The invention relates to a laminate, in particular for manufacturing a construction panel, consisting of a combination of at least one carrier material layer made of a non-flammable non-woven impregnated with a resin and at least one decorative material layer made of a decorative paper that is impregnated with a melamine formaldehyde resin and is optionally dyed and/or printed. The invention further relates to a method for manufacturing a disclosed laminate and especially a construction panel.

The invention relates to a laminate, in particular for manufacturing a construction panel, consisting of a combination of at least one carrier material layer made of a non-flammable non-woven impregnated with a resin and at least one decorative material layer made of a decorative paper that is impregnated with a melamine formaldehyde resin and is optionally dyed and/or printed. The invention further relates to a method for manufacturing a disclosed laminate and especially a construction panel.

This invention provides low density gypsum products. This invention also provides a method of making the low density gypsum products.

This invention provides low density gypsum products. This invention also provides a method of making the low density gypsum products.

Disclosed is a concrete curing blanket including a film layer, a differential hydrophobic/hydrophillic layer and a gel layer interposed therebetween.

Disclosed is a concrete curing blanket including a film layer, a differential hydrophobic/hydrophillic layer and a gel layer interposed therebetween.

The present invention relates to an air-permeable laminate insulation material, and more specifically, to an air-permeable laminate insulation material including: an insulation material layer; an aluminum coating layer formed on one or both surfaces of the insulation material layer; a non-woven fabric layer formed on the aluminum coating layer; and a polyolefin composite layer which is made from a mixture of polyolefin and inorganic particles and laminated on top of the non-woven fabric layer.

The present invention relates to an air-permeable laminate insulation material, and more specifically, to an air-permeable laminate insulation material including: an insulation material layer; an aluminum coating layer formed on one or both surfaces of the insulation material layer; a non-woven fabric layer formed on the aluminum coating layer; and a polyolefin composite layer which is made from a mixture of polyolefin and inorganic particles and laminated on top of the non-woven fabric layer.

Known methods of producing a three-dimensional glass object comprise the step of shaping of a glass fiber, wherein the glass fiber provided with a protective sheath is fed continuously to a heating source, the protective sheath is removed under the influence of heat, and the glass fiber is softened. In order to facilitate the production of filigree or optically distortion-free and transparent glass objects as much as possible, and also enable the adjustment of optical and mechanical properties with high spatial resolution, in one aspect the glass fiber has a protective sheath with a layer thickness in the range of 10 nm to 10 μm.

Known methods of producing a three-dimensional glass object comprise the step of shaping of a glass fiber, wherein the glass fiber provided with a protective sheath is fed continuously to a heating source, the protective sheath is removed under the influence of heat, and the glass fiber is softened. In order to facilitate the production of filigree or optically distortion-free and transparent glass objects as much as possible, and also enable the adjustment of optical and mechanical properties with high spatial resolution, in one aspect the glass fiber has a protective sheath with a layer thickness in the range of 10 nm to 10 μm.