In this post, we’ll explain why fluoropolymers make wonderful medical materials, and share some of the most common applications of fluoropolymer materials in the industry, such asheat shrink tubing。因此，下次您进行医疗程序时，请注意荧光聚合物，您可能会发现它们。
The Essence of Fluoropolymers
Fluoropolymers are a type of polymer that contain fluorine atoms in their chain-like molecular structures. They are known for being strong, durable, and resistant to both heat and chemicals. Fluoropolymers were first discovered by accident in the 1930s and since then, they have been used in a variety of industries, including healthcare, automotive, and construction.
Odds are you probably own kitchenware made with fluoropolymers, i.e., polytetrafluoroethylene. This material is commonly sold under the name Teflon and is used to create non-stick pans, baking dishes, and spatulas. The healthcare industry uses the very same material to coat surgical instruments, as it allows them to slide in and out of the body with ease and reduces the risk of infection.
- 不粘- 氟聚合物不与其他物质相互作用，这使其非常适合涂料和医疗植入物。
- 非腐败– Fluoropolymers are resistant to corrosion from both acid and alkali solutions.
- Non-reactivity– Fluoropolymers do not react with other substances, even when exposed to high temperatures or electricity.
For these reasons, nearly all hospitals rely on fluoropolymer tools and equipment.
- Coating surgical instruments- 荧光聚合物通常用于外科仪器，因为它们会产生光滑的非孔表面，易于清洁并有助于降低感染的风险。这在诸如眼科手术之类的精致过程中尤为重要，即使是最小的细菌也可能引起严重的并发症。
- Creating implants and prosthetics– Fluoropolymers are also used to create implants and prosthetics, as they are strong and durable yet still flexible enough to move with the body. Joint replacement surgery, for example, commonly uses fluoropolymer materials.
- Producing tubes and catheters– Fluoropolymers are frequently used to produce tubes and catheters, as they are strong yet still flexible enough to navigate the body. They are also non-reactive, which is important when coming into contact with sensitive tissues.
Fluoropolymers have made a significant impact on the healthcare industry and have contributed to the development of many life-saving medical procedures. Thanks to their unique properties, they will likely continue to play an important role in the industry for many years to come.