A wrap-around heat shrinkable protective jacket is used on conduits such as cables, pipes or tubes carrying liquids, gas or electricity to name a few. The protective jacket is applicable to junction blocks, junction tees and wire harnesses and to protect or repair damaged areas of such configurations. A lay-flat design is used to easily install around existing cables, pipes or tubes. A shrinkable material is used to secure and protect these cables, pipes or tubes. Other materials can be added to the jacket interior for additional protection.

A process of heat recovering tubing includes forming a multilayer tubing assembly, heating the multilayer tubing assembly to a shrink temperature to form a heat-recovered tubing assembly, and visually inspecting the heat-recovered tubing assembly for a presence of at least one colorant. A multilayer tubing assembly and an adhesive assembly are also disclosed. The multilayer tubing assembly includes an outer tubing of a heat-recoverable material, an inner tubing of a heat-meltable material, a substrate encased by the inner tubing, at least one protrusion encased by the inner tubing, and an adhesive strip including an adhesive composition and the colorant. The outer tubing encases the inner tubing. The adhesive strip is located between the substrate and the protrusion.

A method of manufacturing a composite component comprises forming a core, surrounding the circumference of the core with a first layer of fabric, applying a second layer of fabric having a different coefficient of thermal expansion from the first layer such that the second layer extends around at least a portion of the circumference of the core and curing the component such that the second layer imparts a compressive or tensile force on the core.

It is an object of the present invention to provide a heat-recoverable article which heat-shrinks in an appropriate temperature range, in which the occurrence of bloom and bleeding is small, and which has excellent resistance to copper-induced damage; and a wire splice and a wire harness each including the heat-recoverable article. A heat-recoverable article according to the present invention has a cylindrical shape and includes a base material layer, in which the base material layer contains an antioxidant and two or more polyolefin resins, the base material layer has one melting-point peak temperature, the melting-point peak temperature is 112 C. to 128 C., the heat of fusion of all of the resin components of the base material layer is 80 to 130 J/g, and the oxidation induction temperature of the base material layer is 265 C. to 280 C.

A transformable material and comprising a base material having a natural shape, with a second material disposed on the base material in a particular pattern so as to impose a transformed shape on the base material, the transformed shape being different than the natural shape. More particularly, the base material is a stretchable 2-dimensional material, and is subjected to pre-stressing before and during disposition of the second material, whereupon after release of the stress, the stretchable base material with the disposed second material thereon automatically transform into a predetermined 3-dimensional manufactured shape.

A method of installing a heat shrink cover around a component includes providing the heat shrink cover having an inner sleeve and an outer sleeve, the inner sleeve is a heat shrink sleeve, and attaching an electrical heating system to an outer surface of the outer sleeve. The inner sleeve and the outer sleeve are arranged around the component, with the outer sleeve at least partially encompassing the inner sleeve. The electrical heating system is energized to heat-recover the inner sleeve.