Medical-grade films are a class of polymer materials designed specifically for medical applications, playing an important role in wound care, protective equipment, and medical devices.
In wound care, medical-grade films are primarily used to manufacture dressings and nursing products. For example, TPU films, due to their excellent breathability and water resistance, are often used as a backing layer for dressings. They effectively prevent liquid seepage while allowing water vapor generated on the wound surface to escape, providing a suitable microenvironment for the wound. In addition, mesh release films are also used in high-end dressings; their breathable structure maintains wound moisture and reduces adhesion and pain during dressing changes.
In the field of protective equipment, TPU films are often combined with other materials to make protective clothing, isolation gowns, and surgical drapes. This composite material effectively blocks liquids and particles while maintaining good moisture permeability, reducing the wearer's feeling of stuffiness. For example, Xingen's ultra-matte TPU film, due to its abrasion resistance and low friction properties, is used to extend the lifespan of protective clothing and surgical drapes.
In medical devices, medical-grade films are used in applications such as artificial heart assist devices, medical catheters, and surgical protective films. TPU materials, due to their blood compatibility, flexibility, and biocompatibility, are used to manufacture artificial blood vessels and endotracheal tubes. Furthermore, absorbable hemostatic membranes and other products are used for hemostasis and wound filling during surgery.
Medical-grade films meet the high demands for safety and comfort in the medical field through their functionality, such as breathability, waterproofing, and biocompatibility. From wound dressings to protective equipment and precision instruments, these materials play a crucial role in improving medical outcomes and patient experience.
TPU films have a wide range of applications in medical-grade films, particularly in wound care, protective equipment, and medical devices. Their excellent elasticity, abrasion resistance, transparency, and biocompatibility allow them to be tailored to different medical needs through formulation adjustments.In wound care, medical TPU films are frequently used as the base material for functional dressings. Due to their softness and breathability, they conform to the contours of the skin, reducing secondary irritation to the wound. Some dressing products utilize the water vapor permeability of TPU films to maintain a suitable moist environment in the wound while blocking external bacteria and contaminants.For example, Xingen has developed specific models of TPU films that maintain breathability while possessing a℃of water resistance, making them suitable for nursing scenarios requiring frequent contact with liquids. These dressings are typically thin, providing patients with better comfort, and their transparency allows for direct observation of wound healing, eliminating the need for frequent changes.
Xingen Technology was founded in 2009. Its headquarters, R&D department and factory are located in Shanghai, China, covering an area of more than 8000 square meters.Xingeng Technology is one of the top three TPU film manufacturers in Shanghai.Focusing on the application of TPU novel materials in the medical field, Xingen Technology has achieved outstanding results in the research and development and production of TPU novel materials in the medical sector for many years.
The application of TPU has led to innovative approaches in biomedical products, protective clothing, infection control, and medical devices. Xingen Technology, leveraging its extensive experience and expertise, provides high-quality TPU solutions to the medical industry, meeting the growing demand for advanced materials in the medical market.
As an industry leader, Xingen Medical is committed to providing patients with better treatment outcomes and quality of life, providing reliable protection for medical personnel and patients, and driving the development and innovation of medical technology.
