolysis, adsorption / desorption, loss of solvent, oxidation / reduction, hydration / dehydration, decomposition, carbon black, etc,.
SETARAM Instrumentation offers several systems:
SETSYS Evolution, High Performance and modular Thermogravimetric Analyzer (ambient to 2400°C)
LABSYS, easy-to-use Thermogravimetric Analyzer (ambient to 1600°C)
96 LINE, large volume and high temperature Thermogravimetric Analyzer (ambient to 2100°C)
|
|
|
Thermogravimetric Analysis (TGA) measures weight changes in a material as a function of temperature (or time) under a controlled atmosphere. Its principal uses include measurement of a material's thermal stability and composition. Thermogravimetric Analysis instruments are routinely used in all phases of research, quality control and production operations. TA Instruments offers the Q5000IR, Q500, Q50, and simultaneous DSC / TGA (Q600) to meet the various needs of the researcher, quality control analyst and academic instructor.
|
|
The Q400 is a sixth-generation product from the world leader in thermal analysis. Its performance, ease-of-use, and reliability aptly demonstrate our long experience
in designing novel instruments for high sensitivity mechanical measurements over a wide temperature range.
|
|
| ... products without technical information |
| |
|
|
see the results for the following category : 
