China PVA film

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China PVA film

  • Four Primary Methods for Manufacturing PVA Films
    Jul 14, 2026
    The production of Polyvinyl Alcohol (PVA) film is primarily achieved through methods such as solution casting, wet extrusion, and dry extrusion blow molding. While these techniques originate from traditional plastic film manufacturing, they require specific process adjustments due to the unique water-soluble nature of Polyvinyl Alcohol (PVA). Currently, the solution casting method remains the dominant production process in China. However, researching and improving extrusion blow molding technologies for large-scale industrialization represents the industry's primary future focus.   Steel Tape Casting (Tapecasting) Also known as doctor blading or knife coating, this method is a cornerstone technology for producing water-soluble films. First introduced by Glenn N. Howatt in 1947 and patented in 1952, the process begins by mixing raw PVA, solvents, and additives using mechanical or ultrasonic stirring. Release agents, plasticizers, and other functional additives are then introduced to create a stable aqueous colloidal solution. After defoaming in an insulation tank, the solution flows onto a carrier belt and is shaped into a green film by a blade before entering a drying chamber to evaporate the solvent. The final aqueous solution comprises five main components: PVA, water, release agents, plasticizers, and functional additives. Pros & Cons: The overall process flow is relatively simple. However, it suffers from low yield rates, high energy consumption, large equipment investment, and difficult quality control. Domestic Parameters: Equipment in China typically produces films with a thickness of 0.02 to 0.2 mm. The maximum width is 2000 mm, operating at production speeds of 2 to 5 m/min.       Drum Casting Method The drum casting method utilizes a coating roller to apply a diluted PVA solution directly onto a continuously rotating drying drum or belt, evaporating the moisture to form a dry film. The fundamental difference between this and tape casting lies in this continuous roller coating mechanism. To optimize processing performance, plasticizers such as glycerol, ethylene glycol, or low molecular weight polyethylene glycol are often added to the raw solution. The production line typically consists of a control system, glue preparation system, casting/coating system, and a heating system. Pros & Cons: While this method boasts high film-forming efficiency, its slow production speed and high energy consumption have prevented it from achieving large-scale industrialization in China.       Wet Extrusion Blow Molding Directly melting PVA is technically challenging because its melting point is 220°C to 240°C, yet it begins dehydrating and etherifying at 160°C and decomposing at 200°C. To bypass this issue, the wet extrusion method utilizes PVA resin containing 40% to 50% water content alongside other additives for blow molding. Pros & Cons: This method significantly improves production efficiency and product quality compared to the casting method. However, it is a highly complex process. It requires PVA modification, pre-granulation, and repeated heating during production. Additionally, it necessitates maintaining a strict 15% to 35% moisture content within the film. Furthermore, because film shaping, stretching, and setting occur simultaneously, the molecular chains struggle to align, resulting in lower overall film strength.       Dry Extrusion Blow Molding In this innovative approach, PVA is vacuum-dried for 24 hours, uniformly mixed with plasticizers and film-forming agents in a high-speed mixer, and then extruded into granules using a modified Brabender 225 single-screw extruder. The material is subsequently defoamed, blow-molded, and set into the final product. Dry PVA granules created this way can also be utilized in manufacturing injection-molded hollow containers or multi-layer co-extruded composite films. Pros & Cons: This technique successfully preserves PVA's inherent biodegradability, barrier properties, and water solubility. It offers a simplified process, high efficiency, low energy consumption, and reduced investment costs compared to wet and casting methods. Market Outlook: While already industrialized abroad, dry extrusion processing has remained a long-standing unresolved technical challenge for China's plastics industry. Mastering this technology fills a crucial domestic gap and broadens the application fields of PVA resin. This is especially significant given China's massive market demand for China PVA film, which heavily relies on expensive imports.     Website: www.elephchem.com whatsapp: (+)86 13851435272 E-mail: admin@elephchem.com
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