Provided herein is a water-based metallic ink composition specifically adapted for direct digital inkjet printing on non-while fabrics and textile, which affords high resolution, high gloss and high luster metallic effect (high flop index) in decorations and designs that are wash-fast and stretchable. Also provided are processes of using the metallic ink compositions with other colored ink composition in direct digital inkjet printing on textile.

The invention relates to a marking composition, by means of which better protection of goods than hitherto available can be achieved independently of the coloring of the goods. The marking composition comprises an infrared-absorbing particulate component and a carbon derivative, wherein the weight ratio of infrared-absorbing component to carbon derivative is in the range of approx. 10:1 to approx. 10,000:1.

Disclosed is a retro-reflective thread 100 including an internal section 10; a plurality of fibers 12, each fiber comprising a respective longitudinal axis and a respective surface and each fiber comprising a first material that is at least partially optically transmissive, and wherein said plurality of fibers are configured with their respective longitudinal axes substantially co-linearly aligned with one another and said plurality of fibers are interconnected in series around said internal section and wherein a first part 12b of said respective surface of each of said plurality of fibers faces into said internal section; and a reflective material 14 provided on said first part of said respective surface of each of said plurality of fibers.

A method for removing a metal from a single-thread fabric for making a pattern, characterized in that said single-thread fabric is a square-mesh metallized and etching laser made fabric.

An article having a patterned metallic film on a surface thereof, and methods of producing such an article, the article including: (a) a porous substrate having a first porous surface; (b) a patterned metallic film attached to the first porous surface, including (i) a first patterned polymeric layer attached to the first porous surface; and (ii) a patterned metallic layer attached to the first patterned polymeric layer, on a distal side with respect to the first porous surface; wherein a thickness of the metal layer is at most 3 ?m.

An article having a patterned metallic film on a surface thereof, and methods of producing such an article, the article including: (a) a porous substrate having a first porous surface; (b) a patterned metallic film attached to the first porous surface, including (i) a first patterned polymeric layer attached to the first porous surface; and (ii) a patterned metallic layer attached to the first patterned polymeric layer, on a distal side with respect to the first porous surface; wherein a thickness of the metal layer is at most 3 ?m.

A textile fabrication system for creating a textile panel having a glistening multicolor appearance, using a foil panel, thread, a board, and a backer panel. The board has a first edge, second edge, a front, and a rear. The thread is wound repeatedly on the board across the front from the first edge to second edge, and across the rear to create a threaded area. The foil panel is adhered to the thread in the threaded area on the front, and then is unwound onto a spool, fragmenting the foil as it remains adhered to the thread. The coated thread may be rewound onto the front of the board, and then attached to a backer panel to create a textile panel. The coated threads are cut along the first edge and the textile panel is removed from the board for use in a garment.

A textile fabrication system for creating a textile panel having a glistening multicolor appearance, using a foil panel, thread, a board, and a backer panel. The board has a first edge, second edge, a front, and a rear. The thread is wound repeatedly on the board across the front from the first edge to second edge, and across the rear to create a threaded area. The foil panel is adhered to the thread in the threaded area on the front, and then is unwound onto a spool, fragmenting the foil as it remains adhered to the thread. The coated thread may be rewound onto the front of the board, and then attached to a backer panel to create a textile panel. The coated threads are cut along the first edge and the textile panel is removed from the board for use in a garment.

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.

Provided herein is a water-based metallic ink composition specifically adapted for direct digital inkjet printing on non-while fabrics and textile, which affords high resolution, high gloss and high luster metallic effect (high flop index) in decorations and designs that are wash-fast and stretchable. Also provided are processes of using the metallic ink compositions with other colored ink composition in direct digital inkjet printing on textile.