Abstract: Approaches presented herein enable forming a 3D object with a plurality of unmanned aerial vehicles (UAV), also known as “drones”, configured to carry and deposit 3D printing material, and to fly to a depositing location (e.g., fly, hover, or land) to print a 3D object. Specifically, at a central controller, a set of specifications for a 3D object to be printed are obtained. The central controller directs each of a plurality of UAVs controlled by the central controller to fly to a depositing location where a layer of 3D printer material is to be deposited, the location determined from the set of specifications. In response to a UAV of the plurality reaching the depositing location, the central controller further directs the UAV of the plurality to apply the layer of 3D printer material to the depositing location.

Abstract: The invention provides a heating head for a three-dimensional printing pen. The heating head includes a heating pipe, a heating member, a heat insulation pipe, a heat insulation sleeve, and a heat sink. The heating member is disposed on the heating pipe. The heat insulation pipe penetrates into the heating pipe. The heat insulation sleeve is sleeved on the heating pipe and opposite to the heating member. The heat insulation sleeve partly covers the heat insulation pipe, and the heat insulation pipe and the heat insulation sleeve are separated by the heating pipe. The heat sink and the heat insulation sleeve mutually lean against, wherein the heat insulation sleeve is located between the heating member and the heat sink, and the heat insulation pipe penetrates into the heat sink.

Abstract: A platform structure for manufacturing a scaffold for use in tissue engineering, comprising a frame; a ring-shaped thermally conductive member fixedly disposed in the frame; a thermally conductive platform centrally movably disposed in the ring-shaped thermally conductive member and having edges in direct contact with inner walls of the ring-shaped thermally conductive member, wherein the thermally conductive platform and the ring-shaped thermally conductive member together define a space of a variable depth; a vertically movable mechanism connected to a bottom of the thermally conductive platform and adapted to drive the thermally conductive platform to sink and thus increase gradually the depth of the space; and a low temperature generating mechanism connected to the ring-shaped thermally conductive member and the thermally conductive platform to cool down the ring-shaped thermally conductive member and the thermally conductive platform, to prevent deformation and ensure uniform dimensions of tall scaffolds

Abstract: A manufacturing apparatus for use in the low-temperature high-speed manufacturing of a support structure is introduced. The support structure thus manufactured is for supporting a low-temperature manufacturing scaffold for use in tissue engineering.

Abstract: An extruder is fitted with a connector for coupling and decoupling with a filament feed source, such as a filament tube. When connected, the extruder and filament tube are aligned to define a feed path for a filament. A tool rack includes a plurality of filament tubes secured within respective openings. The tool rack may facilitate coupling and decoupling operations between the extruder and filament sources. For example, the tool rack may define an insertion path that engages a filament tube during insertion, and that secures the filament tube against an excursion from the insertion path. The extruder may disengage the coupling by initiating a motion along the insertion path and then moving off of the insertion path to decouple the filament tube and the extruder. In this manner, filaments may be swapped through engaging and disengaging the extruder with different filament tubes on the tool rack.

Abstract: An extruder of a three-dimensional printer may be coupled with one or more filament tubes, each filament tube having its own supply of filament. The extruder may include a drive gear rotatable in a first direction to advance a filament from a filament tube toward at least one extrusion opening defined by the extruder and rotatable in a second direction, opposite the first direction, to advance another filament from a different filament tube toward the at least one extrusion opening defined by the extruder. Also, as one filament is advanced by the drive gear, another filament may be retracted by the drive gear to improve the switching of filaments in a three-dimensional printing process. The extruder may work in conjunction with a filament supply-side drive system that feeds filament into one or more filament tubes, reducing a pull force exerted by the drive gear of the extruder.

Abstract: The invention is a stereolithography method for the production of a three-dimensional object (10) through the superimposition of a succession of layers (1-5) obtained by solidifying a liquid material through exposure to predefined radiation (6), comprising the following operations: defining a geometric representation of the layers (1, 2, 3, 4, 5); selecting one or more layers (2) that precede a reference layer (4) in the succession; defining a mask area (9) corresponding to the logical conjunction of the geometric representations of the reference layer (4) and of the selected layers (2) reproduced on the plane of the reference layer (4); exposing the liquid material to the predefined radiation (6) in the mask area (9).

