Class / Patent application number | Description | Number of patent applications / Date published |
156309600 | Involving defined plastic flow or melting of entire lamina | 8 |
20100252195 | Methodology for creating layered panel structure including self-bonded thermoformable and non-thermoformable layer materials - A method of forming a layered, generally planar panel structure including the steps of (a) utilizing applied heat and pressure, causing a melt of resin present in a thermoformable material layer to flow toward and into an adjacent non-thermoformable material layer, and (b) by such utilizing and causing, forming a thermal-compression, mechanical, inter-material-transition bond between the layers. | 10-07-2010 |
20110048638 | TITANIUM OR TITANIUM ALLOY, ADHESIVE RESIN COMPOSITION, PREPREG AND COMPOSITE MATERIAL - The present invention relates to a composite material using titanium or a titanium alloy, and concerns such a composite material obtained through processes in which after an imidazole compound has been applied to the surface of titanium or a titanium alloy, an adhered is adhered thereto. The composite material of the present invention is obtained by adhering the adhere thereto by using an adhesive resin composition containing a thermoplastic resin having a fracture energy release rate G | 03-03-2011 |
20110088842 | DIFFERENTIAL TRACE PROFILE FOR PRINTED CIRCUIT BOARDS - Circuit boards and methods for their manufacture are disclosed. The circuit boards carry high-speed signals using conductors formed to include lengthwise channels. The channels increase the surface area of the conductors, and therefore enhance the ability of the conductors to carry high-speed signals. In at least some embodiments, a discontinuity also exists between the dielectric constant within the channels and just outside the channels, which is believed to reduce signal loss into the dielectric material. | 04-21-2011 |
20130118685 | Wafer lens member producing method, image pickup lens producing method, image pickup module producing method, and image pickup module-installed electronic device producing method - A wafer lens member producing method includes post-curing lens portions made of a light-curing resin formed on at least one face of a substrate so as to promote curing of the light-curing resin. The post-curing includes first post-curing and second post-curing. The first post-curing performs heating at a first post-curing temperature, which is a glass transition temperature of the light-curing resin to the glass transition temperature+100° C., for 30 minutes to two hours. The second post-curing performs heating at a second post-curing temperature, which is lower than the glass transition temperature, and lower than the first post-curing temperature by 25° C. or more, for three hours to six hours. | 05-16-2013 |
20150107766 | Sensor assembly tethered within catheter wall - A distal tip assembly for an elongate medical device having an axis comprises a shaft having a proximal end portion, a distal end portion, a wall, and a central lumen extending axially between said proximal end portion and said distal end portion. The distal tip assembly further comprises a position sensor disposed in an outer sleeve such that the sensor can shift relative to the sleeve. The sleeve is disposed at least in part in the wall and is substantially fixed thereto. | 04-23-2015 |
20150144262 | METHODS OF MAKING A PROSTHETIC VALVE WITH A DURABLE HIGH STRENGTH POLYMER COMPOSITE LEAFLET - Methods are provided to make a prosthetic valve having a thin, biocompatible, high-strength, composite material. In one aspect, the composite material maintains flexibility in high-cycle flexural applications, making it particularly applicable to high-flex implants such as a heart valve leaflet. The composite material includes a porous expanded fluoropolymer membrane and an elastomer, wherein the elastomer is present in the pores of the porous expanded fluoropolymer. | 05-28-2015 |
20150290911 | Method of Manufacturing Joined Body of Fiber-Reinforced Composite Material and Metal Member, and Fiber-Reinforced Composite Material Used for the Method - A method of efficiently manufacturing a joined body in which a composite material including a thermoplastic resin reinforced with fiber and a metal member are joined to each other is provided. In a state of bringing a protrusion including a thermoplastic resin on a surface of the fiber-reinforced composite material into contact with a surface of the metal member, by melting the thermoplastic resin of the protrusion on the surface of the fiber-reinforced composite material, the fiber-reinforced composite material and the metal member are firmly joined to each other. | 10-15-2015 |
20160009063 | FOAM AND PLASTIC BONDING PROCESS FOR PROTECTIVE INSULATION SYSTEM | 01-14-2016 |