The disclosed latex system comprises a one-component, closed-cell, semi-foam, mastic sealant using gas-filled, flexible, organic microspheres to create a product that is elastic and compressible under pressure without protruding in an outward direction when compressed, thereby allowing the applied sealant to compress in an enclosed, maximum-filled channel unlike typical mastic sealants (while retaining the ability to rebound). This allows the sealant to function as a gasket, and, once fully cured, to have properties including vibration damping, insulating, and condensation resistance. The sealant can be formulated as an air barrier or a vapor barrier and at various degrees of moisture resistance. It may be applied by different packaging variations including aerosol can (bag in can or bag on valve), airless sprayer, cartridge tubes, foil tubes, squeeze tubes, and buckets to be applied using a brush, trowel, spatula, etc. The disclosed mastic sealant can also be formulated to be smoke-resistant and flame-resistant.

The disclosed latex system comprises a one-component, closed-cell, semi-foam, mastic sealant using gas-filled, flexible, organic microspheres to create a product that is elastic and compressible under pressure without protruding in an outward direction when compressed, thereby allowing the applied sealant to compress in an enclosed, maximum-filled channel unlike typical mastic sealants (while retaining the ability to rebound). This allows the sealant to function as a gasket, and, once fully cured, to have properties including vibration damping, insulating, and condensation resistance. The sealant can be formulated as an air barrier or a vapor barrier and at various degrees of moisture resistance. It may be applied by different packaging variations including aerosol can (bag in can or bag on valve), airless sprayer, cartridge tubes, foil tubes, squeeze tubes, and buckets to be applied using a brush, trowel, spatula, etc. The disclosed mastic sealant can also be formulated to be smoke-resistant and flame-resistant.

A pressure-sensitive structural adhesive film based on an epoxy resin composition, wherein the epoxy resin composition comprises a latent-reactive, thermally activatable curing agent for producing a structural bond after thermal curing and additionally a curing agent that cross-links at room temperature, wherein the not-cured adhesive film is compressible and therefore allows for tolerance compensation.

A pressure-sensitive structural adhesive film based on an epoxy resin composition, wherein the epoxy resin composition comprises a latent-reactive, thermally activatable curing agent for producing a structural bond after thermal curing and additionally a curing agent that cross-links at room temperature, wherein the not-cured adhesive film is compressible and therefore allows for tolerance compensation.

A light-curing resin composition, a three-dimensional object containing the same, and a manufacturing method of the three-dimensional object are provided. The light-curing resin composition includes a photoinitiator, an acrylic oligomer, an acrylic monomer, and expandable particles with hollow spherical shell structures. The acrylic monomer is a monofunctional monomer, a difunctional monomer, or a combination thereof.

A light-curing resin composition, a three-dimensional object containing the same, and a manufacturing method of the three-dimensional object are provided. The light-curing resin composition includes a photoinitiator, an acrylic oligomer, an acrylic monomer, and expandable particles with hollow spherical shell structures. The acrylic monomer is a monofunctional monomer, a difunctional monomer, or a combination thereof.

The specification relates to a density adjustable label and a label laminate (8) for providing the same. Further, the specification concerns a combination of a label (1) and an item (100), as well as a method for manufacturing the label laminate (8). The label (1) comprises a face layer (2) and an adhesive layer (4). The face layer (2) comprises natural fibre based material. The adhesive layer (4) comprises pressure sensitive adhesive and at least one additive for adjusting total density of the label. The pressure sensitive adhesive comprises acrylic polymer(s). The additive comprises expandable particles, the label is detachable from a surface labelled at washing conditions having temperature in a range of 60-90° C. or above and the detached label is arranged to float on a washing liquid.

There is provided a curable composition for forming an anti-reflective film. The composition includes: (a) hollow silica nanoparticles; (b) a siloxane binder having reactive groups; (c) at least one additional material having reactive groups; (d) an initiator; and (e) solvent. The siloxane binder is present in an amount that is at least 50% by weight of the total weight of (siloxane binder+additional materials having reactive groups). The weight ratio of hollow silica nanoparticles to the total of (siloxane binder+additional materials having reactive groups) is no greater than 1.75 to 1.

The present invention relates to a coating composition, preferably a solvent-free composition, comprising: (i) a binder; (ii) optionally a curing agent; (iii) hollow, inorganic, spherical, filler particles; and (iv) hollow, organic, spherical, filler particles;
wherein the volume ratio of said inorganic, spherical filler particles to said organic, spherical filler particles is at least 1.1:1, preferably 1.1:1.0 to 10.0:1.0.

The present invention relates to a coating composition, preferably a solvent-free composition, comprising: (i) a binder; (ii) optionally a curing agent; (iii) hollow, inorganic, spherical, filler particles; and (iv) hollow, organic, spherical, filler particles;
wherein the volume ratio of said inorganic, spherical filler particles to said organic, spherical filler particles is at least 1.1:1, preferably 1.1:1.0 to 10.0:1.0.