Abstract: A method for producing a three-dimensional object (11) in layers by using a stereolithography machine (1) that includes: a container (2) containing a fluid substance (3) suited to solidify through exposure to predefined radiation (4a); an emitter (4) suited to emit the predefined radiation (4a) and to solidify a layer of the fluid substance (3) adjacent to the bottom (2a) of the container (2); a modelling plate (5) suited to support the solidified layer (6) and associated with an actuator (7) suited to move it perpendicular to the bottom (2a) of the container; a leveler (8) arranged in contact with the fluid substance (3). The method includes: selectively irradiating the layer of fluid substance to obtain the solidified layer; extracting the solidified layer from the fluid substance; redistributing the fluid substance in the container by moving the leveler so that they are passed between the modelling plate and the container.

Abstract: A system and method for Selective Laser Fusing of a 3D part is disclosed. The system may comprise a platform, a gantry, a dispenser, a first press, a laser configured to emit a laser beam onto powdered material, a positive pressure chamber at least partially surrounding the laser, and a controller. The controller may be configured to: (a) receive data that includes a representation of the 3D part sliced into a plurality of layers; (b) rotate on a path about an axis either the platform or simultaneously each of the dispenser, the first press, the positive pressure chamber and the laser; (c) activate the dispenser to deposit the powdered material during (b); (d) activate the laser to emit during (b) the laser beam onto the powdered material to Fuse the powdered material into a layer of the plurality of layers; and (e) repeat (b)-(d) to make the 3D part.

Abstract: Laser operating machine for additive manufacturing of objects by laser sintering, comprising a transport structure (11), which is movable in a work space (100), operating according to a first system of movement axes (X, Y, Z) and configured to support one or more nozzles (34) for lid emitting sintering powder jets to be sintered on a work substrate (100, 110) and an optical laser assembly (20) for conveying a laser beam (L) in a laser spot (S) focused on said work substrate (100, 110) to sinter said powders, According to the invention, said optical laser assembly (20) is integrally associated with said transport structure (11) and a movable element (12) is also integrally associated with said transport structure (11) operating according to a second system of movement axes (u, v), said movable element (12) comprising a tool-carrier frame (30), on which one or more nozzles (34) for emitting sintering powder jets are arranged, associated with said second system of movement axes (u,v) and movable with respect to

Abstract: A part material for printing three-dimensional parts with an electrophotography-based additive manufacturing system, the part material including a composition having a grafted copolymer (including acrylonitrile units, butadiene units, aromatic units modified withpolycarbonate and poly(styrene-co-maleimide)), a charge control agent, and a heat absorber. The part material is provided in a powder form having a controlled particle size, and is configured for use in the electrophotography-based additive manufacturing system having a layer transfusion assembly for printing the three-dimensional parts in a layer-by-layer manner.

Abstract: A direct dyeing type color fused deposition modeling three-dimensional printing apparatus includes a forming stage, a forming unit, and a color-inkjet unit. The forming unit is located above the forming stage for providing forming-material layers on the forming stage in sequence. The color-inkjet unit is located above the forming stage for providing color-ink layers on the forming-material layers in sequence, wherein the forming-material layers and the color-ink layers are stacked alternately in sequence to form a colored three-dimensional object. A direct dyeing type color fused deposition modeling three-dimensional printing method is also provided.

Abstract: Embodiments disclosed herein relate to an extruder for a 3D printer. The extruder for a 3D printer includes a finned head, a lower tube being accommodated at the lower portion of the finned head, a heating base accommodating a lower portion of the lower tube, and a dispensing nozzle being fitted at a coinciding hole at the heating base. The lower tube is characterized by an externally threaded opposing ends and a plain tube being made thinner in wall thickness and said plain portion made longer, and a polytetrafluorethylene (PTFE) material coating the internal wall of the lower tube.

