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Conductive and static dissipative floorings and coatings are designed to provide protection from electrical charges causing harm to work or products. This presentation is designed to familiarize you with the phenomenon of Static Electricity, how it is generated and its effects on industry. We will then discuss ways to alleviate or restrict problems associated with ESD by utilizing specialized conductive or static dissipative flooring and coating products. Specifically focused on the common conditions and design considerations required for a proper installation, including substrate requirements, grounding and strapping recommendations, and product selection criteria.
Conductive and static dissipative floorings and coatings are designed to provide protection from electrical charges causing harm to work or products. This presentation is designed to familiarize you with the phenomenon of Static Electricity, how it is generated and its effects on industry. We will then discuss ways to alleviate or restrict problems associated with ESD by utilizing specialized conductive or static dissipative flooring and coating products. Specifically focused on the common conditions and design considerations required for a proper installation, including substrate requirements, grounding and strapping recommendations, and product selection criteria. We will then examine the different performance test standards for conductive and static dissipative flooring and other related test such as resistance measurements in combination with a person. We will conclude with an introduction of the various megohmmeters available and the standard procedure for conducting point to point, and point to ground testing.
Recent polyurea resin technology advances have allowed for the development of value-added polyurea topcoats that are proving to be valuable alternatives for many polyurethane applications. The development of an SSPC specification for a weatherable polyurea topcoat is discussed for the purpose of providing a standard that will be acceptable throughout our industry.
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This paper details a novel surface preparation process that is suitable for Duplex coating of galvanized steel intended for a variety of atmospheric and embedded service applications. It provides all the properties necessary for excellent coating performance and longevity, including high adhesion, excellent resistance to cathodic disbondment, and resistance to ingress of water, without the drawbacks associated with abrasive blasting, the traditional surface preparation method.
Duplex coatings are used to protect galvanizing in harsh environments, provide aesthetics, and enhance corrosion protection. Surface preparation is critical to achieving long term performance, and abrasive blasting was found to be the most effective surface preparation technique.