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The phrase “heat-shrink tubing” (also known as “heat shrink” or “heatshrink”) refers to a plastic tube that can be shrunk and is used to insulate stranded and solid wire conductors, connectors, joints, and terminals in electrical wiring by providing abrasion resistance and environmental protection.
In addition, it may be used to construct cable entrance seals that provide environmental sealing protection, patch the insulation on wires, bundle wires together, or shield wires or tiny parts from light abrasion. Polyolefin, which is typically used to make heat-shrink tubing, shrinks radially (but not longitudinally) when heated, losing half to one-sixth of its diameter.
The Jordan Heat shrink tubing market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2023 to 2030.
Thin Wall FEP HST unveiled as Junkosha’s latest advancement in heat shrink technology. Leading heat shrink tubing (HST) specialist introduces newest solution for interventional therapies as it continues in its charge towards catheter and guidewire miniaturization.
Junkosha, a materials expert and the inventor of peelable heat shrink tubing (PHST) technology, has released its newest product, Thin Wall FEP, to make it possible to provide guide wires effectively when utilized for interventional treatments.
Junkosha is leading the drive towards heat shrink technologies that allow access to the most demanding areas of the vasculature with little negative impact on the patient as part of its larger mission to be at the forefront of precision designed, miniaturized micro catheters and guide wires.
When employing guide wires for interventional treatments, Junkosha’s Thin Wall FEP HST technology is the best choice since it makes use of the FEP surface’s low coefficient of friction. With a recoverable wall thickness of 0.0025″ and a shrink ratio of 1.25:1, Junkosha’s
Thin Wall FEP HST offers guide wire makers a thin, reliable option that offers a strong substitute for coatings or other surface treatments. The thin recovered wall guarantees that the properties of the underlying substance are not altered.
The development of longer guide wires with low friction surfaces for physicians to snake through the vascularity to reach previously unreachable target locations is testing device engineers as the medical technology sector develops quickly.
It is projected that when manufacturers are urged to provide solutions that may redefine what is achievable through this method, the adoption of these sorts of miniaturized, thinner guide wire solutions will become more widespread.