Abstract: An embodiment of a computer program product for manufacturing an object includes a tangible storage medium readable by a processing circuit and storing instructions for execution by the processing circuit for performing a method. The method includes receiving instructions to manufacture an object by a three-dimensional (3D) printing operation; determining a manufacturing plan for performing the 3D printing operation, the manufacturing plan prescribing a plurality of operational stages to be performed cooperatively by a plurality of independently operable mobile machines, providing instructions to the plurality of mobile machines, each of the plurality of mobile machines configured to perform at least one of the plurality of operational stages, and manufacturing the object by the plurality of mobile machines according to the manufacturing plan.

Abstract: There is disclosed a multi-material extruder and extrusion method for 3D printing, and more particularly to an apparatus and method that is adapted to extrude a wide range of materials for printing 3D structures. In an aspect, the apparatus comprises a frame adapted to receive a removable syringe or cartridge with a depressible piston in an extended position, the syringe or cartridge containing material to be extruded. An extrusion motor is under the control of an extruder logic module to determine how quickly the piston of the syringe or cartridge is to be depressed to achieve a desired rate of extrusion of the material. A flexible length of tubing connects the tip of the syringe or cartridge to an extruder nozzle, which nozzle is mounted to a stylus which may be hand-held or mounted to a chassis of a 3D printing device. A feedback signal is used to provide a feedback signal to the extruder logic module to determine the rate of extrusion of material.

Abstract: An embodiment of a computer implemented method of manufacturing an object includes receiving instructions to manufacture an object by a three-dimensional (3D) printing operation, determining a manufacturing plan for performing the 3D printing operation, the manufacturing plan prescribing a plurality of operational stages to be performed cooperatively by a plurality of independently operable mobile machines, providing instructions to the plurality of mobile machines, each of the plurality of mobile machines configured to perform at least one of the plurality of operational stages, and manufacturing the object by the plurality of mobile machines according to the manufacturing plan.

Abstract: A fused filament fabrication three dimensional printing system includes a build platform, an extruder for one or more deposition materials, the extruder including at least one nozzle movable relative to the build platform, and a controller configured to control the relative movement between the build platform and the nozzle, and to cause material to be extruded out of the nozzle to form a 3D object on the build platform. The build platform includes a first plate on which the 3D object is formed, a second plate that is positioned vertically below the first plate and defines at least one gap between the first and second plates, and a heating element that is configured to heat the second plate. The first plate defines at least one opening that is configured to allow passage of material extruded from the nozzle into the at least one gap between the first and second plates.

Abstract: Disclosed is a platform for generating and delivering 3-D printed wearables. The platform includes scanning, image processing, machine learning, computer vision, and user input to generate a printed wearable. Scanning occurs in a number of ways across a number of devices. The variability of scanning generates a number of scanning output types. Outputs from the scanning process are normalized into a single type during image processing. The computer vision and machine learning portions of the platform use the normalized body scan to develop models that may be used by a 3D printer to generate a wearable customized to the user. The platform further provides opportunities for the user to check the work of the scanning, image processing, computer vision, and machine learning. The user input enables the platform to improve and inform the machine learning aspects.

Abstract: A method for producing a three-dimensional fiber composite component with fiber bundles which are shaped from a rod- or strand-like initial shape into a predetermined three-dimensional shape of the component by way of a shape defining apparatus. The shape defining apparatus has at least one shaping channel having a first curvature along its longitudinal direction, which is predetermined for the fiber composite component, and forms at least one leading edge. The fiber bundles are pressed against the at least one leading edge of the shaping channel, thereby adopting the predetermined first curvature.

Abstract: The purpose of the present invention is to obtain a fiber-reinforced plastic that is capable of controlling anisotropy, has excellent mechanical characteristics, has little variation, has excellent heat resistance, and has good fluidity during forming. A production method for fiber-reinforced plastic, having: a step in which a material (A) (100) including a prepreg base material is obtained, said prepreg base material having cuts therein and having a thermoplastic resin impregnated in reinforcing fibers (110) arranged in parallel in one direction; a step in which a pressurizing device is used that applies a substantially uniform pressure in a direction (X) orthogonal to the travel direction of the material (A) (100) and the material (A) (100) is caused to travel in the one direction and is pressurized while being heated to a prescribed temperature (T), an angle (.theta.) of ?20-20.degree.

