Organic, fluorescent taggants and compositions thereof which find use in the production, detection and authentication of tobacco products and components thereof. A process for authentication of a tobacco product is also disclosed, the process including the steps of marking the tobacco product with a taggant composition comprising an organic, fluorescent taggant and a carrier for the taggant; irradiating the tobacco product with invisible radiation; and detecting fluorescence from the taggant. Adhesive and ink compositions are also disclosed.

Organic, fluorescent taggants and compositions thereof which find use in the production, detection and authentication of tobacco products and components thereof. A process for authentication of a tobacco product is also disclosed, the process including the steps of marking the tobacco product with a taggant composition comprising an organic, fluorescent taggant and a carrier for the taggant; irradiating the tobacco product with invisible radiation; and detecting fluorescence from the taggant. Adhesive and ink compositions are also disclosed.

Provided herein are compositions and methods of preparing a liquid adhesive concentrate and a liquid adhesive formulation for use as an adhesive in installing insulation on the outside or inside surface of a duct or ductwork.

Provided herein are compositions and methods of preparing a liquid adhesive concentrate and a liquid adhesive formulation for use as an adhesive in installing insulation on the outside or inside surface of a duct or ductwork.

A carbon fiber reinforced skateboard is formed of laminated wood layers having identified grain directions. Upper and lower wood layers will have a grain direction parallel to a long axis of the skateboard. The skateboard will have interspersed wood layers with identified grain directions perpendicular to the long axis. Carbon fiber reinforcing material is adhered to interior plies of the skateboard along the long axis. A central portion of the reinforcing material is adhered below a central vertical point of the skateboard between the skateboard trucks. Anterior and posterior portions of the reinforcing material are adhered above the central vertical point and are located around the attachment locations for the skateboard trucks. The reinforcing material is located to provide a strengthened spine for the skateboard. A first concavity is located between the skateboard trucks parallel to the long axis. Second and third concavities are located perpendicular to the long axis.

A carbon fiber reinforced skateboard is formed of laminated wood layers having identified grain directions. Upper and lower wood layers will have a grain direction parallel to a long axis of the skateboard. The skateboard will have interspersed wood layers with identified grain directions perpendicular to the long axis. Carbon fiber reinforcing material is adhered to interior plies of the skateboard along the long axis. A central portion of the reinforcing material is adhered below a central vertical point of the skateboard between the skateboard trucks. Anterior and posterior portions of the reinforcing material are adhered above the central vertical point and are located around the attachment locations for the skateboard trucks. The reinforcing material is located to provide a strengthened spine for the skateboard. A first concavity is located between the skateboard trucks parallel to the long axis. Second and third concavities are located perpendicular to the long axis.

Disclosed herein are various embodiments of a protective packaging system suitable for use with a prefinished building article. The protective packaging system generally is designed to reduce shrink back of the flexible substrate after tension is applied. The protective packaging system generally comprises at least one outer layer, at least one core layer and at least one adhesive layer. One or more layers of the protective packaging system may include a roughening agent such that the flexible substrate will not “gloss” or burnish a coating on a prefinished building article. The protective packaging system may also include one or more biocides.

Disclosed herein are various embodiments of a protective packaging system suitable for use with a prefinished building article. The protective packaging system generally is designed to reduce shrink back of the flexible substrate after tension is applied. The protective packaging system generally comprises at least one outer layer, at least one core layer and at least one adhesive layer. One or more layers of the protective packaging system may include a roughening agent such that the flexible substrate will not “gloss” or burnish a coating on a prefinished building article. The protective packaging system may also include one or more biocides.

The present disclosure is directed to peelable, heat-sealable lidding films for containers of diverse polymer compositions storing various products such as foodstuffs and pharmaceuticals. The lidding films disclosed herein can be heat-sealed to crystalline polyester trays (CPET), easily peeled, and contain improved antifogging performance by incorporating a non-migratory antifogging additive into the heat sealable layer of the film without deteriorating seal strengths.

The present disclosure is directed to peelable, heat-sealable lidding films for containers of diverse polymer compositions storing various products such as foodstuffs and pharmaceuticals. The lidding films disclosed herein can be heat-sealed to crystalline polyester trays (CPET), easily peeled, and contain improved antifogging performance by incorporating a non-migratory antifogging additive into the heat sealable layer of the film without deteriorating seal strengths.