A method of making a metal foil heater comprising transferring a line image of a heater circuit to cutter and cutting the foil into a metal foil construction before affixing plastic sheets to both sides while attaching wires configured to supply current to the heater.

Provided are a fruit bag and a manufacturing method thereof, for example, a fruit bag for a fruit of a fruit tree may include: an inner surface configured to surround the fruit; an outer surface configured to exposed to an outside; an opening formed in a predetermined size at the same position of the inner surface and the outer surface; a nano membrane generated by an electrospinning of a polymer solution as a raw material for nano-fibers; a non-woven fabric for strength reinforcement laminated on one or both sides of the nano membrane and a nano-lamination film covering the entire surface of the opening thereby while maintaining excellent air permeability, it is possible to properly maintain the humidity and against various external environmental effects.

The aroma component volatilization device includes a bag containing a heating element that generates heat when exposed to air. At least one surface of the bag is composed of a thermally conductive sheet and a holding sheet . The thermally conductive sheet includes an aluminum layer containing aluminum on at least one entire surface of the sheet . An aroma component L is applied to the holding sheet. The thermally conductive sheet is disposed on the heating element side.

The aroma component volatilization device includes a bag containing a heating element that generates heat when exposed to air. At least one surface of the bag is composed of a thermally conductive sheet and a holding sheet . The thermally conductive sheet includes an aluminum layer containing aluminum on at least one entire surface of the sheet . An aroma component L is applied to the holding sheet. The thermally conductive sheet is disposed on the heating element side.

A method for making an extrusion coated perforated nonwoven web. The method comprises the steps of extruding a molten polyethylene coating onto a nonwoven web, and aperturing the molten polyethylene coating through heat and pneumatic pressure differential to create microperforations therein at a density of between about 35 and about 120 perforations per linear inch. The resulting microperforated nonwoven web is then thermomechanically perforated by feeding it through perforating rolls, at least one of which has raised protuberances to create macroperforations that extend though at least the polyethylene coating. The macroperforations have a density of between about 6 and about 35 perforations per linear inch. The perforated nonwoven web is useful as a topsheet for absorbent articles.

A method for making an extrusion coated perforated nonwoven web. The method comprises the steps of extruding a molten polyethylene coating onto a nonwoven web, and aperturing the molten polyethylene coating through heat and pneumatic pressure differential to create microperforations therein at a density of between about 35 and about 120 perforations per linear inch. The resulting microperforated nonwoven web is then thermomechanically perforated by feeding it through perforating rolls, at least one of which has raised protuberances to create macroperforations that extend though at least the polyethylene coating. The macroperforations have a density of between about 6 and about 35 perforations per linear inch. The perforated nonwoven web is useful as a topsheet for absorbent articles.

The present disclosure generally relates to absorbent products and methods for manufacturing the same. An absorbent product comprises a backsheet having a first lateral end edge, a second lateral end edge, a first longitudinal side edge, and a second longitudinal side edge. The absorbent product further comprises a first longitudinal line of weakness laterally inboard of the first longitudinal side edge, a second longitudinal line of weakness laterally inboard of the second longitudinal side edge, a first lateral line of weakness longitudinally inboard of the first lateral end edge, and a second lateral line of weakness longitudinally inboard of the second lateral end edge. The absorbent product also comprises a topsheet connected with the backsheet, an absorbent article, the absorbent article having an outer perimeter defined by the first and second longitudinal lines of weakness and the first and second lateral lines of weakness, and a removable trim region.

The invention relates to a bamboo floor, in particular to a composite bamboo floor. The composite bamboo floor comprises a floor surface board provided with a body, a pressed surface, a connecting surface connected with the core board, at least one cut surface board side face and surface board end faces, and the core board arranged under the floor surface board and provided with a core board surface connected with the floor surface board, a core board bottom surface, core board side faces and core board end faces, and the positions of the core board side faces or the core board side faces and the surface board side faces are provided with notch structures processed in two sides in the length direction of the composite bamboo floor. The composite bamboo floor is high in strength, high in processing efficiency and low in production cost.

The invention relates to a bamboo floor, in particular to a composite bamboo floor. The composite bamboo floor comprises a floor surface board provided with a body, a pressed surface, a connecting surface connected with the core board, at least one cut surface board side face and surface board end faces, and the core board arranged under the floor surface board and provided with a core board surface connected with the floor surface board, a core board bottom surface, core board side faces and core board end faces, and the positions of the core board side faces or the core board side faces and the surface board side faces are provided with notch structures processed in two sides in the length direction of the composite bamboo floor. The composite bamboo floor is high in strength, high in processing efficiency and low in production cost.

A method for making labels comprising providing a plastic substrate layer and a paper substrate layer. The paper substrate layer comprises a printed display information sheet, wherein the printed display information sheet comprises a plurality of display information tags arranged in an array. The plastic substrate layer is coupled to each of the rows of display information tags within a first portion of the display information tags to form a composite substrate row. A first line of perforations is cut into a width of the composite substrate at one or more first spaced intervals, a length of the first spaced intervals being defined by a length of the display information tags. A second line of perforations is cut into a width of the composite substrate at one or more second spaced intervals, a length of the second spaced intervals being defined by a height of the display information tags.