A fastening tape, mechanical fastener, methods of making them, and personal hygiene articles including them are disclosed. The fastening tape includes a tape backing having a fastening portion, an adhesive disposed on the fastening portion, and a release surface for the adhesive. The release surface is a either a release tape attached along one of its edges to the tape backing or a release coating disposed on at least a portion of a surface of the tape backing. At least one of the tape backing or the release surface comprises a microporous film having an opaque, microporous region and at least one see-through region of lower porosity within the opaque, microporous region. The mechanical fastener includes such a microporous film and mechanical fastening elements on at least one surface. The at least one see-through region extends through the thickness of the microporous film.

The present invention relates to printed hook components for hook and loop mechanical fasteners, and other components such as on diaper chassis and other personal hygiene articles, and methods for making the same. The hook component comprises an organic polymer, a laser-sensitive agent, and a laser-induced print on the hook component created by the interaction of electromagnetic radiation with the laser-sensitive agent. The hook component can be used in a variety of applications, including mechanical fastening devices for personal hygiene articles such as diapers, adult incontinence pads, and medical gowns.

A fastening device has a plurality of individual spaced-apart interlocking elements made of a plastics material, each of which projects towards one side from a carrier part by being provided with a stem part and a head part. The number of interlocking elements is 100 to 200 pieces per cm.sup.2, preferably 120 pieces per cm.sup.2. The diameter of the stem part of an interlocking element is 150 to 250 m, preferably 213 m. The height of the interlocking element, calculated from the root-side base on the carrier part to the head-part end, is 1200 to 2200 m, preferably 1500 to 1980 m. The dimension of the largest head-part diameter of an interlocking element is 200 to 400 m, preferably 220 to 290 m.

The Snap No Mo invention centers around the innovative concept of providing a fast, easy and safe way to connect, install or remove any item. This concept uses or replaces the conventional snap fasteners system for connecting any item with less effort to the installer or damage to the material and with a minimal amount of strength.

A wearing portion is provided with improved adhesion. A foreign matter intrusion prevention device includes: a stretchable wearing portion formed in a long band shape such that it is to be wound around a predetermined portion of a body in a cylindrical form; and a cover portion structured such that it extends from an end of the wearing portion in the width direction so as to cover a portion of the body. The wearing portion is configured comprising a first wearing member that functions as an outer circumferential side portion of the wearing portion and a second wearing member that functions as an inner circumferential side portion of the wearing portion when the wearing portion is put on the body. The first wearing member and the second wearing member are configured to have different stretching rates.

A connecting part (3) is formed by injection moulding. A closure part (11) forms a component of an adhesive closure having adhesive or hooking elements and is introducible as an insert part into an injection mould. In a back-injection process, the connecting part (3) forms a structural part containing the closure part (11) as an integral component.

A closure part, for vulcanization into products which are produced at least in part by vulcanization, includes at least a rear side, a function side and a barrier layer. The rear side is integrally bonded to a rubber material. The function side has individual hook-and-loop elements that are kept free of the rubber material and produce a releasable hook-and-loop closure when engaged with corresponding hook-and-loop elements. The barrier layer is between the rear and the function side. The barrier layer prevents liquid rubber material and/or flowable vulcanization products from entering the function side from the rear side during vulcanization.

A molded surface fastener comprises at least one surface fastener portion and a foldable piece portion that extends from the surface fastener portion. At least a part of the foldable piece portion has flexibility. The surface fastener portion has a pair of first barrier portions and a second barrier portion. A cushion body with the molded surface fastener anchored to a prescribed position while a plurality of engaging elements are in an exposed state can be stably manufactured by way of foam molding the cushion body using the molded surface fastener.

A connecting part (3) is formed by injection moulding. A closure part (11) forms a component of an adhesive closure having adhesive or hooking elements and is introducable as an insert part into an injection mould. In a back-injection process, the connecting part (3) forms a structural part containing the closure part (11) as an integral component.

A flame-resistant finish is adapted for a closure piece to form a detachable closure. The closure piece has a flat basic fabric (14) of warp threads (10), and weft threads (12). Functional elements (18) protrude on the front side of the basic fabric (14). The basic fabric (14) is provided with the flame-resistant finish. The fabric (14) and the functional elements (18) are predominantly, preferably entirely, made of flame-resistant plastic materials.