A fire resistant rope and method of making the same. The fire resistant rope comprises a core formed of high tensile strength fibers and a jacket formed of high temperature resistant fibers, where the jacket covers the core. The core comprises a plurality of strands, where each strand comprises a plurality of yarns and each yarn comprises a plurality of high tensile strength fibers. The jacket comprises a plurality of strands, where each strand comprises a plurality of yarns and each yarn comprises a plurality of high temperature resistant fibers. Optionally, a fire retardant material may be applied to the rope.
RELATED APPLICATIONS
This application claims priority of U.S. Provisional Patent Application Ser. No. 60/408,250, which was filed on Sep. 5, 2002, the specification of which is incorporated herein by reference.
A fire resistant rope and method of making the same. The fire resistant rope comprises high tensile strength fibers, high temperature resistant fibers, and a fire retardant coating. The fire retardant coating is applied to at least one of the high tensile strength fibers and the high temperature resistant fibers. The high tensile strength fibers are combined to form a core. The high temperature resistant fibers are combined to form a jacket that at least partly covers the core. The jacket is configured to inhibit movement of air to the core. The coating is configured to inhibit movement of air to the core.
A heat and flame resistant sewing thread having a core strand formed of glass material filaments is wrapped with a sheath of staple fibers spun about the core strand A lubricant is applied along the core strand to assist in the wrapping of the core strand with the sheath fibers. The sheath fibers include a series of microdenier fibers and generally will be ring spun about the core strand.
