The molded surface fastener has a plurality of engaging regions having engaging elements and a plurality of space regions disposed between the engaging regions. Each space region has a plurality of wall pieces standing on a substrate portion and intrusion-accepted space portions which allows a foam resin material to intrude across the wall pieces in foam molding of a cushion body. By that, deformation or breakage of the engaging element in a manufacturing process can be prevented. Moreover, the molded surface fastener is firmly fixed in a state that the engaging elements are exposed.

A male-type molded hook-and-loop fastener-equipped sheet includes a male-type molded hook-and-loop fastener and a non-foam resin sheet integrated on the back surface of the male-type molded hook-and-loop fastener. The male-type molded hook-and-loop fastener includes a resin-made base plate and a plurality of male-type engaging elements made of the same resin, rising from the surface of the base plate and arranged in a row. The male-type engaging elements are bent in the direction of the row direction of the male-type engaging elements from the middle thereof, where the tip end portion approaches the base plate. The non-foam resin sheet is directly laminated and integrated on the back surface of the male-type molded hook-and-loop fastener. The resin constituting the non-foam resin sheet is a resin mainly composed of an elastomer resin of the same type as the resin constituting the male-type molded hook-and-loop fastener, though with a lower hardness.

A system of attachment surface structures that find their best use in the form of repeatedly removable straps and bands for securing one object to another. The surfaces are preferably constructed of narrow sheets of flexible polymer plastic materials having generally high tensile strength. A first embodiment includes shaped parallel ridges on one surface that interlock with mating parallel ridges on an opposing surface. These parallel ridges may be double sided (interlocking on both sides of each shaped ridge with the next shaped ridge on either side) or single sided (interlocking with a single ridge oriented 180 degrees from the first). Further embodiments include an array of shaped posts of various regular geometric shapes that interlock with an opposing array of identical posts.

A pouch having a flap and a closure system featuring a face fastener attached to the front wall of the pouch body, and a mating flap fastener as part of the flap. One fastener of the closure system is a loop fastener component carrying a field of hook-engageable fibers. The other fastener of the closure system is a hook fastener component with an array of hooks. A significant majority of the hooks are oriented such that their heads point in a common lateral direction. The flap is elastically stretchable by pulling on its free edge, such that the flap maintains the loop fastener component securely engaged to the hook fastener component when under tension, and such that stretching the flap reduces engagement between the loop fastener component and the hook fastener component.

The integration of dissimilar materials poses a significant challenge in engineering, necessitating innovative solutions for robust and reliable joining. Interlocking metasurfaces (ILMs) are a new joining technology comprising arrays of autogenous features patterned across two surfaces that interlock to form robust structural joints. The present invention is directed to optimizing the tensile performance of ILM joints formed between dissimilar materials. Parametric optimization can be used to identify optimal unit cell geometries for maximal yield strength. The invention enables the design of stronger ILM joints between dissimilar materials, thereby making ILMs a versatile and effective joining technology in diverse engineering applications.

Object molded in thermoplastic material in any shape having an outer surface from which protrudes at least one hook in one piece with the molded object, in particular a hook field, the molded object and the hook(s) having been formed by injection molding, each hook comprising a base part and a head or hooking part protruding from the base part and being delimited by first and second lateral surfaces each extending on the outer surface of the molded object, being separated from each other by an intermediate surface forming the edge of the hook, the curve sections, defined by the intersections of at least one of the first and/or second lateral surfaces with planes which are in parallel with the base plane from which the hook protrudes and which are at given distances h from this base plane, have a curvature which varies as a function of the distance h, the curvature of the curve section for h=0 (the base plane and said parallel plane merging) being greater than the curvature of at least one curve section for a distance h substantially corresponding to a level of the head of the hook.

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 fastening tape having flexibility in a longitudinal direction of the fastening tape. The fastening tape includes a plurality of fasteners, a support, and magnetic material positioned on the support. The support defines a plurality of plateaus and a plurality of valleys. The magnetic material is positioned on at least a portion of one of the plurality of plateaus or the plurality of valleys of the support such that a height of the magnetic material varies in the longitudinal direction. Because the height of the magnetic material varies, the fastening tape is more flexible in the longitudinal direction. In some cases, the fastening tape is also flexible in the lateral direction.

A fastening element is provided. The fastening element includes a gripping portion having a first face and a second face the first face of the gripping portion comprising a plurality of gripping elements, and an anchoring portion offset from the second face and extending parallel thereto so as to form a flange portion, wherein the flange portion comprises at least one chamfer located at a terminal section of the flange portion.

This surface fastener has a substrate portion and a plurality of engaging elements, each of the engaging elements being provided with a stem portion standing from the substrate portion and a hook portion extending in the fastener width direction from the stem portion. The engaging element has a narrow width tip end portion provided with at least a hook portion and an enlarged width portion provided with only the stem portion, separated by a reference surface along the fastener length and height directions as a boundary. This makes an undercut hardly formable in the molding of the engaging element, and deficiencies such as deformation and the like of the engaging element can be prevented. Further, the strength of the stem portion can be increased, and a damage which a loop-shaped engaging element and the engaging element receive when the loop-shaped engaging element is attached or pulled out can be reduced.