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Double bond cross-linking

Incorporation into the polymer backbone takes place through the vinyl double bond. Cross-linking then takes place between two methylol groups. [Pg.33]

Figure 39. Hydrogen-bonded layer in 1.11 formed by urea-boric acid- Figure 39. Hydrogen-bonded layer in 1.11 formed by urea-boric acid-<arbonate double ribbons cross-linked by water molecules. Broken lines represent hydrogen bonds.
The presence of the unsaturated substituent along this polyester backbone gives this polymer crosslinking possibilities through a secondary reaction of the double bond. These polymers are used in paints, varnishes, and lacquers, where the ultimate cross-linked product results from the oxidation of the double bond as the coating cures. A cross-linked polyester could also result from reaction (5.J) without the unsaturated carboxylic acid, but the latter would produce a gel in which the entire reaction mass solidified and is not as well suited to coatings applications as the polymer that crosslinks upon drying. ... [Pg.300]

Esters. Most acryhc acid is used in the form of its methyl, ethyl, and butyl esters. Specialty monomeric esters with a hydroxyl, amino, or other functional group are used to provide adhesion, latent cross-linking capabihty, or different solubihty characteristics. The principal routes to esters are direct esterification with alcohols in the presence of a strong acid catalyst such as sulfuric acid, a soluble sulfonic acid, or sulfonic acid resins addition to alkylene oxides to give hydroxyalkyl acryhc esters and addition to the double bond of olefins in the presence of strong acid catalyst (19,20) to give ethyl or secondary alkyl acrylates. [Pg.150]

For all three diallyl phthalate isomers, gelation occurs at nearly the same conversion DAP prepolymer contains fewer reactive allyl groups than the other isomeric prepolymers (36). More double bonds are lost by cyclisation in DAP polymerisation, but this does not affect gelation. The heat-distortion temperature of cross-linked DAP polymer is influenced by the initiator chosen and its concentration (37). Heat resistance is increased by electron beam irradiation. [Pg.84]

Monomers such as aUyl methacrylate and diaUyl maleate have appUcations as cross-linking and branching agents selected especiaUy for the different reactivities of their double bonds (90) some physical properties are given in Table 8. These esters are colorless Uquids soluble in most organic Uquids but htde soluble in water DAM and DAF have pungent odors and are skin irritants. [Pg.87]

The use of TAG as a curing agent continues to grow for polyolefins and olefin copolymer plastics and mbbers. Examples include polyethylene (109), chlorosulfonated polyethylene (110), polypropylene (111), ethylene—vinyl acetate (112), ethylene—propylene copolymer (113), acrylonitrile copolymers (114), and methylstyrene polymers (115). In ethylene—propylene copolymer mbber compositions. TAG has been used for injection molding of fenders (116). Unsaturated elastomers, such as EPDM, cross link with TAG by hydrogen abstraction and addition to double bonds in the presence of peroxyketal catalysts (117) (see Elastol rs, synthetic). [Pg.88]

Sulfonated polyalkenes were prepared by using a triethyl phosphate—sulfur trioxide complex as the sulfonating reagent along with a solvent at low temperature. Sulfonation takes place at the a-position of the double bond with no cross-linking (222). [Pg.83]

Polyester Resins. Reinforced polyester resins are thermosets based on unsaturated polyesters from glycols and dibasic acids, either or both of which contain reactive double bonds. The ratio of saturated to unsaturated components controls the degree of cross-linking and thus the rigidity of the product (see Polyesters, unsaturated). Typically, the glycols and acids are esterified until a viscous Hquid results, to which an inhibitor is added to prevent premature gelation. Addition of the monomer, usually styrene, reduces the viscosity to an easily workable level. [Pg.328]

Based on the data in Table 1, the average number of methylene groups between double bonds, ie, the functionaHty, for the typical linseed oil is 3.6 it is a drying oil. The corresponding number for soybean oil is 2.07 it is a semidrying oil. The higher the average functionaHty is above 2.2, the more rapidly a solvent-resistant, cross-linked film forms on exposure to air. [Pg.260]

The peioxy free radicals can abstract hydrogens from other activated methylene groups between double bonds to form additional hydroperoxides and generate additional free radicals like (1). Thus a chain reaction is estabhshed resulting in autoxidation. The free radicals participate in these reactions, and also react with each other resulting in cross-linking by combination. [Pg.260]

Free radicals also add to conjugated double bonds, resulting in cross-links. [Pg.260]

See other pages where Double bond cross-linking is mentioned: [Pg.637]    [Pg.637]    [Pg.38]    [Pg.2023]    [Pg.45]    [Pg.1894]    [Pg.7246]    [Pg.412]    [Pg.2807]    [Pg.27]    [Pg.348]    [Pg.115]    [Pg.116]    [Pg.134]    [Pg.135]    [Pg.471]    [Pg.209]    [Pg.545]    [Pg.220]    [Pg.248]    [Pg.532]    [Pg.425]    [Pg.502]    [Pg.36]    [Pg.80]    [Pg.80]    [Pg.87]    [Pg.226]    [Pg.269]    [Pg.55]    [Pg.521]    [Pg.523]    [Pg.437]    [Pg.86]    [Pg.339]    [Pg.355]    [Pg.24]    [Pg.260]   
See also in sourсe #XX -- [ Pg.262 ]



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Bond crossing

Cross-linking bonding

Cross-linking bonds

Double links

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