VINYLIDENE CHLORIDE LATEX

Chemical Properties

solid

Chemical Properties

Poly(vinylidene chloride) has a very regular structure:
It is therefore a highly crystalline material and has a crystalline melting point of about 200°e. At this temperature the polymer has a high rate of decomposition. Copolymerization reduces the molecular regularity and thus lowers the softening point, which for 85% vinylidene chloride-15% vinyl chloride copolymer is about 140°C. Since crystallization is thermodynamically favoured even in the presence of liquids of similar solubility parameter and since there is little interaction between the polymer and any liquid, there are no effective solvents at room temperature for the homopolymer. The copolymers, however, are soluble in ethers and ketones and the solutions may be used for coating applications. The copolymers are resistant to most other organic solvents and to acids; there is some attack by alkalis.
Even in the copolymers there is extensive crystallization and so the materials have high specific gravity (1.7 for 85% vinylidene chloride-15% vinyl chloride copolymer) and low permeability to moisture vapour and gases. The copolymers also have high tensile strengths, namely about 70 MPa (10000 Ib/in2 ) for unoriented material and up to 290 MPa (40000 Ib/in2 ) for oriented filament. It may be noted that the copolymers are not readily plasticized as all but small amounts of plasticizer exude from the finished product.
The main application of the vinylidene chloride - vinyl chloride copolymers is for packaging film, which is made by extrusion and biaxial stretching. The film has very good clarity, toughness and moisture and gas impermeability. The copolymers are also used for filaments, which are made by melt extrusion and drawing. The filaments are used for such applications as car upholstery, garden chair fabrics and filter cloths where toughness, durability and chemical resistance are required.
The main use of the vinylidene chloride - acrylonitrile copolymers is as coatings for materials such as cellophane, paper and polyethylene. The coatings confer moisture and gas impermeability and they are heat-sealable.

Uses

PVDC has a number of applications, including molding resins, extrusion resins, multilayer film, rigid barriers, containers, lacquer resin, vinylidene chloride copolymer latex and foams, resins for solvent coating, lattices for coating, and pipes for chemical processing.

Production Methods

PVDC polymerizes by both ionic and free-radical reactions. Free-radical polymerization of PVDC may be by solution, slurry, suspension, and emulsion methods. In copolymerization, usually one component is introduced to improve the processability or solubility of the polymer; others are added to modify specific properties. Properties modified by copolymerization depend on the content of components (structure, amounts, and types).

Definition

ChEBI: 1,1-dichloroethene is a member of the class of chloroethenes that is ethene in which both of the hydrogens attached to one of the carbons are replaced by chlorines. It has a role as a mutagen, a carcinogenic agent and a mouse metabolite.

Industrial uses

Because of its relatively low solubility anddecomposition temperature, Vinylidene Chloride Latex is widely used in the form of copolymerswith other vinyl monomers, such as vinyl chloride.The copolymers are employed as packagingfilm, rigid pipe, and as filaments for upholsteryand window screens.