Chemically Resistant Workbenches for Thermal & Spectral Analysis
In Oil & Gas R&D, understanding material behavior at a molecular and thermal level is crucial to ensuring long-term reliability of components exposed to extreme environments. The material testing lab plays a pivotal role in characterizing the chemical composition, thermal stability, and degradation properties of elastomers, polymers, and metal samples used across drilling and exploration equipment. To support this,
The client operates three critical instruments:
FTIR Spectrometer (Fourier Transform Infrared)
for molecular fingerprinting and chemical composition analysis.
Differential Scanning Calorimeter (DSC)
for identifying thermal transitions like melting, glass transition, and crystallization.
Thermogravimetric Analyzer (TGA)
for studying material degradation, mass loss, and thermal stability under various atmospheric conditions.
Furnisys Solution:
HPL Mounted Workbenches for Analytical Equipments
To meet the lab’s multi-instrument setup and environmental demands, Furnisys delivered a customized mix of durable, modular workbenches – each tailored to the functional and chemical needs of its respective equipment.
🔹 Workbench for FTIR Spectrometer:
A Scitec Workbench with a High-Pressure Laminate (HPL) Worktop was configured. This setup provides a minimal yet sturdy footprint, ensuring instrument vibration is absorbed while maintaining resistance to alcohols, mild acids, and sample prep chemicals commonly used during spectral testing.
🔹Workbench for Differential Scanning Calorimeter (DSC):
Mounted on a workbench with two base cabinets and HPL worktop, this configuration offers strong structural support for the machine’s sensitive heating elements and sample pans. The added storage below allows safe containment of crucibles, tweezers, calibration standards, and maintenance supplies – all within easy reach.
🔹 Workbench for Thermogravimetric Analyzer (TGA):
Also supported by a twin-base cabinet workbench with HPL top, this station ensures thermal equipment remains stable during tests involving oxidizing or inert gas flows. The chemical-resistant worktop helps protect against accidental spillage of reagents or condensed residues that may form during long-duration runs.
Balanced Worktop Solution for Labs
The HPL surface, chosen for all three benches, strikes the right balance of cost-efficiency, chemical tolerance, and durability, making it ideal for dry and semi-wet lab environments, where chemicals are frequently handled but not heavily aggressive.
Cost Efficient
Chemical Resistant
Durable
This tailored setup ensures that each instrument operates in a stable, secure, and contamination-resistant workspace – enabling smooth transitions from one test to another and promoting a clean, professional lab environment.
Conclusion
In high-stakes environments like Oil & Gas R&D, where chemical precision and thermal reliability dictate the success of field components, the right workstation infrastructure plays a defining role. By integrating purpose-built workbenches with high-pressure laminate (HPL) tops, Furnisys ensures not only the stability of instruments like FTIR, DSC, and TGA, but also the safety and efficiency of daily lab operations. This specialized setup empowers testing teams to focus on what matters most – accuracy, repeatability, and speed – while minimizing the risk of contamination, corrosion, or equipment failure.
