Applying significant reflective material to stretchy textile materials by reducing the size of each individual reflective surface to a plurality of very small size pieces and allowing plenty of stretch room between the small reflective surfaces. The small reflective surfaces combined to display a selected design on the article of clothing. The method generally comprises (a) cutting or dividing a reflective material into many small pieces; (b) arranging the plurality of small reflective pieces on the stretchy material forming a larger pattern that makes a discernable design/word; and, (c) appropriately applying the small reflective pieces to the stretchy material.

The disclosure discloses a canvas flocking diamond picture, and relates to the technical field of canvas flocking diamond picture devices and making methods, solving the problem that the gray cloth of diamond canvas is shrunk after encountering water so that the diamond picture becomes uneven. The picture frame is internally provided with a protective film and a canvas, and the protective film is located at one side of the canvas; the upper end surface of the canvas is provided with a flash layer; an ink-receiving layer is arranged under the flash layer; an upper back cover layer is arranged under the ink-receiving layer; a cingico layer is arranged under the upper back cover layer; a lower back cover layer is arranged under the cingico layer; a flocking layer is arranged under the lower back cover layer, and the flocking layer is located on the lower end surface of the canvas; an adhesive layer is arranged between the lower back cover layer and the flocking layer.

An article includes a substrate with a surface, a coating disposed over the surface, and a subtractive colorant which absorbs electromagnetic radiation according to a specified absorption spectrum. The coating includes a binder material and a plurality of porous polymer particles having pores with a distribution of pore sizes adapted to scatter electromagnetic radiation in one or more specified wavelength bands, wherein the porous polymer particles have a shell which is impermeable to a liquid.

An article includes a substrate with a surface, and a coating disposed over the surface. The coating includes a binder material and a plurality of UV scattering porous polymer particles having pores with a light scattering effective pore size of no more than 100 nm. The coating has a scattering opacity of no more than 20% in the wavelength band from 500 to 3000 nm.

An article includes a substrate with a surface, and a coating disposed over the surface. The coating includes a binder material and a plurality of UV scattering porous polymer particles having pores with a light scattering effective pore size of no more than 100 nm. The coating has a scattering opacity of no more than 20% in the wavelength band from 500 to 3000 nm.

Hot melt sequins and methods of applying these sequins are disclosed. A method of attaching two components includes stitching a hot melt sequin to one of the components and heating the hot melt sequin to bond the two components together. Sequins can also be applied to articles to create structural elements such as heel counters, toe covers, and lace cages. Sequins can be applied in 1D, 2D, and 3D patterns as well as in dispersive patterns. Sequins can be applied to vary the abrasion properties of a portion of an article.

Hot melt sequins and methods of applying these sequins are disclosed. A method of attaching two components includes stitching a hot melt sequin to one of the components and heating the hot melt sequin to bond the two components together. Sequins can also be applied to articles to create structural elements such as heel counters, toe covers, and lace cages. Sequins can be applied in 1D, 2D, and 3D patterns as well as in dispersive patterns. Sequins can be applied to vary the abrasion properties of a portion of an article.

A sparkling fabric includes: a fabric substrate; and a tri-layer adhered to the fabric substrate. The tri-layer includes: an adhesive layer that adheres the tri-layer to the fabric substrate; an exposed design layer; and a metal plating layer between the exposed design layer and the adhesive layer. The tri-layer is distributed as a plurality of separable and identifiable tri-layer pieces across the fabric substrate such that the distribution of tri-layer pieces has a density on the order of 15-25 pieces per centimeter squared (pcs/cm2) and a size of a piece is less than 1 millimeter (mm).

A knit fabric is created using on a flatbed knitting machine to create a whole garment having an inner surface and an outer surface. The knit fabric includes a support matrix comprised of base yarns with reflective yarns supported on the support matrix. The knit fabric comprises a jacquard knit structure formed from the base yarns and the reflective yarns, wherein elongate loops of the reflective yarns are outwardly exposed from the outer surface of the knit fabric. The inner surface of the knit fabric includes outwardly exposed floats of the reflective yarns.

A knit fabric is created using on a flatbed knitting machine to create a whole garment having an inner surface and an outer surface. The knit fabric includes a support matrix comprised of base yarns with reflective yarns supported on the support matrix. The knit fabric comprises a jacquard knit structure formed from the base yarns and the reflective yarns, wherein elongate loops of the reflective yarns are outwardly exposed from the outer surface of the knit fabric. The inner surface of the knit fabric includes outwardly exposed floats of the reflective yarns.