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Animation of heat-shrink tubing, before and after shrinking. Heat-shrink tubing (or, commonly, heat shrink or heatshrink) is a shrinkable plastic tube used to insulate wires, providing abrasion resistance and environmental protection for stranded and solid wire conductors, connections, joints and terminals in electrical wiring.
This improves the molecular structure such that the polyolefin will work as part of a heat-shrinkable sleeve and provide the required level of mechanical protection while in-service. It makes the polyolefin perform more like a tough, heat-resistant, elastic material or rubber, [3] rather than like a plastic material.
The ECC material family is expanding. The development of an individual mix design of ECC requires special efforts by systematically engineering of the material at nano-, micro-, macro- and composite scales. ECC looks similar to ordinary Portland cement-based concrete, except that it can deform (or bend) under strain. [1]
Heat-shrink may refer to: Heat-shrink tubing, for electrical work; Heat-shrinkable sleeve, for pipelines; Shrink wrap, for packaging This page was last edited on 28 ...
The result was a thin cementitious topping material that would adhere to concrete surfaces and provide a newly resurfaced coating to restore the worn surface. Concrete overlays lacked the long-term performance [5] characteristics of acrylic resins. Acrylic resins provided good UV resistance, but lacked long term water resistance and adhesion ...
A stamped concrete patio gives you the look and texture of a stone patio for a lot less than the real thing -- up to 50 percent less than the cost of natural slate or limestone. That's not all ...
Once this is defined, design code gives standard prescriptions for w/c ratio, the cement content, and the thickness of the concrete cover. This approach represents an improvement step for the durability design of reinforced concrete structures, it is suitable for the design of ordinary structures designed with traditional materials (Portland ...
BS 5400-6:1999 Steel, concrete and composite bridges. Specification for materials and workmanship, steel. (This part of standard is replaced by BS EN 1090-2 (EN 1090-2) but remains current) BS 5400-7:1978 Steel, concrete and composite bridges. Specification for materials and workmanship, concrete, reinforcement and prestressing tendons.