Patent application number | Description | Published |
20090054559 | POLYLACTIC ACID RESIN COMPOSITION AND MOLDED ARTICLE - Provided are a resin composition in which a moldability is improved at a temperature at which a polylactic acid resin is crystallized by adding both a carboxylic acid amide or a carboxylic acid ester which has at least one polar group in a molecule and a layered silicate to the polylactic acid resin, and a molded article. | 02-26-2009 |
20090069463 | POLYLACTIC ACID RESIN COMPOSITION AND MOLDED ITEM - Provided is a polylactic acid resin composition obtained by adding a carboxylic acid amide and a carboxylic acid ester each of which has at least one polar group in a molecule to a polylactic acid resin reacted with a (meth)acrylate compound. Also provided is a polylactic acid resin molded article which is a molded article obtained by molding the polylactic acid resin composition, manufactured by setting a mold temperature to a glass transition temperature of a polylactic acid resin plus 20° C. or higher and a melting point thereof minus 20° C. or lower, at the time of injection molding the polylactic acid resin composition. Thus, a resin composition in which a moldability is improved at a temperature at which a polylactic acid resin is crystallized, and a molded article therefrom are provided. | 03-12-2009 |
20090286075 | THERMALLY CONDUCTIVE RESIN MATERIAL AND MOLDED BODY THEREOF - The thermally conductive resin material of the present invention has an excellent thermal conductive property without impairing the intrinsic practical properties such as the forming processability, lightness in weight and mechanical strength possessed by resins and has an anisotropic thermal conductive property capable of controlling the directionality and the transfer amount of the thermal conduction. The thermally conductive resin material of the present invention is a thermally conductive resin material including a base material of a thermoplastic resin (A) and a fibrous filler (C), wherein an organic compound (B) incompatible with the resin component is present as dispersed particles in the resin component, and two or more elements of the fibrous filler (C) are in contact with the surface of each of the dispersed particles or are located in each of the dispersed particles. | 11-19-2009 |
20090286926 | Thermoplastic Resin Composition - Provided is a plant-derived resin composite material which has a sufficiently fast crystallization rate and excellent moldability and heat resistance by using a thermoplastic resin composition containing a plant-derived thermoplastic resin and an organic crystal nucleating agent which is composed of one or more low molecular weight compounds comprising at least two polar groups in the molecule, a spacing between any two of the polar groups being 34±4 angstroms. | 11-19-2009 |
20110060080 | POLYLACTIC ACID RESIN COMPOSITION - The present invention provides a polylactic acid resin composition, containing a polylactic acid resin and a metal hydrate surface-treated with at least one silane coupling agent selected from an amino-silane coupling agent, a mercapto-silane coupling agent and an isocyanate-silane coupling agent, wherein the content of an alkali metal component in the metal hydrate is not more than 0.2% by mass and a polylactic acid resin molded article produced by molding the polylactic acid resin composition. | 03-10-2011 |
20140009047 | CABINET FOR ELECTRONIC APPARATUS AND AN ELECTRONIC APPARATUS - In a cabinet for electronic apparatus, even when Mg—Li alloy is employed to reduce weight of the cabinet and the cabinet is molded through presswork by using the Mg—Li alloy, neither a rough surface nor a crack appears in any bent portion of the cabinet. In a cabinet for electronic apparatus including at least one surface formed by conducting presswork for Mg—Li alloy, the surface has a plate thickness t (mm) in a range of 0.4≦t≦2.0, at least one bent portion between at least two of the surfaces has a radius of curvature r (mm) on an inside of the bent portion in a range of t≦r, and at least one side surface standing relative to a bottom surface selected from the surfaces has a height H (mm) in a range of 0≦H≦r+4. | 01-09-2014 |