An in-mold vibratile injection compression molding method and molding apparatus thereof are described. While performing a filling stage, a first piezoelectric actuator and a second piezoelectric actuator are use to vibrate the molding material along at least two directions for precisely filling the molding material into the micro-structure by adjusting the filling flow velocity of the molding material associated with the proper molding material temperature and by maintaining a molding material temperature of a skin solidified layer in the cavity between a glass transition temperature and a melting temperature in order to avoid the form error, to increase the groove filling rate and to improve the residual stress.

Various embodiments of the present invention relate to plastic surfaces having surface structures and methods of making the same. In various embodiments, the present invention provides a method of forming surface structures on a plastic. The method can include contacting a flowable resin composition to a surface of a metal form including surface structures on the contacted surface thereof, the surface structures having at least one dimension approximately parallel to the metal surface of about 100 nm to about 1 mm, to provide a solid plastic including corresponding surface structures on a surface thereof.

To provide a resin container and a method for manufacturing the same with which it is possible to generate more effervescence than hitherto. This resin container is provided with: a resin container main body inside which is formed an accommodating space that is hermetically sealed using a cap; and a textured region which is formed on an inner surface of the container main body and is formed from a rough surface.

A decorative plastic molded article has an outer appearance of metallic color like and a display of a character, a graph or a symbol. A body of the molded article has a plate-like portion; the plate-like portion has a first surface and a second surface; a small concave and convex portion is formed on the second surface; the small concave and convex portion has a plurality of inclined surfaces. The outer appearance of metallic color like is obtained by the total reflection light at the inclined surface and the display of a character, a graph or a symbol is obtained by the transmissive light through a planar transparent portion with shape of a character, a graph or a symbol formed in the small concave and convex portion or the total reflection light at the small concave and convex portion with shape of a character, a graph or a symbol.

A description is given of a component (1) having at least one area of plastic (3, 21), which extends with the surface (32) thereof that is facing a front side (28) along a reference plane (22). The component is characterized in that, in this area of plastic (3, 21), the wall of plastic (27) has a wall thickness (d) in the range of 0.2-5 mm, in this area of plastic (3, 21) there is formed a continuous two-dimensional grid (30) of channel-shaped depressions (6), in which depressions (6) the wall of plastic (27), while keeping substantially the same wall thickness (d), is offset out of the reference plane (22) by an offset (v) and, perpendicularly to the reference plane (22), in the depressions (6) the offset (v) lies in the range of 1.5 to 5 times the wall thickness (d) from the reference plane (22) to the surface (32) of the rear side (29), wherein the grid (30) forms a pattern comprising a multiplicity of grid cells (31) recurring in two directions of the reference plane (22).

A mold insert includes a plurality of microstructures along a surface of the mold insert and a metal alloy, wherein the metal alloy has a thermal conductivity between 1 and 50 W/m-K. and wherein the metal alloy has a modulus of between 100 GPa and 1000 GPa.

An endoprosthesis has an expanded state and a contracted state, the endoprosthesis includes a stent having an inner surface defining a lumen, having an outer surface, and defining a plurality of apertures through the outer surface, wherein the apertures are arranged in a micropattern; and a coating (e.g., polymeric coating) attached to the outer surface of the stent. The coating includes a base and a tissue engagement portion including a second surface facing outwardly from the stent, the tissue engagement portion including a structure that defines a plurality of holes extending inwardly from the second surface toward the base. The holes are arranged in a micropattern. When the endoprosthesis is expanded to the expanded state in a lumen defined by a vessel wall, the structure applies a force that may reduce stent migration by creating an interlock between the vessel wall and the endoprosthesis.

A transparent resin is injection molded to create a marker (10) as an integrally molded article (lenticular lens portion (11)) including convex surfaces (112) and recesses (113) formed on the rear side of the convex surfaces. The recesses (113) are filled with coating films (115) formed by applying and curing a fluid coating material. Each recess (113) is arranged corresponding to a convex surface (112) so that the coating films (115) can be observed as optically distinguishable from the side of the convex surfaces (112).

A method for molding interior and exterior members of vehicles is provided. By the method, high quality interior and exterior members having surfaces on which general surface shape of genuine leather skin and fine shape such as stitch are formed can be molded by use of a mold. The method for molding the interior and exterior members of vehicles of the present invention comprises the steps of: creating a master model of the interior and exterior members; acquiring three-dimensional data of the created master model of the interior and exterior members; generating surface data which indicates a surface shape of the master model of the interior and exterior members from the acquired three-dimensional data; making the cavity plate of the mold based on the generated surface data; transferring the surface shape of the master model of the interior and exterior members in a resin sheet, attaching on the cavity plate of the mold the resin sheet to which the surface shape of the master model has been transferred; and molding the interior and exterior members by using the cavity plate on which the resin sheet is attached.

Thermoplastic forming tools and assemblages are provided for forming thermoplastic components. In particular, thermoplastic forming tools and assemblages are provided for forming thermoplastic components having precision micro-scale features and reproducible macro-scale dimensions. The thermoplastic forming assemblages can include at least a bottom tool and a top tool having a rigid tool body and an elastomer layer conformally coating at least a portion of both rigid tool bodies. The bottom and top tool can be so dimensioned that, when in the closed position, they define a cavity forming the thermoplastic component. The rigid tool bodies provide the reproducible macro-scale dimensions in the thermoplastic component, while the elastomer layers form and release the precision micro-scale features in the thermoplastic component when formed. Tool-forming structures are also provided for making thermoplastic forming tools and assemblages, as well as methods of making the thermoplastic forming tools, and methods of use for forming thermoplastic components.