Fire protective mastic and fire stop
First Claim
1. Fire protective heat insulating mastic for coating upon electrical cables and for forming or coating upon fire protective panels to be mounted in neighboring structures near electrical cables, said mastic comprising an essentially halogen-free mixture of solids and thermoplastic binder resins dispersed as an emulsion in water, said solids including heat intumescing and expanding substances in approximate quantity of 4 to 25% to expand the mastic to porous heat insulating form, ceramic frits in approximate quantity of 5 to 40% to provide a ceramic glaze upon the surface of the dry expanded mastic when exposed to high temperatures developed by fire, hydrated substances in approximate quantity of 10 to 40% and having bonded water evolvable only by application of sufficient heat to decompose and evolve water vapors, fire protective solids of the character of antimony oxide and zinc borate activated by the heat of a fire to a fire protective form in approximate quantity of each of about 2 to 15%, and a resinous thermoplastic binder in approximate quantity of 5 to 40% to bind said solids to a flexible film in coated form of the mastic, said binder being dispersed as an emulsion in water, there being sufficient water in the emulsion to convert said solids into a fluidized form for application as a coating upon said cables and panels, said percentages being by weight, the said solids quantity being based on the total solids of the composition.
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Accused Products
Abstract
A fire protective mastic is provided, whose essential components are solids including a low fusing ceramic frit, hydrated solids having chemically bonded water which is released as a fire protective water vapor when heated, solids which expand or intumesce during the same heat application to form a porous, expanded or foamy insulating body, solids which have a fire break effect, such as antimony oxide and zinc tetraborate, and binder solids which are thermoplastic resins and serve to bind the solids into a flexible coating when applied, the binder solids being dispersed as an emulsion in water and mixed with the other solids to form a mastic. With further addition of water it is converted to a selected viscosity for application by troweling, coating or spraying. The mastic is applied as a coating or a precast boot upon single or grouped electric power and control cables to restrict fire propagation and to prevent self ignition of cables from fires due to overloading or other electrical faults, or from oil, waste or trash fire sources. The mastic is further usefully shaped into fire protective panels the latter of which, when dried, can be mounted as a protective wall insulating a section of cables passing from area to area as a fire stop. The total panel can be formed of the dried mastic, or the mastic can be coated upon one or both sides of insulating panels such as ceramic fiber boards, to further reduce the temperature gradient through the panel upon fire exposure and thus appreciably reduce the temperature on the cold side by 50°-70° F., thereby minimizing the danger of self ignition of gases or combustible materials such as cable jacketing, insulation or other flammable materials.
59 Citations
15 Claims
- 1. Fire protective heat insulating mastic for coating upon electrical cables and for forming or coating upon fire protective panels to be mounted in neighboring structures near electrical cables, said mastic comprising an essentially halogen-free mixture of solids and thermoplastic binder resins dispersed as an emulsion in water, said solids including heat intumescing and expanding substances in approximate quantity of 4 to 25% to expand the mastic to porous heat insulating form, ceramic frits in approximate quantity of 5 to 40% to provide a ceramic glaze upon the surface of the dry expanded mastic when exposed to high temperatures developed by fire, hydrated substances in approximate quantity of 10 to 40% and having bonded water evolvable only by application of sufficient heat to decompose and evolve water vapors, fire protective solids of the character of antimony oxide and zinc borate activated by the heat of a fire to a fire protective form in approximate quantity of each of about 2 to 15%, and a resinous thermoplastic binder in approximate quantity of 5 to 40% to bind said solids to a flexible film in coated form of the mastic, said binder being dispersed as an emulsion in water, there being sufficient water in the emulsion to convert said solids into a fluidized form for application as a coating upon said cables and panels, said percentages being by weight, the said solids quantity being based on the total solids of the composition.
Specification