The present invention aims to provide a lining composition which overcomes the problems such as environmental problems (e.g. marine pollution) and VOC problem and which has a good cure rate. We have found that this can be achieved by a composition containing a vinyl ester resin as a prepolymer component and an aliphatic or alicyclic polyfunctional allyl ester compound as a crosslinking agent.

The present invention aims to provide a lining composition which overcomes the problems such as environmental problems (e.g. marine pollution) and VOC problem and which has a good cure rate. We have found that this can be achieved by a composition containing a vinyl ester resin as a prepolymer component and an aliphatic or alicyclic polyfunctional allyl ester compound as a crosslinking agent.

The invention relates to a copolymer that can be used as wetting agent and dispersant and contains i) 40-73 mole percent of a base structural unit (A) and ii) 27-60 mole percent of a substituted dicarboxylic acid derivative structural unit (B), the structural unit (B) containing species having a bisamide structure and species having quaternized amino groups.

A polymerizable composition includes at least one first monomer and at least one second monomer, wherein the at least one first monomer includes an isohexide bis(allyl carbonate) monomer, and wherein the at least one second monomer includes one or more ethylenic unsaturations. Another polymerizable composition includes the reaction product of an isohexide bischloroformate; at least one polyol; allyl alcohol; and, optionally, at least one polychloroformate. An exemplary polymerizable composition includes the transesterification reaction product of an isohexide; diallyl carbonate; and at least one polyol. A polymerizate including the polymerizable composition and an optical article including the polymerizable composition are also provided.

An active-energy-ray-curable composition, cured material of which satisfies W175.0 g and 165.0 gW2300.0 g when the material is analyzed by variable-normal-load-friction-and-wear-measurement system, W1 being expressed by W1=4*TW1 and W2 being expressed by W2=4*TW2, TW1 and TW2 being obtained by method in which: the material is formed by coating the composition on substrate to have thickness of 10 m, and curing the composition, and in the system, load is applied to the material with indenter while the load is changed from 0 g through 200 g for 50 seconds to obtain graph having time in horizontal axis and friction resistance force in vertical axis, and in the graph, a time at which scratch first occurs in the material is defined as T1 and time closest to T1 among times at which change in the friction resistance force is discontinuous is defined as TW1; and TW2 is defined as time at which the substrate is exposed.

An active-energy-ray-curable composition, cured material of which satisfies W175.0 g and 165.0 gW2300.0 g when the material is analyzed by variable-normal-load-friction-and-wear-measurement system, W1 being expressed by W1=4*TW1 and W2 being expressed by W2=4*TW2, TW1 and TW2 being obtained by method in which: the material is formed by coating the composition on substrate to have thickness of 10 m, and curing the composition, and in the system, load is applied to the material with indenter while the load is changed from 0 g through 200 g for 50 seconds to obtain graph having time in horizontal axis and friction resistance force in vertical axis, and in the graph, a time at which scratch first occurs in the material is defined as T1 and time closest to T1 among times at which change in the friction resistance force is discontinuous is defined as TW1; and TW2 is defined as time at which the substrate is exposed.

In one aspect, the disclosure relates to compositions comprising semicrystalline, linear photopolymers that possesses extraordinary mechanical properties for application in 3D printing. The photopolymers are rapidly fabricated using low viscosity liquids at ambient conditions.

In one aspect, the disclosure relates to compositions comprising semicrystalline, linear photopolymers that possesses extraordinary mechanical properties for application in 3D printing. The photopolymers are rapidly fabricated using low viscosity liquids at ambient conditions.

In one aspect, the disclosure relates to compositions comprising semicrystalline, linear photopolymers that possesses extraordinary mechanical properties for application in 3D printing. The photopolymers are rapidly fabricated using low viscosity liquids at ambient conditions.

In one aspect, the disclosure relates to compositions comprising semicrystalline, linear photopolymers that possesses extraordinary mechanical properties for application in 3D printing. The photopolymers are rapidly fabricated using low viscosity liquids at ambient conditions.