| Description | The TMA 512 Hyperion® Select - Detecting Even the Slightest Dimensional Changes for Ultimate Material InsightsFeatures:- Nanometer-Level Precision with Advanced LVDT Technology - The heart of the TMA 512 Hyperion® is a highly sensitive LVDT sensor that can measure length changes down to the nanometer
The TMA 512 Hyperion® Select - Detecting Even the Slightest Dimensional Changes for Ultimate Material InsightsFeatures:- Nanometer-Level Precision with Advanced LVDT Technology - The heart of the TMA 512 Hyperion® is a highly sensitive LVDT sensor that can measure length changes down to the nanometer scale. It boasts an impressive digital resolution of 0.125 nm. This ensures ultra-precise detection of dimensional changes, providing exceptional results for your thermal analysis needs.
-
Measurement Status Always in View with Innovative Display and LED Status Bar -
The LED status bar on the device clearly displays information about the current measurement, even from a distance. The user-friendly touchscreen display allows for easy control and real-time monitoring. It is seamlessly integrated into our Proteus® software, which enables quick setup and management of measurements.
-
Flexible Temperature and Atmosphere Control in a Vacuum-Tight TMA System -
Interchangeable furnaces support a wide temperature range. In the Select version, this spans from -70°C to 1500°C (optionally 1600°C). In addition, various gas atmospheres can be generated. The model with two furnaces allows quick changeover for different test requirements.
-
Force Modulation -
Digitally programmable force or displacement control up to 3 N with linear or stepwise force alteration and continuous force modulation for determining visco-elastic properties like Relaxation, Creep and Stress/Strain.
-
Hydrogen Research -
Measurements in up to 100% hydrogen atmosphere with maximum safety.
-
Seamless Instrument Compatibility -
Furnaces for the TMA 512 Hyperion® are fully compatible with other NETZSCH thermal analysers, such as the STA 509 Jupiter® and DSC 500 Pegasus®, enabling versatile laboratory integration.
... Read More | Opening a New World of Cure Monitoring
Customized Test Conditions
The multi-functional design of the DEA 288 Ionic allows for the application of a great variety of different test conditions such as heat, cold or UV light. This enables the user to easily and conveniently determine the best Opening a New World of Cure Monitoring
Customized Test Conditions
The multi-functional design of the DEA 288 Ionic allows for the application of a great variety of different test conditions such as heat, cold or UV light. This enables the user to easily and conveniently determine the best parameters for processing the material.
A complete dielectric analyzer consists of the DEA electronics and a sensor. Disposable sensors are connected via an adaptor box. Four models of DEA 288 Ionic are available: the regular laboratory version and the slim version with small footprint and two industrial versions.
Both instruments are equipped with the same state-of-the-art electronics and have the ability to control additional accessories such as the lab furnace or lab press. The technical differences between the devices are in the design of the housing, the footprint and the maximum number of channels.
Features:
- Frequency range: 1 mHz to 1 MHz, freely selectable values
-
Data acquisition multiple DEA modules: True simultaneous operation of all channels
-
Minimum data acquisition time: < 5 ms
-
Sensor connection: Shielded 4-wire technique (compensation of resistivity and capacity of the wire as a prerequisite for precise measurements)
-
DEA modules:
- Portable Version: All-purpose version, up to 7 channels
-
Industrial Rack Version: up to 8 channels (extension possible for up to 16 channels)
-
I/O Ports: Input and output of measuring signals or signals from peripheral devices such as pressure or temperature sensors. DEA allows for triggering by manufacturing machines
... Read More | The testing instrument DMA 503 Eplexor® up to ±500 N enables the dynamic mechanical (or static) characterization of a wide range of different materials including elastomers and polymers, composites, metals, glasses, ceramics, biomaterials, foods, adhesives, and liquids.
The modular design of the The testing instrument DMA 503 Eplexor® up to ±500 N enables the dynamic mechanical (or static) characterization of a wide range of different materials including elastomers and polymers, composites, metals, glasses, ceramics, biomaterials, foods, adhesives, and liquids.
The modular design of the high-force DMA systems allows for measurements in the tension, compression, bending, and shearing modes. The testing machines in this series differ from each other mainly in terms of their maximum dynamic force ranges of ±100 N, ±150, N, and ±500 N.
Various add-on options make these testing machines a safe investment for the long term.
- Flexible and set for the future
... using a variety of forces and strain sensors as well as furnaces which allow for easy upgrades to the basic system at any time after the first installation.
- High force levels
...allowing for static loads up to 1500 N and dynamic loads up to ± 500 N; significant for investigations on curable resins, elastomers, composites, metals, glasses, or ceramics.
- Two independent drives
...featuring a servo motor for static and a shaker for dynamic loads.
- Interchangeable force sensors
...which can be easily changed out by the operator; nominal loads available ranging from ±10 N to ±2500 N.
