202 results about "Composite epoxy material" patented technology

In a multilayer wiring board comprising a core board, and a wiring layer and an electrically insulating layer that are stacked on one surface of said core board, a thermal expansion coefficient of said core board in XY directions falls within a range of 2 to 20 ppm, a core member for said core board is a core member selected from silicon, ceramics, glass, a glass-epoxy composite, and metal, said core board is provided with a plurality of through holes that are made conductive between the front and the back by a conductive material, and a capacitor is provided on one surface of said core board, wherein said capacitor comprises an upper electrode being the conductive material in said through hole, and a lower electrode disposed so as to confront said upper electrode via a dielectric layer.

The invention provides a dry-method winding formation method for a carbon fiber composite transmission axle tube. Pollutants on a mould are cleaned up through acetone, and the mould is heated after the whole mould is evenly coated with release agents; prepreg of a proper width is wound on the mould according to a certain line form at a proper winding speed under proper winding tension, so that a composite layer is formed; heating is stopped, and after the mould is cooled to a certain temperature, a layer of silica film or polythylene terephthalate (PET) film is wound on the surface of the composite layer; after surface treatment is finished, temperature rises to 180 DEG C at the temperature rising speed not higher than 3 DEG C / min and is kept for a period of time, and finally the mould is cooled to the room temperature, released and cut, so that the transmission axle tube is obtained. The carbon fiber or epoxy composite transmission axle tube manufactured through dry-method winding formation method has high specific strength and specific stiffness and good humidity resistance, the thermogravimetric analysis (Tg) is 220 DEG C, and good compactness, uniformity and size accuracy are also realized.

The invention relates to a preparation method of a bicontinuous-phase alumina / epoxy resin composite material, belonging to the technical field of composite materials. The method comprises the following steps: carrying out compression molding on Al2O3 powder with different particle sizes under different pressures, and sintering at different temperatures under normal pressure for holding time to obtain the porous Al2O3 ceramic with adjustable porosity and pore size; and after carrying out surface modification, standing the preheated porous Al2O3 ceramic in a mixed solution composed of an epoxy resin, an accelerator and a curing agent for some time, and carrying out solidifying formation to obtain the bicontinuous-phase alumina / epoxy resin composite material. The porosity of the porous alumina ceramic is regulated by controlling the content of the foaming agent and the volume density of the green compact, thereby regulating the volume percent of the alumina reinforcement phase in the composite material. The alumina phase in the composite material is a continuous phase, can greatly enhance the high / low-temperature mechanical properties, thermal conductivity and high-temperature creep resistance of the alumina / epoxy composite material, and provides a new idea for researching and developing high-performance epoxy resin composite materials.

The invention discloses a method to make silane coupler that contains cyan and secondary amino group. The molecular structure is (R1O)3-xSiR2xR3NHR4NHy(C2H4CN)z that is made up from the reaction of 1-2mol acrylonitrile and 1mol amino silane that has the molecular of (R1O)3-xSiR2xR3NHR4NH2. Comparing to traditional amino silane coupler, it has good restoring stability could be make into other coupler. The mechanical property and strength of bond to the base material would be greatly improved.