Abstract: A device to correct geometrical differences of surfaces of parts to be assembled at the interface of the assembly. A measurer to acquire data by measuring the geometry of the assembly surfaces of two parts to be assembled to each other with their respective assembly surfaces facing. A simulator configured to simulate the assembly of the parts and to determine from the acquired data at each measured point of a sampling of the interface a thickness of the void resulting from the geometrical discrepancies between the assembly surfaces. An additive fabricator to receive from the simulator data representative of the thicknesses of the voids resulting from the geometrical discrepancies between the assembly surfaces. The additive fabricator configured to deposit material on the assembly surface of at least one of the parts to at least partly fill the void resulting from the geometrical discrepancies between the assembly surfaces.

Abstract: A damaged glass surface restoring tool comprises a replaceable, hermetically sealed container of glass fluid restoring substance aligned within a vacuum chamber perpendicularly to the glass surface. A method of restoring a damaged glass surface creates a vacuum in a chamber aligned over a crack in the glass and applying to the crack a glass restoring substance there before unexposed to air in a straight line path of application.

Abstract: A contact lens is provided as a hydrate of a copolymer of at least three components including (I) a both terminal-polymerizable silicone oligomer component that forms a hydrophobic region (A) in the copolymer, (II) a hydrophilic component that forms a hydrophilic region (C) in the copolymer, and (III) a hydrophobic monomer component having a molecular weight of at most 700 that forms the hydrophilic region (C) together with the component (II) and also contributes to form an intermediate region (B) which does not solvate with a hydrophilic solvent between the hydrophobic region (A) and hydrophilic region (C), wherein the intermediate region (B) shows a volume rate of 5 to 40% with respect to the region (A) in the copolymer, and the contact lens is transparent and free from bubbles therein.

Abstract: Methods of forming a lens include forming components on a lower substrate. The components are sealed on the lower substrate with a sealing layer. An upper substrate is formed over the sealing layer. The lower substrate is polished to a lower lens curvature.

Abstract: A process for building different models of green tyres for vehicle wheels, by using elementary semi-finished products, in a building plant including a plurality of workstations is described. The process includes building a first carcass structure of a first model of tyre on a first forming support, in a first workstation, the first carcass structure including at least one first carcass ply obtained from a first elementary semi-finished product, and at least one first pair of annular reinforcing inserts. The process includes the delivery of the first forming support to a bypass device to go beyond at least one second workstation without transiting through it. A plant suitable for allowing the aforementioned process to be carried out is also described.

Abstract: In a pneumatic tire production method including a step of overlapping end portions of a sheet laminate and vulcanization-molding the tire, the sheet laminate being obtained by layering an elastomer layer and a sheet of a thermoplastic resin composition containing a thermoplastic resin or a blend of a thermoplastic resin and an elastomer, after the end portions of the sheet laminate are overlapped, the overlapped portion of the sheet laminate is compression-bonded at a temperature of not less than a glass transition temperature Tg of the thermoplastic resin and not greater than 120° C.

Abstract: A carcass ply is applied around an outer surface of a building drum according to an application diameter larger than the fitting diameter of a tyre. Coaxially engaged around each of the end flaps is an annular anchoring structure defining the fitting diameter. A pair of sidewalls is manufactured by laying of a continuous elongated element in the form of approached coils on the carcass sleeve. An outer sleeve, including at least one belt structure possibly associated with a tread band, is coaxially centered around the carcass sleeve. Through axial approaching of two halves forming the building drum, the carcass sleeve is shaped into a toroidal configuration to determine application of same against a radially internal surface of the outer sleeve.

Abstract: A carcass ply is applied around an outer surface of a building drum, according to an application diameter greater than the fitting diameter of the tyre. An annular anchoring structure defining the fitting diameter is coaxially engaged around each of the end flaps. An outer sleeve including at least one belt structure possibly associated with a tread band is disposed at a coaxially centred position around the carcass sleeve applied onto the building drum. Through axial approaching of two halves forming the building drum, the carcass sleeve is shaped into a toroidal configuration to determine application of same against a radially internal surface of the outer sleeve.

