The present disclosure is directed to a formulations of cements and methods for bonding dissimilar materials. The formulations and methods can bond a Non-polyvinyl chloride (PVC) containing first polyolefin that is amorphous or has low crystallinity to a second material that is a rigid material or a hard PVC. The methods and formulations can work by co-dissolution at an interface, or activation of a one of the materials prior to bonding.

A patterned thermoplastic elastomer (TPE) film for fabricating a liquid-filled blister, has a blister-sized cavity in fluid communication with a microfluidic channel via a gating region. The gating region is defined by a relief pattern that has at least one of the following: at least 5 separate compartments defined by respective recesses in the first side, each of the recesses bounded by walls that separate the compartments from each other, the recess, or the channel; at least 5 walls defined by the patterning of the first side, the walls separating a plurality of compartments from each other, the recess, or the channel, wherein the walls have a mean thickness that is less than a mean height, and each pair of walls has a mean separation greater than twice the mean thickness; an array of separate compartments bounded by walls defined by the patterning of the first side that collectively define a polygonal regular planar tiling with at least 50% of the surface area of the gating region being open spaces; and a focusing region in fluid communication with the cavity, and a seal region having at least one wall defined by patterning of the film, wherein the at least one wall separates the focusing region from the seal region, and a shape of the at least one wall tapers the focusing region towards the seal region.

A patterned thermoplastic elastomer (TPE) film for fabricating a liquid-filled blister, has a blister-sized cavity in fluid communication with a microfluidic channel via a gating region. The gating region is defined by a relief pattern that has at least one of the following: at least 5 separate compartments defined by respective recesses in the first side, each of the recesses bounded by walls that separate the compartments from each other, the recess, or the channel; at least 5 walls defined by the patterning of the first side, the walls separating a plurality of compartments from each other, the recess, or the channel, wherein the walls have a mean thickness that is less than a mean height, and each pair of walls has a mean separation greater than twice the mean thickness; an array of separate compartments bounded by walls defined by the patterning of the first side that collectively define a polygonal regular planar tiling with at least 50% of the surface area of the gating region being open spaces; and a focusing region in fluid communication with the cavity, and a seal region having at least one wall defined by patterning of the film, wherein the at least one wall separates the focusing region from the seal region, and a shape of the at least one wall tapers the focusing region towards the seal region.

A container is provided with a flange defining a container opening that may help expunge food product as the film and seal head comes down on the container flange. The flange of the container opening has a predetermined angle. The container flange with its sealing surface generally deflects or angularly pivots when sealed with the film during the sealing process. The container flange and film may push product contamination from the sealing surfaces inwardly into the container. The flange may be continuous about the periphery of the container opening.

A container is provided with a flange defining a container opening that may help expunge food product as the film and seal head comes down on the container flange. The flange of the container opening has a predetermined angle. The container flange with its sealing surface generally deflects or angularly pivots when sealed with the film during the sealing process. The container flange and film may push product contamination from the sealing surfaces inwardly into the container. The flange may be continuous about the periphery of the container opening.

An optical film has a plurality of aligned convex microlenses, each of which has a region α and a region β, region β forming the outer part of the convex shape of the microlens and positioned so as to cover region α. Both region α and region β contain a resin, and the refractive index of the resin in region α is higher than the refractive index of the resin in region β; region β contains fine particles, and region α contains fine particles, and the content of the fine particles contained in region α is lower than the content of the fine particles contained in region β; or region α contains fine particles, and region β contains fine particles, and the content of the fine particles contained in region α is higher than the content of the fine particles contained in region β.

Disclosed are vinylidene substituted aromatic polymers which include a zinc salt. Disclosed is a method of reducing the total volatile organic components in a vinylidene substituted aromatic polymer. Disclosed is a method of making vinylidene substituted aromatic polymers which include a zinc salt. Disclosed is a masterbatch which includes a styrenic polymer, a zinc salt and optionally a pigment and methods of making the masterbatch. The masterbatch may be used in a method making a styrenic polymer molded part.

This invention relates to a thermoplastic elastomer composition having a type A hardness (i.e., the momentary value) of 55 or less in accordance with JIS K6253, which comprises 35 to 65 parts by weight of an olefin-based thermoplastic elastomer (A) having a type A hardness (i.e., the momentary value) of 75 or less in accordance with JIS K6253 and 65 to 35 parts by weight of a styrene-based thermoplastic elastomer (B) having a type A hardness (i.e., the momentary value) of 60 or less in accordance with JIS K6253 (with the total amount of components (A) and (B) being 100 parts by weight) and a molded thermoplastic elastomer product obtained via molding of such composition.

A maleimide based copolymer, manufacturing method thereof, and a resin composition using the maleimide based copolymer is provided. A maleimide based copolymer includes 40 to 60 mass % of aromatic vinyl monomer unit, 5 to 20 mass % of vinyl cyanide monomer unit, 25 to 50 mass % of maleimide monomer unit, 0.1 to 10 mass % of dicarboxylic anhydride monomer unit; wherein the maleimide based copolymer has a glass transition temperature of 165 to 200° C.; and an average number of the dicarboxylic anhydride monomer unit contained in one copolymer molecule is 1 to 30 units. Further, a resin composition is obtained by kneading and mixing the maleimide based copolymer with one or two or more resin selected from the group including ABS resin, ASA resin, AES resin, and SAN resin. The resin composition is superior in the balance of surface glossiness, heat resistance, impact resistance, and flowability.

Provided by the present invention is a high melt strength styrene resin composition. The composition includes the following components proportioned according to certain parts by weight: a styrene resin or a styrene alloy, a tackifier, an antioxidant and a lubricant. Compared to the existing technology, the present invention has the following beneficial effects: 1. a random copolymer used as the tackifier in the present invention is thermodynamically compatible with the styrene resin and the alloy thereof, does not experience phase separation, and has excellent mechanical properties; 2. the random copolymer used as the tackifier in the present invention has a moderate molecular weight, and is more easily plasticized than a rubber powder, a SAN powder having a high molecular weight, a heat-resistant powder, and so on, thus having better processability, uniform thickness, and low shrinkage rate, and not frequently experiencing the problem of surface defects.