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Heat shrink tubing is a type of thermoplastic tube used to insulate electrical wires and cables in a variety of experiences.
This type of tubing is highly versatile and offers a variety of applications. Heat shrink tubing can also be used to protect and secure a variety of items, from small wires to larger cables and even entire assemblies.
Heat shrink tubing is made from a variety of different materials to accommodate different applications and requirements.
Heat shrink tubing offers exceptional insulation protection. It is extremely effective at preventing electric shocks and static build ups.
Additionally, it can be used to create a water-tight seal around the wires to resist moisture and corrosives. Heat shrink tubing also offers some mechanical protection for the wires by reducing any sharp edges or points around the cables.
It also protects against cable abrasion and provides insulation protection for both hot and cold weather conditions.
Heat shrink tubing expedites the installation process and makes it easier for technicians to manage and organize the wires during installation.
Heat shrink tubing is fairly easy to install, as the tubing slides on to the wire and is then heated or shrunk around the wire using a heat gun.
By shrinking the tubing around the wire, it makes the connection more secure and helps reduce the risk of any cable failures in the future.
Heat shrink tubing can be used in a variety of industries, from automotive to computer and communication, among others.
It is a cost-effective and reliable solution to insulate and protect the wires and cables. Heat shrink tubing is available in various shapes, sizes and colors, making it a very versatile product to suit any installation needs.
The NIgeria 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.
At MD&M Minneapolis, Junkosha introduces larger sizes of peelable heat shrink tubing (PHST). Novosha, a leader in advanced fluoropolymer application technologies, has selected MD&M Minneapolis as the venue for the launch of its new FEP Peelable Heat Shrink Tubing (PHST) line.
This new range has been designed to enable a wide range of large-sized catheter-based procedures where ease of manufacture is the primary requirement. It is available in a variety of cut-to-length options.
With the introduction of Large Size PHST, Junkosha expands the range of uses for peelable heat shrink solutions, enabling manufacturers to finish intricate build processes for large diameter constructs more quickly and effectively while also increasing yields and saving time.
To deliver their intended treatment, catheter delivery systems for applications such as structural heart, transcatheter aortic valve replacement (TAVR), and abdominal aortic aneurism (AAA) repair depend on progressively complex shapes and constructs. With these less invasive procedures in mind, Junkosha developed its Large Size PHST solution.
The cut-to-length and pre-slit options that Junkosha offers allow catheter manufacturers to eliminate steps in the manufacturing process, further streamlining their operations.
Optinova Introduces FEP QuickShrink 2.0, the Next Generation of FEP Heat Shrink Tubing. The FEP QuickShrink 2.0 is unique in that it uses a fast shrinking process that results in a shorter production cycle and lower production costs. Tube bending, reflow processing, and forming are made possible by its excellent anti-stick surface, high lubricity, transparency, and chemical resistance.
The low and adjustable shrink temperature of FEP QuickShrink 2.0 is 80°C to 170°C. In the medical tubing industry, Optinova’s reputation has been cultivated through superior quality and batch-to-batch consistency. Customers of FEP HS can anticipate parts to function consistently from batch to batch.
The FEP QuickShrink 2.0’s features and advantages include: Lower shrinking temperature, cost-effective product design, quick shrinking process, extraordinary resistance to chemicals, Excellent electrical insulation values, low gas permeability, excellent UV transmission, gamma, ETO, e-beam, and autoclave. Biodegradable.