Abstract: Improved bales may be formed using methods that include baling equipment with multi-component bolster assemblies that may ease installation and removal, reduce wear and tear and maintenance, and/or improve efficiency by reducing material waste, imperfections, and/or contamination. The bolster assemblies may include a plurality of coupling portions that engage a hydraulic rod and may enable the bolster assembly to self-center within a press chamber during normal baling operations. The bolster assemblies also may include an island portion that may be attached to the coupling portions and to a bolster cap, and the latter may be attached using retainer bolts having substantially flat, non-circular heads. The bolts may reduce irregularities in the bale and/or prevent material seepage into the bolster assemblies. During maintenance, an operator may remove only the bolster cap island assembly for cleaning, substantially reducing the time and strength needed to clean and/or repair the baler and reduce downtime.

Abstract: The invention relates to a system and to a method for identifying a compression roller column in a tableting machine having a machine processor. The system includes a plug-in connection which includes a receiving socket and a plug. The plug has at least one embedded controller, and data can be exchanged between the machine processor of the tableting machine and the embedded controller of the plug via the one plug-in connection. The plug and the receiving socket are arranged on the tableting machine. The plug can be connected to the receiving socket.

Abstract: Folding unit for folding cardboard blanks having an end panel, a corner panel and a side panel, said folding unit comprising an end panel folding element actuable to pivot about a first axis and a side panel folding element actuable to pivot about a second axis, said folding unit comprising a corner panel folding element, said corner panel folding element comprising a guiding plate, said guiding plate being actuable to move about at least one axis in order to initiate folding a corner panel about an axis being substantially parallel to said second axis.

Abstract: A pressed crease-forming member is disclosed which is capable of forming a crease in a corrugated cardboard sheet along which the sheet can be bent with high accuracy, and which is a strip-shaped member having a crease-forming portion formed with an odd number of ribs extending in the longitudinal direction of the strip-shaped member with one of the ribs located at the widthwise center of the crease-forming portion. A plurality of cross grooves are formed on each side of the center rib, which is located at the widthwise center of the crease-forming portion, so as to be inclined relative to the center rib and spaced apart from each other in the longitudinal direction of the crease-forming portion. The cross grooves are arranged to longitudinally separate each of the ribs on both sides of the center rib into discontinuous rib portions.

Abstract: A creasing device is provided that includes a counter-rotating male drum and female drum. The male drum carries a conventional creasing ring with a central rib flanked by shoulders. The female drum comprises a central channel aligned with the creasing rib on the male drum; and a pair of projecting lateral ribs on each side of the central channel that are aligned with the shoulders on the male drum. The lateral ribs press a sheet of the card or paper stock against the shoulders of the creasing ring to better define the edges of the crease and to reduce the tendency of a printed coating on the stock to crack during subsequent folding. The pair of lateral ribs may be provided by a pair of inserts. Alternatively, both ribs and the central channel may be provided by a single insert.

Abstract: Manufacturing a thermoplastic composite tubular structure embedded with a first load fitting comprising the steps of braiding a first plurality of inner layers of thermoplastic composite material around a soluble, expandable mandrel. A first load fitting is positioned on the first plurality of inner layers of thermoplastic composite material. A second plurality of outer layers of thermoplastic composite material is braided around the first load fitting and the mandrel so as to form an overbraided mandrel embedded with the first load fitting. The overbraided mandrel is installed into a matched tooling assembly and heated at a specified heating profile in order to consolidate the first plurality of inner layers of thermoplastic composite material and the second plurality of outer layers of thermoplastic composite material with the first load fitting so as to form a thermoplastic composite tubular structure embedded with the first load fitting.

Abstract: A three-dimensional gap-filled preform and a method of forming a three-dimensional gap-filled preform. The preforms comprise a base section of all integrally woven layers, a portion of that base separated into three sections, the outer two sections comprising integrally woven layers, and the middle section comprising an integrated gap filler. The integrated gap filler may comprise a center section of one woven layer, independently woven layers, integrally woven layers, or a plurality of layers of warp fibers that are not interwoven with weft fibers. The layers of the integrated gap filler compress or crumple up in the middle section and fill the formed gap or gaps, while the woven layers of the outer sections are folded to form the shape of the preform.

