Edgebanding needs in laboratory environments are unique spaces that require durability and impact resistance, but also benefit from a cohesive design aesthetic. Whether the setting is a research facility or an educational or pharmaceutical laboratory, the materials used, including edgebanding, must meet high-performance standards. In this blog, we’ll take a closer look at key considerations when manufacturing case goods and furniture for these types of environments.
Durability and Resistance to Chemicals
One of the most important aspects of edgebanding in laboratory environments is chemical resistance. Labs often use harsh chemicals and solvents, making it essential for the materials used, including edgebanding, to withstand corrosive substances without degrading. Edgebanding in these environments often use high-quality thermoplastics like PVC or ABS, which when combined with special adhesives such as polyurethane reactive (PUR) adhesives can resist moisture, and chemical spills and clean up easily.
Impact Resistance and Durability Against Wear
In fast-paced laboratory environments, furniture is subject to wear and tear from frequent drawer openings or equipment being moved around. High-quality 3mm edgebanding is often used in these environments as it provides superior impact resistance, protecting the edges of cabinets from chipping or breaking.
Design Cohesiveness
Laboratory casework and furniture often require custom-built designs to ensure proper workflow and functionality when planning these spaces. Poorly applied or mismatched edgebanding can affect the aesthetics of these environments. Properly matched edgebanding creates an overall seamless look without compromising on performance.
By investing in high-quality and durable edgebanding in lab environments, you can ensure that these spaces remain functional and long-lasting, providing a more efficient workspace for researchers, students, and healthcare professionals. Speak to our customer services reps to get started today.
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