Specification Countertop Selection Epoxy Specifications       Adobe Acrobat (.pdf) Format       MS Word (.doc) Format Continuing Education Units     Laboratory Countertop Selection The laboratory worksurface is by far the single most visible and interacted with component of any laboratory. Since the late 1980’s, when epoxy resin replaced cement asbestos as the industry standard for lab worksurfaces, manufacturers have strived to refine countertop designs to perform beyond the chemical, heat and load bearing requirements of the research lab. It is now possible to select between modular designs, colors and many additional safety and aesthetic options to individually tailor each laboratory’s efficiency, accuracy, comfort and precision for various applications. Designing for Precision/Reconfiguration Typically, new laboratory worksurfaces are required for new facilities, the reconfiguration of existing space or for a complete retrofit. Workspaces designed with a degree of flexibility are recommended due to R&D labs’ project specific nature (the useful life of an R&D lab is on average very short and may require alterations as often as every three to five years). Long-term savings can be achieved by forecasting future requirements and specifying appropriate countertops (and supporting cabinetry) in the initial construction of the facility. Worksurface Evaluation Criteria The lab owner in conjunction with the architect, the lab manager and in some cases the lab user should specify the type (or types) of worksurfaces required in the initial design phase of a lab project. Worksurface evaluations should be based upon individual lab requirements for: Resistance to the chemicals to be used Heat resistance Liquid absorption Load bearing capabilities Impact and abrasion resistance Electrical conductivity Liquid containment and liquid disposal (especially in sink areas and fume hoods) Ease of maintenance Ergonomics Availability ADA compliance Color Overall appearance Special requirements (i.e., irregular shapes, minimal joints, etc.) Each lab design project will have unique worksurface requirements; however, depending upon laboratory classification, some general guidelines can be supposed: Chemistry Use Area (i.e., Organic, Inorganic, Bio-chemical, Analytical) – consideration should be given to chemical resistance, ease of cleaning, color suitability, strength, abrasion resistance and thermal shock resistance. Physics Use Area – consideration should be given to physical strength, abrasion resistance, impact resistance and heat resistance. Biology Use Area – consideration should be given to stain resistance, ease of cleaning, abrasion resistance plus bacteria and fungus resistance. Special Purpose Use Areas Where Chemical Resistance is a Prime Consideration (i.e., pathology/hematology and other special biochemical areas) – consideration should be given to impermeability and ease of cleaning. Special Purpose Use Areas Where Chemical Resistance is Not a Prime Consideration:     Electronics – consideration should be given to physical strength and other task specific characteristics. Electrical – consideration should be given to insulation characteristics, dielectric strength and physical strength. Mechanical – (i.e., metallurgical, geological, etc.) – consideration should be given to resistance to physical abuse. Radioactive – consideration should be given to contamination by radioactive material. Thermal – consideration should be given to temperature requirements.*   Certainly other classifications exist and practical combinations of the above laboratory types are numerous. For safety, evaluate worksurface needs based upon the usage in the hardest impacted areas of the lab. Typically fume hoods and sink areas see the majority of harsh chemicals and reactions. The Selection Process Once the worksurface requirements have been specified, various materials and styles can be evaluated for compliance. The three most popular work surfaces used today are epoxy resin, plastic laminate and phenolic resins. To facilitate the selection process, many worksurface manufacturers perform and publish the results of physical properties tests as well as chemical resistance tests that evaluate worksurface resistance to the chemicals commonly used in lab environments as well as standard measurements for hardness, flammability and deflection. These tests are provided as guidelines. Carefully evaluate results between various material types and between individual material manufacturers as occasionally results are impacted due to dissimilar testing methods. A variety of resources are available to help identify and evaluate worksurface materials and manufacturers. SEFA (Scientific Equipment and Furniture Association) is a non-profit organization dedicated to the enhancement of member company performance and the improvement of the quality and timely completion of laboratory facilities. The SEFA web site, www.sefa.cc, provides a wealth of lab design information and links to member’s web pages as well as government regulating agencies. Laboratory types and requirements have been adapted with permission from "SEFA’s Recommended Practices." SEFA 3 – 1996. Article as appeared in Nov. 01 Issue of R&D Magazine. Co-written by Hank Von Der Bruegge and John Powell.

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