A method of making a structural part having a thermal protection barrier is provided. The method includes: making a fiber structure; introducing the fiber structure into an injection mold having first and second chambers, the fiber structure being placed in the second chamber; placing a movable separator partition between the first and second chambers; injecting a first resin into the first chamber; solidifying the resin injected into the first chamber; withdrawing the movable separator partition; injecting a second resin into the second chamber containing the fiber texture; and hardening the resins present in the first and second chambers of the injection mold in such a manner as to obtain a part having a structural core made of composite material constituted by fiber reinforcement densified by an organic matrix, and a thermal barrier constituted by a layer of hardened resin.

An apparatus for producing a two-color molded article, including a pair of primary forming molds, which constitute a primary molding unit for molding a primary molded body by a primary injection molding operation using a first injection unit, are opened while retaining the primary molded body by one of the pair of primary forming molds, and a second injection unit, which constitutes a secondary molding unit for molding a secondary molded body by secondary injection molding operation, is assembled in one of a pair of secondary forming molds with at least part of the second injection unit being accommodated in the one of the pair of secondary forming molds. A secondary molding cavity is formed between the pair of secondary forming molds so as to accommodate at least a part of the primary molded body retained by the above-described one of the pair of primary forming molds.

The invention relates to a device for administering a liquid drop by drop, in particular an ophthalmic liquid. This administering device comprises a packaging filled with the liquid and an outflow channel for connecting to the packaging and comprising a perforation member at one end, which perforation member is received in a frame for mounting on the packaging. The invention further relates to an assembly of such an administering device and an outer packaging which comprises one or more receiving spaces for the administering device. The invention also relates to a method for manufacturing a frame for such an administering device. The invention also relates to a method for forming an administering device. The invention finally relates to a method for administering a liquid drop by drop.

Injection molding at substantially constant pressure yields a substantially controlled injection molding process, even when utilizing a leaking check ring.

A process for making a multi-component hollow housing comprises injecting a first plastic material into a first mold cavity and causing it to solidify to form a first component, whereby the first plastic material shrinks lengthwise; injecting a second plastic material into a second mold cavity having the first component transferred thereto and causing the second plastic component to solidify to form a second component, the second component comprising a tolerance-elimination element that is longitudinally attached to the first component at one of the ends thereof, wherein a length of the shrunk first component is at least ten times greater than a length of the tolerance-elimination element, and wherein an absolute lengthwise shrinkage of the second plastic material forming the tolerance-elimination element is at least ten times smaller than the lengthwise shrinkage of the first plastic material; at least partially overmolding an intermediate part comprising the first and second component with a third plastic material in a third mold cavity, thereby forming the multi-component housing in which the tolerance-elimination element is at least partially overmolded by the third plastic material, and wherein the third plastic material forms at least a portion of an outer surface of the multi-component housing; and removing the multi-component housing from the core.

Layered polymer materials include a first layer including a first cyclic olefin polymer or a first cyclic olefin copolymer, a third layer including a second cyclic olefin polymer or a second cyclic olefin copolymer, and a second layer including an amphiphilic polymer having a hydrophilic component with a Hansen Solubility Parameter distance of 8 MPa.sup.1/2 or greater from oxygen gas, while at the same time having a hydrophobic component with a Hansen Solubility Parameter distance of 8 MPa.sup.1/2 or less from COC or COP. The second layer can be in contact with and be between the first layer and the third layer. The layered polymer material can be used to construct the body of a vial or a syringe. Methods of making the layered polymer material and kits containing the layered polymer material or containers having a body constructed from the layered polymer material are also described.

Silicone-containing light fixture optics. A method for manufacturing an optical component may include mixing two precursors of silicone, opening a first gate of an optic forming device, moving the silicone mixture from the extrusion machine into the optic forming device, cooling the silicone mixture as it enters the optic forming device, filling a mold within the optic forming device with the silicone mixture, closing the first gate, and heating the silicone mixture in the mold to at least partially cure the silicone. Alternatively, a method for manufacturing an optical component may include depositing a layer of heat cured silicone optical material to an optical structure, arranging one or more at least partially cured silicone optics on the layer of heat cured silicone optical material, and heating the heat cured silicone optical material to permanently adhere the one or more at least partially cured silicone optics to the optical structure.

The present disclosure relates to systems and methods of manufacturing elongated products such as optical devices by injection moulding, wherein length of the product can be longer than the length of the cavity of the mould wherein the product is manufactured.

Silicone-containing light fixture optics. A method for manufacturing an optical component including an inner optical component and an outer optical component. The method may include providing a first optical component; providing a material that comprises silicone; moving the material through an extrusion die to form a second optical component on the first optical component to form a continuous length of extruded optic. The first optical component can be one of the inner optical component or the outer optical component, and the second optical component can be the other of the inner optical component or the outer optical component and different from the first optical component. The method may further include curing the continuous length of extruded optic; and cutting the continuous length of extruded optic at a desired length to form the linear optic.