Description
Atomfair TG-FTIR 628 Thermogravimetric-Infrared Coupled System
Product Overview
The Atomfair TG-FTIR 628 is a cutting-edge thermogravimetric-Fourier transform infrared (TG-FTIR) coupled system, developed by an enterprise with two decades of profound experience in the R&D and manufacturing of Fourier transform infrared spectrometers. Integrating core technologies of internationally advanced thermogravimetric analyzers, this system perfectly combines the precise quantitative analysis capability of thermogravimetry (TG) with the efficient qualitative analysis capability of Fourier transform infrared spectroscopy (FTIR). It is widely applicable in multiple fields such as polymers, pharmaceutical R&D, and chemical industry.
This system can accurately conduct qualitative analysis of gaseous products generated during material curing and cross-linking reactions, decomposition processes, and other chemical reactions. Meanwhile, it can serve as a rapid testing equipment for rubber and a fast analyzer for auto parts materials. Compatible with third-party thermogravimetric analyzers, it supports the upgrade of customers’ existing Fourier transform infrared spectrometers or third-party thermogravimetric analyzers into a TG-FTIR coupled system, offering strong compatibility and flexibly meeting diverse usage requirements.
Core Specifications
| Parameter Name | Specifications |
| FTIR Spectral Range | 7800~350cm⁻¹ |
| FTIR Resolution | 0.5cm⁻¹ |
| FTIR Detector | Imported high-sensitivity DLATGS |
| Gas Cell Length/Volume | 100mm / 38.5ml |
| Gas Cell Design | Double cone optical path, stainless steel material |
| Internal Dimensions of Gas Cell | Maximum inner diameter: 28mm; Central inner diameter: 16mm |
| Infrared Window Size | 38 x 6mm |
| Transmission Line Size | 3mm OD x 1m |
| Transmission Line Material | TEFLON |
| Exhaust Pipe | 3mm OD TEFLON |
| Maximum Voltage of Gas Cell | 24V 8A 200W |
| Maximum Voltage of Transmission Line | 24V 5A 100W |
| Maximum Heating Temperature of Gas Cell | 300℃ |
| Maximum Heating Temperature of Transmission Line | 230℃ |
| Temperature Control Precision | ±1.0℃ |
Key Features
High Quality & Cost-Effective: Balances excellent performance, detection accuracy, and stability while providing customers with an economical and practical analytical solution.
Vacuum-Sealed Interface: Adopts a vacuum-sealed structural interface design to effectively avoid interference from the external environment during detection, ensuring the accuracy and reliability of test results.
Heatable Components: Equipped with an insulated heating transmission line and a dedicated heated gas cell for infrared spectrometers. The heating temperature can be flexibly set according to actual testing needs, fundamentally preventing the condensation of sample decomposition products and ensuring a smooth testing process. The heated gas cell features a special focused optical path design, achieving high detection sensitivity while significantly optimizing the equipment volume and saving installation space.
Superior FTIR Performance: The infrared spectrometer boasts outstanding core performance, with high sensitivity and stability, enabling long-term stable operation to meet continuous testing requirements.
User-Friendly Detector: Equipped with an imported high-sensitivity detector, eliminating the need for liquid nitrogen during detection, simplifying the operation process, and reducing usage costs and safety risks.
Strong Compatibility: The infrared spectrometer is highly compatible with thermogravimetric analyzers of different brands and models, providing customers with more equipment matching options and reducing equipment replacement and upgrade costs.
Applications
1. Material Reaction & Performance Analysis
- Decomposition reaction analysis
- Dehydration process detection
- Pyrolysis behavior research
- Gas-solid reaction monitoring
- Combustion characteristics analysis
- Oxidation process research
- Corrosion behavior detection
- Desorption phenomenon analysis
- Catalytic reaction monitoring
2. Composition & Content Analysis
- Residual solvent content detection
- Qualitative and quantitative component analysis
- Adhesive burnout amount detection
- Coal composition analysis
- Polymer component analysis
- Ash content determination
- Volatile and gas release detection
3. Special Application Solutions
- Application of TG-FTIR coupled technology in ABS pyrolysis research
- Application of TG-FTIR coupled technology in EVA pyrolysis research
- Application of TG-FTIR coupled technology in PA6 pyrolysis research
- Application of TG-FTIR coupled technology in PA66 pyrolysis research
- Application of TG-FTIR coupled technology in PP pyrolysis research
If you’re interested, have any questions, or have specific customization requirements, please feel free to contact us at inquiry@atomfair.com.