Abstract: Certain embodiments are described herein of coatings and articles comprising coatings. In some examples, the coating comprises a textured layer comprising at least one metal or metallic compound. The coating may also comprise a plurality of individual surface features in a micro- or nano-structure size range, wherein the plurality of surface features are positioned in different planes in different heights with respect to a reference zero point in the textured layer. In some instances, there is substantially no space between the plurality of surface features of the textured layer. Methods of producing the coatings are also described.

Abstract: A floor mat and a method of forming thereof, wherein the floor mat includes a backing layer embossed to provide a plurality of nibs extending from a surface of the backing layer while the backing layer remains molten. Each of the nibs is tiered, including a frusto-conical base and a tip extending from the frusto-conical base, the nibs having a maximum diameter in the range of 0.5 to 3.0 mm and an overall height in the range of 1.5 mm to 5 mm. In addition, each nib is located within a column and a row and is offset from at least one other nib present in the column and at least one other nib present in the row.

Abstract: A hollow article such as an active bolster for an automobile is formed of an injection molded panel having a ridge and furrow adjacent a panel perimeter and an injection molded sheet having a bonding section at a sheet outer periphery, wherein the bonding section is within the furrow. An injection molded bond is formed between the bonding section and furrow, wherein a compression area where the sheet overlies a region of the panel adjacent the furrow is configured to constrain the bond to the furrow. An associated process and system facilitates mold alignment, part alignment, material strength, design adaptability, efficient processing, reduced labor, increased production rates, reduced energy consumption per part, aesthetically pleasing surfaces, and reduces or eliminates the need for a separate welding operation.

Abstract: A structure including a base material formed in a predetermined shape, and a lubricating layer formed on the surface of the base material for improving sliding property to a fluid substance, the lubricating layer comprising a liquid and solid particles. The lubricating layer 3 formed on the surface of the base material exhibits very improved sliding property to the fluid substance and enables the structure to be favorably used as a packing material such as container and lid.

Abstract: Boron nitride nanotubes (BNNTs), boron nitride nanoparticles (BNNPs), carbon nontubes (CNTs), graphites, or their combinations, are incorporated into matrices of polymer, ceramic or metals. Fibers, yarns, and woven or nonwoven mates of BNNTs are uses as toughening layers in penetration resistant materials to maximize energy absorption and/or high hardness layers to rebound or deform penetrators. They can be also uses as reinforcing inclusions combining with other polymer matrices to create composite layer like typical reinforcing fibers such as Kevlar®, Spectra®, ceramics and metals. Enhanced wear resistance and prolonged usage time, even under harsh conditions, are achieved by adding boron nitride nanomaterials because both hardness and toughness are increased. Such materials can be used in high temperature environments since the oxidation temperature of BNNTs exceeds 800° C. in air.

Abstract: To provide degassing sheet that exhibits a stable gas venting operation in accordance with different generation amounts of carbon dioxide gas and yet provides a gas venting effect even when an internal pressure of a storage bag is low. A fully-penetrating or semi-penetrating penetrating hole 4 is formed in a gas-permeable film 2A. A paste is coated on a barrier film 2B to form an adhesion layer 3. The gas-permeable film 2A is overlapped onto the adhesion layer 3. Non-adhered portions 3B, forming a striped pattern, are formed continuously in the adhesion layer 3. The non-adhered portions 3B form degassing ports.

Abstract: A composition includes a first layer of surfboard wax and a second layer of sunscreen. The second layer is adhered to the first layer so that the first and second layers are disposed above and below one another. The second layer includes a combination of a wax and an ultraviolet radiation absorber.

Abstract: The present invention relates to the technical field of waterproof materials, and particularly to a high-strength wind-resistant skid-resistant waterproof underlayment. The high-strength wind-resistant skid-resistant waterproof underlayment comprises a first non-woven fabric layer, a first film layer, a first asphalt layer, a gridding cloth layer, a second asphalt layer, a second non-woven fabric layer, a second film layer and a third non-woven fabric layer laminated successively; the first film layer and the second film layer are waterproof elastic films respectively. The object of the present invention is to provide a high-strength wind-resistant skid-resistant waterproof underlayment. The waterproof underlayment formed by structures such as a first film layer and a second film layer and the like can be fixed through nails on a roof made of a wood structure, etc., and the construction is quick, convenient, and labor-saving, and the waterproofness is good.

