The invention relates to antimicrobial and/or antiviral fabric compositions comprising ascorbic acid, citric acid, sodium hypophosphite, or a mixture thereof. The ascorbic acid may be covalently attached to at least one cellulosic portion of the fabric composition. The invention also relates to methods for preparing such fabric compositions.

The invention relates to a polymeric fabric comprising an outer functional layer having hydrophobic and oleophobic characteristics made of a first compound, and a second functional layer having hydrophobic characteristics made of a second compound, wherein the first and the second compound differ from each other. Further the outer functional layer at least partly coats the second layer. Additionally, the invention relates to a method of producing a polymeric fabric and an apparatus for producing a polymeric fabric.

A textile fabric for preventing the penetration and water spreading in cables, having at least one layer, which is at least partially covered by an absorbent material and has pores, which pores can be at least partially closed under the effect of liquid due to absorbent material swelling, the absorbent material being bonded to the textile layer, at least in some areas, has a DIN ISO 9073-3 tensile strength in machine direction of >50 N/5 cm, and obtainable by a method involving: treating a layer containing pores with a mixture containing a polymerizable monomer or oligomer and a cross-linking agent and, as absorbent material precursor, a wetting agent and initiator, and polymerization of the monomer or oligomer under formation of a bonded connection between the absorbent material and the layer. The textile fabric can have a DIN EN ISO 9237 air permeability in dry state of greater than 200 dm.sup.3/(m.sup.2s).

A fabric is saturated with a salt solution, such that when an electric current is applied to the fabric, the fabric exhibits a bactericidal ability. In another aspect, a salt solution includes a conductor, a humectant, a solvent, and a binder, where the conductor has an NaCl % w/w of between 3 and 11, the humectant has a glycerol % w/w of between 3 and 15, the solvent has a water % w/w of between 77 and 89 and the fixative includes a binder % w/w of between 0.01 and 2.0.

A fabric is saturated with a salt solution, such that when an electric current is applied to the fabric, the fabric exhibits a bactericidal ability. In another aspect, a salt solution includes a conductor, a humectant, a solvent, and a binder, where the conductor has an NaCl % w/w of between 3 and 11, the humectant has a glycerol % w/w of between 3 and 15, the solvent has a water % w/w of between 77 and 89 and the fixative includes a binder % w/w of between 0.01 and 2.0.

A vertical take-off and landing (VTOL) unmanned aerial vehicle (UAV) storage and launch system includes a UAV pod (108) having a UAV pod processor (114) and a UAV (102) selectively enclosed in the UAV pod (108), the UAV (102) having only two rotors (202).

According to the invention there is provided a composite article including: a textile layer having a first and a second face, each of the first and second faces having a polymeric coating thereon; a first polymeric layer adhered to the polymeric coating on the first face of the textile layer; and a second polymeric layer adhered to the polymeric coating on the second face of the textile layer; in which the polymeric coatings on the first and second faces of the textile layer are each formed by polymerizing a polymeric precursor which includes a group of sub-formula (I) where R.sup.2 and R.sup.3 are independently selected from (CR.sup.7R.sup.8)n, or a group CR.sup.9R.sup.10, CR.sup.7R.sup.8CR.sup.9R.sup.10 or CR.sup.9R.sup.10CR.sup.7R.sup.8 where n is 0, 1 or 2, R.sup.7 and R.sup.8 are independently selected from hydrogen, halo or hydrocarbyl, and either One of R.sup.9 or R.sup.10 is hydrogen and the other is an electron withdrawing group, or R.sup.9 and R.sup.10 together form an electron withdrawing group, and R.sup.4 and R.sup.5 are independently selected from CH or CR.sup.11 where R.sup.11 is an electron withdrawing group, the dotted lines indicate the presence or absence of a bond, X.sup.1 is a group CX.sup.2X.sup.3 where the dotted line bond to which it is attached is absent and a group CX.sup.2 where the dotted line bond to which it is attached is present, Y.sup.1 is a group CY.sup.2Y.sup.3 where the dotted line bond to which it is attached is absent and a group CY.sup.2 where the dotted line bond to which it is attached is present, and X.sup.2, X.sup.3, Y.sup.2 and Y.sup.3 are independently selected from hydrogen, fluorine or other substituents, R.sup.1 is selected from hydrogen, halo, nitro, hydrocarbyl, optionally substituted or interposed with functional groups, or formula (II), and R.sup.13 is C(0) or S(0).sub.2.

According to the invention there is provided a composite article including: a textile layer having a first and a second face, each of the first and second faces having a polymeric coating thereon; a first polymeric layer adhered to the polymeric coating on the first face of the textile layer; and a second polymeric layer adhered to the polymeric coating on the second face of the textile layer; in which the polymeric coatings on the first and second faces of the textile layer are each formed by polymerizing a polymeric precursor which includes a group of sub-formula (I) where R.sup.2 and R.sup.3 are independently selected from (CR.sup.7R.sup.8)n, or a group CR.sup.9R.sup.10, CR.sup.7R.sup.8CR.sup.9R.sup.10 or CR.sup.9R.sup.10CR.sup.7R.sup.8 where n is 0, 1 or 2, R.sup.7 and R.sup.8 are independently selected from hydrogen, halo or hydrocarbyl, and either One of R.sup.9 or R.sup.10 is hydrogen and the other is an electron withdrawing group, or R.sup.9 and R.sup.10 together form an electron withdrawing group, and R.sup.4 and R.sup.5 are independently selected from CH or CR.sup.11 where R.sup.11 is an electron withdrawing group, the dotted lines indicate the presence or absence of a bond, X.sup.1 is a group CX.sup.2X.sup.3 where the dotted line bond to which it is attached is absent and a group CX.sup.2 where the dotted line bond to which it is attached is present, Y.sup.1 is a group CY.sup.2Y.sup.3 where the dotted line bond to which it is attached is absent and a group CY.sup.2 where the dotted line bond to which it is attached is present, and X.sup.2, X.sup.3, Y.sup.2 and Y.sup.3 are independently selected from hydrogen, fluorine or other substituents, R.sup.1 is selected from hydrogen, halo, nitro, hydrocarbyl, optionally substituted or interposed with functional groups, or formula (II), and R.sup.13 is C(0) or S(0).sub.2.

In some embodiments, the present disclosure provides methods including the steps of (i) providing silk fibroin material comprising substantially amorphous structure, and (ii) applying at least one of elevated temperature and elevated pressure to the silk fibroin material to form a silk fibroin article, wherein the applying induces fusion between at least a portion of the silk fibroin and structural change of fibroin in the silk fibroin material. In some embodiments, the present disclosure also provides silk fibroin articles made in accordance with the methods disclosed herein.

The present invention relates to a polymerisable composition for bonding fibre units, in particular linear textiles such as filaments, yarns, twines or ropes, comprising at least one prepolymer having at least two polymerisable vinylidene groups, such as a polyurethane having at least two (meth)acrylate groups, at least one photoinitiator and at least one compound having at least one polymerisable vinylidene group with a weight average molecular weight of 70-800 g/mol. In addition, the present invention relates to a process for bonding fibre units, comprising applying the composition according to the invention to at least one fibre unit such as a filament, yarn, twine or rope and irradiation of the fibre unit thus obtained with radiation having a wavelength in the range of, for example, 100-450 nm.