Uses of PVC
PVC has various applications in building and construction, health care, electronics, automotive and other sectors, it is used in various products from piping and siding, blood bags and tubing, wire and wire.
About three-quarters of the total PVC produced is dedicated to building and long-term construction applications. Because PVC is moisture and abrasion resistant, it is suitable for cladding, windows, ceilings, railings, decking, wall coverings and flooring.
PVC helps the packaging to protect its contents. Clear PVC is used for tamper-resistant non-prescription drugs and packaging for consumer products. Rigid PVC film is used in blister and folding packaging to help protect pharmaceuticals, personal care products, and household goods.
PVC plays a critical safety role in the delivery of life-saving medication through IV bags and medical tubing. PVC blood collection bags have enhanced ambulatory medicine and serve as the basis for modern blood banks.
Uses and benefits
PVC can be as rigid as industrial pipes, as flexible as plastic sheeting, and as thin and flexible as wall covering. It can also be completely transparent or match any desired color.
Building and construction
About three-quarters of the total PVC produced is used in construction and long-term construction. Life cycle studies show that PVC/vinyl is effective in protecting the environment in terms of low greenhouse gas emissions and conservation of resources and energy.
Because PVC is moisture and abrasion resistant, it is ideal for cladding, windows, ceilings, railings, decking, wall coverings and flooring. Vinyl doesn’t corrode like some building materials, doesn’t require frequent repainting, and can be cleaned with mild cleaning products.
Siding and windows
PVC helps produce window and siding frames that are very durable, cost-effective, and help save energy when heating and cooling homes. In fact, vinyl windows have three times the thermal insulation of aluminum windows.
Wiring and cables
PVC is able to withstand harsh conditions behind building walls – such as exposure to temperature and humidity changes – for the life of the building. As a result, it is one of the most common and reliable materials used in electrical wiring and cables.
PVC helps save energy and water by creating virtually leak-free pipes that are not prone to corrosion and are resistant to environmental stress. The lack of deposits in PVC pipes improves performance and increases energy efficiency. to be
Because flexible PVC is durable, reliable, and lightweight, it helps packaging do its job of maintaining the integrity of the products inside, including pharmaceuticals. Clear PVC is used in tamper-resistant over-the-counter drugs and packaging for consumer products. Rigid vinyl film is used in blister and folding packaging to protect pharmaceuticals, personal care products, and other household goods.
PVC plays a critical safety role in the delivery of life-saving medication through IV bags and medical tubing. The advent of PVC blood collection bags was an important development, as blood bags are flexible and unbreakable, promoting the development of ambulatory medicine and serving as the basis for modern blood banks.
The affordability, durability and water resistance make PVC ideal for products such as raincoats, boots and shower curtains.
Many PVC products are certified to meet special requirements set by regulatory authorities or other standards. PVC pipe for potable water delivery must be certified by NSF International to meet US Environmental Protection Agency (EPA) safety regulations. Medical and food contact products must comply with US Food and Drug Administration regulations.
While some newer PVC products do have an odor, the small amount of volatile organic compounds emitted is quickly removed through normal ventilation—in fact, tests have shown that the initial odor of vinyl siding dissipates much faster than the odors of most paints. goes away Vinyl products can meet low VOC requirements in standards such as FloorScore®, Green Label Plus and GRENGUARD.
Vinyl is produced by polymerizing (linking together) a chemical called vinyl chloride. Regulations severely limit vinyl chloride levels in the workplace and greenhouse gas emissions from manufacturing plants. Manufacturers convert as much vinyl chloride into PVC as possible to maximize the use of this raw material, then apply steam to remove the remaining vinyl chloride from the PVC so that the finished vinyl surface is minimal.
PVC is used in the manufacture of hundreds of products that consumers encounter in their daily lives, and many others that are less common but nonetheless important in construction, electronics, healthcare, and other applications. It is used in these applications due to its low cost and favorable physical and mechanical properties. PVC has inherent flame resistance. Alternatives to PVC materials may be available, but most alternative materials and processes are not as efficient and have very high replacement costs.