Abstract: Disclosed is a building board with increased heat and fire resistance. Boards constructed in accordance with this disclosure have lower densities while at the same time containing larger amounts of anti-shrinkage materials. In one embodiment, a board was constructed with a density of less than 1,750 lbs/msf while at the same time including anti-shrinkage additives in amounts greater than 14% by weight of the core material. The inventors have discovered that beneficial, and heretofore unexpected, levels of fire resistance can be achieved by using increased amounts of anti-shrinkage additives in lower density building boards.

Abstract: An aluminum composite panel, containing an aerogel, includes an aerogel composite using a silica aerogel and a thermoplastic resin. A method for manufacturing the same includes providing an aluminum composite panel containing an aerogel, by molding an aerogel composite from a mixture of 1-90 wt % of a silica aerogel and 10-99 wt % of a thermoplastic resin, and then attaching aluminum plates on an upper surface and a lower surface of the aerogel composite, respectively, while an adhesive resin is coated on the upper surface and the lower surface. The aluminum composite panel containing an aerogel, manufactured according to the present invention, has a lower hygroscopic property than the conventional aluminum composite panel, due to the silica aerogel, and thus has an effect of exhibiting excellent adiabatic property and flame retardancy, retains excellent moldability, is light, and has an effect of facilitating a construction work.

Abstract: A component for a machine is disclosed. The component may include an interior frame, a protruding member extending from the interior frame, and a carbon fiber wrapped over the interior frame and around the protruding member. A method of manufacturing a component for a machine is also disclosed. The method may include supplying an interior frame with a protruding member extending from the interior frame. The method may further include wrapping a carbon fiber around the interior frame and the protruding member, and curing the carbon fiber to the interior frame.

Abstract: Disclosed is a laminate including a first metal sheet and an adhesive layer bonded to the first metal sheet, in which the following relationship applies: 1?(Emetal*tmetal)/(Eadh*tadh)?15 (1), where Emetal=tensile Young's modulus of the first metal sheet, tmetal=thickness of the first metal sheet, Eadh=tensile Young's modulus of the adhesive layer, and t=thickness of the adhesive layer. The adhesive layer may include reinforcing fibers. The laminate may be used for providing a fatigue resistant structure, such as an aerospace structure, and shows a high crack growth resistance, in particular near edges of the structure.

Abstract: A laminated glass includes a first glass plate, a second glass plate, and an interlayer interposed between the first glass plate and the second glass plate. The first glass plate includes a first main surface arranged on a side opposite to the interlayer and a second main surface in contact with the interlayer, while the second glass plate includes a third main surface in contact with the interlayer and a fourth main surface arranged on a side opposite to the interlayer. The laminated glass includes a first region located on the first main surface and a second region which is located on the fourth main surface and at least a part of which overlaps the first region in a plane view. The first region and the second region have a given glass-surface smoothness.

Abstract: A laminated plate includes a first and second plates bonded to each other via an intermediate film. The laminated plate further includes a first main surface of the first plate and a fourth main surface of the second plate arranged on sides opposite to the intermediate film, respectively; and a second main surface of the first plate and a third main surface of the second plate being in contact with the intermediate film, respectively. A thickness of the first plate is thicker than a thickness of the second plate. In at least a part of an outer periphery of the laminated plate, on a cross-sectional surface orthogonal to the outer periphery, the first plate has a first linear chamfered part which extends diagonally to the second main surface, and the second plate is located on an inner surface side of an extended line of the first linear chamfered part.

Abstract: A fire-protection pane, including at least one float glass pane with an atmosphere side and with a tin bath side, at least one protective layer, which is arranged in a surfaced manner on the atmosphere side and/or the tin bath side, and at least one fire-protection layer, which is arranged in a surfaced manner on the protective layer. The protective layer is a multi-layer layer structure and includes a first sub-protective-layer of metal-doped silicon nitride, and a second sub-protective-layer of a tin/zinc oxide or a doped tin/zinc oxide.