Transcription of Objectives - SubratecH GmbH
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Objectives How passive fire protection (PFP) works Testing and certification requirements for epoxy PFP Main factors that determine PFP thickness Advantages of Pyroclad X1 Estimating a project Sample specification Application methods and equipment How Passive Fire Protection (PFP) Works Why Protect Steel? To protect assets Maintain points of egress for personnel Prevent structural collapse Save lives Why Does Steel Require PFP? Steel looses load carrying capacity as the core temperature increases Steel begins to deform at 427 C (800 F) PFP extends the time it takes to reach the failure point Limiting temperature is project specific (200 C - 600 C / 392 F - 1112 F) Most projects require 400 C limiting temperature Pyroclad X1 Description 100% solids (solvent free) 2 component epoxy PFP Jet fire and hydrocarbon pool fire protection for structural elements, beams, columns, bulkheads, underdecks and risers.
Objectives • How passive fire protection (PFP) works • Testing and certification requirements for epoxy PFP • Main factors that determine PFP thickness
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