- 24/7 operation via the Automatic Sample Changer
...for tension, compression, and bending samples across the entire temperature range around the clock.
- Optimized for temperature sweeps on large samples
...thanks to uniform heating of even large samples with low thermal conductivity (e.g., large rubber specimens).
- Highly economic LN2 cooling
...for low liquid nitrogen consumption.
Accessories
- Sample holders for a variety of applications
...from liquids via reinforced thermosets to metals and ceramics - all materials can be investigated with the DMA 503 Eplexor®.
- Humidity Generator (HYGROMATOR®)
...add-on investigates the water uptake of samples such as plastics and biopolymers. With the humidity generator, it is possible to create relative humidity values of between 5% and 95% in the temperature range between 5°C and 95°C.
- Immersion Bath
...even for measurements in the tension, compression, and bending mode; for the investigation of aging or plasticizer effects caused by contact with water or oil.
- Cooling options
...two different cooling systems are available including liquid nitrogen cooling to -160°C and air chiller to -60°C to use with the standard furnace. ... Read More | The DSC 300 Caliris® Supreme – The Future-Proof Choice
This version offers a choice of currently three modules and can be configured to achieve an unrivaled maximum temperature range of -180°C to 750°C. It is possible to update your device at any time to take advantage of the latest The DSC 300 Caliris® Supreme – The Future-Proof Choice
This version offers a choice of currently three modules and can be configured to achieve an unrivaled maximum temperature range of -180°C to 750°C. It is possible to update your device at any time to take advantage of the latest technological developments or to change your application. The choice of the module used remains unrestricted. Just choose between broad temperature range, fast heating rates or high sensitivity as needed.
The DSC 300 Caliris® Select – Tailor-Made for Your Applications
In the Select version of the DSC 300 Caliris®, there is an initial choice between three currently available modules. The maximum temperature range available in the DSC 300 Caliris® Select is -170°C to 650°C. The Select version allows for the exchange of modules of the same type avoiding instrument downtimes.
Both versions come with integrated color touch display, an LED status bar and can optionally be equipped with an automatic sample changer.
DSC 300 Caliris® Classic- Robust instrument with attractive price-performance ratio
Easy-to-use, robust, precise, optimized for everyday use – these are the features of the innovative DSC 300 Caliris® Classic. The unique design of this instrument encompasses everything needed for successful DSC investigations – regardless of whether the user is a beginner or an experienced professional. Above all, it is the innovative software that sets new standards: the already established AutoEvaluation and Identify now meet the next generation of data management LabV®, which keeps track of the collected data and organizes it for a smooth laboratory workflow.
The DSC 300 Caliris®Classic offers:
- A compact design for more space in your lab.
- Smart software that allows you to get started quickly with DSC measurements.
- Automated measurement and evaluation, making routine easy.
... Read More | The TMA 512 Hyperion® Supreme - Detecting Even the Slightest Dimensional Changes for Ultimate Material Insights Features:- Nanometer-Level Precision with Advanced LVDT Technology -The heart of the TMA 512 Hyperion® is a highly sensitive LVDT sensor that can measure length changes down to the nanometer
The TMA 512 Hyperion® Supreme - Detecting Even the Slightest Dimensional Changes for Ultimate Material Insights Features:- Nanometer-Level Precision with Advanced LVDT Technology -The heart of the TMA 512 Hyperion® is a highly sensitive LVDT sensor that can measure length changes down to the nanometer scale. It boasts an impressive digital resolution of 0.125 nm. This ensures ultra-precise detection of dimensional changes, providing exceptional results for your thermal analysis needs.
-
Measurement Status Always in View with Innovative Display and LED Status Bar -
The LED status bar on the device clearly displays information about the current measurement, even from a distance. The user-friendly touchscreen display allows for easy control and real-time monitoring. It is seamlessly integrated into our Proteus® software, which enables quick setup and management of measurements.
-
Flexible Temperature and Atmosphere Control in a Vacuum-Tight TMA System -
Interchangeable furnaces support a wide temperature range. In the Select version, this spans from -70 °C to 1500 °C (optionally 1600 °C). In addition, various gas atmospheres can be generated. The model with two furnaces allows quick changeover for different test requirements.
- Force Modulation -
Digitally programmable force or displacement control up to 3 N with linear or stepwise force alteration and continuous force modulation for determining visco-elastic properties like Relaxation, Creep and Stress/Strain.
- Hydrogen Research - Measurements in up to 100% hydrogen atmosphere with maximum safety.
-
Seamless Instrument Compatibility - Furnaces for the TMA 512 Hyperion® are fully compatible with other NETZSCH thermal analysers, such as the STA 509 Jupiter® and DSC 500 Pegasus®, enabling versatile laboratory integration.
... Read More |