A system and process for bonding involves a pocket made into one article is used to secure that article to another using a flowable, curable material (e.g., resin) which during saturation enters through a passageway and at least partially fills the void. When the article is cured, the article is bonded to another article to which resin has also been applied since the void (now containing cured material) is larger than the passageway.

An electronic device having multiple housing components interlocked together by a molded material is disclosed. In order to provide interlocking surfaces for the molded material, the housing components can include various geometries designed to receive and retain the molded material such that the housing components are secured with one another. For example, a first housing part can undergo several material removal operations to form multiple ribs, each with through holes. When the molded material extends along the ribs and into the through holes, the molded material cures and interlocks with the first housing part. A second housing part can include several stepped indentions that receive the molded material. Also, a third housing part can include a dovetail indention to receive the molded material such that the first and second housing parts interlock with the third housing part. The indentions can provide retention in three dimensions to protect against decoupling.

A method of forming an implant having a porous tissue ingrowth structure and a bearing support structure. The method includes depositing a first layer of a metal powder onto a substrate, scanning a laser beam over the powder so as to sinter the metal powder at predetermined locations, depositing at least one layer of the metal powder onto the first layer and repeating the scanning of the laser beam.

Structures include a substrate having a base surface. The base surface includes a plurality of protrusions extending from the base surface and/or a plurality of depressions extending into the base surface. The structures include a molded liner. The molded liner encapsulates the plurality of protrusions and/or the molded liner extends into at least a portion of the plurality of depressions.

An air intake hose for a vehicle may include a blow molding portion formed in a hollow hose shape by blow molding, an injection molding portion formed in a hollow hose shape by injection molding, and a coupling portion formed at one end of the blow molding portion, wherein the blow molding portion and the injection molding portion may be coupled with each other by injecting a material forming the injection molding portion into an injection mold in a state in which the coupling portion may be inserted in the injection mold.

A method for making an oscillating weight for an automatic winding mechanism of a self-winding watch including a central part made from a first composite material and a heavy sector made from a second composite material charged with heavy metal particles, the method including: forming the central part with a lateral rib and a rebate by injecting the first composite material into a mold; overmolding the heavy sector onto the central part by injecting the second composite material into a mold containing the central part, so that the second composite material fills the rebate and a gap underneath the lateral rib, so that the lateral rib is embedded in the second composite material and the central part and the heavy sector are interlocked.

A composite structure is provided. The composite structure includes a first stiffener, a second stiffener, and an intermediate structure positioned between the first and second stiffeners such that the first stiffener is coupled to a first side of the intermediate structure, and such that the second stiffener is coupled to a second opposing side of the intermediate structure. A first radius gap is defined at least partially between the first stiffener and the intermediate structure, and a second radius gap is defined at least partially between the second stiffener and the intermediate structure.

Feedstocks for additive manufacturing are provided. The feedstock may include a matrix material, and one or more capsules disposed in the matrix material, wherein the one or more capsules are configured to be removable from a surface portion when the matrix material is solidified to form one or more cavities in the surface portion. Methods of depositing the feedstocks and objects formed from the feedstocks are also provided.

A flexible substrate repair structure, a manufacturing method thereof, and an inspection and repair method of a flexible substrate are provided. The flexible substrate repair structure includes a flexible substrate and at least one repair layer. The flexible substrate has a regular recess. The at least one repair layer is located on the flexible substrate and is completely filled in the regular recess. The material of the repair layer includes a polysilazane compound having the unit shown in formula (1) below, ##STR00001##
wherein R.sub.x, R.sub.y and R.sub.z are respectively hydrogen, a C.sub.1 to C.sub.10 substituted alkyl group, an unsubstituted alkyl group, an alkenyl group, or an aromatic group.

A flexible substrate repair structure, a manufacturing method thereof, and an inspection and repair method of a flexible substrate are provided. The flexible substrate repair structure includes a flexible substrate and at least one repair layer. The flexible substrate has a regular recess. The at least one repair layer is located on the flexible substrate and is completely filled in the regular recess. The material of the repair layer includes a polysilazane compound having the unit shown in formula (1) below,

##STR00001##

wherein R.sub.x, R.sub.y and R.sub.z are respectively hydrogen, a C.sub.1 to C.sub.10 substituted alkyl group, an unsubstituted alkyl group, an alkenyl group, or an aromatic group.