Product Shape Conceptual Design System
(Topology oprimization + CAD model generation)
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| The organization which has this technology | Quint Corporation |
| Field of application | Machine / electrical parts relation (high rigidity and light weight automobile parts, machine tool structure, general mechanical structure design, structural parts of aircraft, etc.), medical and welfare equipment relation (high rigidity and lightweight robot parts structure etc.) |
| Details |  |
| Test use | Machine tool parts, power assist suit parts, optimization of housing related parts etc. |
Design-System for Thermal/Electromagnetic Wave Control Device Structure
| Feature | For example, a system that supports conceputal design by topology optimization of micro / macro structure based on multiscale analysis, such as generating complicated texture patterns on the surface of shell. It is possible to provide high-function or new-function heat / electromagnetic wave devices that have never been before. |
| In use | Participate in a consortium planned to be established at Kyoto University (after FY 2019) |
| Inquiry |
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| The organization which has this technology | Manufacturing Systems Engineering Laboratory, Graduate School of Engineering, Kyoto University |
| Field of application | Machine / electrical parts relation (thermal control device, electromagnetic wave device, etc.) |
| Details |  |
| Test use | Thermal control device, electromagnetic wave device, etc. |
Nanoparticle Composites Production System
| Feature | The world's first system capable of continuously mass producing integrated particles (composite particles / granules) obtained by electrostatically adsorbing additive particles to base metal particles. It is possible to provide an ultimate mixed raw material powder capable of uniformly introducing nanomaterials. The mixing ratio of particles can be controlled freely. |
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| The organization which has this technology | Process evaluation and analysis laboratory, Toyohashi University of Technology |
| Field of application | Special materials of machinery and electronic parts (such as raw material powder for 3D printers) |
| Details |  |
| Test use | Ceramic powder for 3D printers, ceramics for electronic equipment, mixed powder of polymer pore former, inclined material, etc. |
High resolution, Microscale 3D fabrication system
(multi scale type)
| Feature | We provide apparatuses capable of multiscale fabrication which is difficult to manufacturing by conventional methods. Fabrication apparatus capable of high-definition 3D modeling with a processing line width of submicron to several tens of micrometers (femtosecond pulsed laser method, blue laser method and ultraviolet laser modeling method). Multiscale fabrication apparatus using optical fiber (processing line width 1-980 μm). Not only photocurable resin but also ceramic mixed resin can be used for fabrication. |
| In use | Provided a place for open innovation with Super-3D Fabrication Technology Network (secretariat: Yokohama National University) as the core. Seminar, information provision and technical consultation in progress. It is possible to support enterprises through collaborative research utilizing equipment installed at Yokohama National University. |
| Inquiry |
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| The organization which has this technology | Research Center for the development of super-3D fabrication technology platform, Yokohama National University |
| Field of application | Medical / medical equipment relation (virus detector etc.), micro ceramics parts related |
| Details |  |
| Test use | Micro analytical chip (for separating cell / virus etc.) |
High resolution, Microscale 3D fabrication system
(popular edition)
| Feature | Apparatus capable of fine 3D fabrication with submicron processing line width. Aiming at spreading to companies and research institutions, we adopted inexpensive and compact blue semiconductor lasers. |
| In use | Equipment was installed at Kanagawa Institute of Industrial Science and Technology (KISTEC). We plan to open the public to FabLab Ebina which will be set up in KISTEC even after the end of SIP. |
| Inquiry |
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| The organization which has this technology | Kanagawa Institute of Industrial Science and Technology |
| Field of application | Machinery and Electronic parts related, Medical and Medical parts related |
| Details |  |
| Test use | Addition processing on nanoimprint film, development of new resin material, etc. |
Laser Direct Drawing Apparatus
| Feature | The apparatus capable of laminating metal (Cu) - polymeric real multi material with a pitch of 20 μm or less and a forming area of 2 × 2 × 0.3 mm on the free curved surface in the atmosphere. Continuous drawing of conductors, semiconductors, and nonconductors in a series of processes can be made by changing drawing conditions. (applied to absolute temperature sensor) |
| In use | Off campus shared facilities of Nagoya University |
| Inquiry |
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| The organization which has this technology | |
| Field of application | Medical / Welfare Equipment Relations (Medical Members, Sensors) |
| Details |  |
| Test use | Absolute temperature sensor of surgical simulator etc. |
Multi-scale, Multi-material Forming Apparatus between Different Kind of Polymers
| Feature | Manufacturing technology that can supply products with greatly different mechanical properties for each place on demand by By additive manufacuturing of polymer with a wide range of modulus of elasticity. Manufacturing range 50 mm cubic, manufacturing accuracy 50 μm, elastic modulus range 100 kPa to 1 GPa (10^5 range). |
| In use | Off campus shared facilities of Nagoya University |
| Inquiry |
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| The organization which has this technology | Biorobotics Lab, Nagoya University |
| Field of application | Medical / Welfare Equipment Relations (Medical members) |
| Details |  |
| Test use | Absolute temperature indicator of surgical simulator etc. |
Die-free Hybrid Sheet Forming technology
| Feature | A technology that can mold a plate material of multi material such as Ti, stainless steel and resin plate from a foil shape of 0.2 mm thickness to a 2 mm plate material into a free shape by friction stir incremental forming. By adding friction stirring to conventional incremental forming, various materials such as titanium , which are hardly processed materials, and acrylic resin can be formed into complicated shapes without a mtetalic mold. |
| In use | Using equipment installed at Fukui University, it is possible to support practical application in companies by collaborative research. It is possible to provide original tools and know-how. |
| Inquiry | Otsu/Okada/Miura Lab., Mechanical Engineering, Fukui University |
| The organization which has this technology | Otsu Lab., Fukui University |
| Field of application | Medical / welfare equipment relation (medical parts, various mechanical parts) |
| Details |  |
| Test use | X-ray opaque marker of surgical simulator, cardiac base plate, etc. |
Innovation Forum System
| Feature | With the Japan Society of Mechanical Engineers (JSME) as a hub, we built a web conferencing system that allows unspecified people to exchange information with confidence. Web TV conference, screen sharing, chat function and so on. |
| In use | It can be used through HP (member personal page) of the JSME, and it can be used by members of academic societies and guest users. Pre-registration is necessary for use. |
| Inquiry |
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| The organization which has this technology | The Japan Society of Mechanical Engineers |
| Field of application | Web conference, information exchange tool |
| Details |  |
| Test use | Teleconference at the JSME etc. |
Innovation Conference System
| Feature | A system that enables more convenient holding of various conferences, which are information dissemination and exchange places, by IT. This system has functions such as HP which is easy to newly establish and update, application for conference, creation of program, upload of preliminary manuscript, review, review export draft. |
| In use | We will use it as a basic system of conference of the Japan Society of Mechanical Engineers, but we will also consider selling systems in the future. |
| Inquiry |
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| The organization which has this technology | The Japan Society of Mechanical Engineers |
| Field of application | HP, conference holding support tool |
| Details |  |
| Test use | Preparation and operation of conference at the JSME. |
Platform of Network by Artificial Intelligence for Delight Art(PLANET AIDeA)
| Feature | Just by registering or searching for technical information (seeds) or technical subjects (needs) to be resolved in free format, "needs for seeds" or "seeds for needs" is presented by matching using AI's natural language analysis. |
| In use | It is open to the public on the web free of charge. It can be used continuously even after SIP termination. |
| Inquiry |
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| The organization which has this technology | Nagoya University. MEMS and Micro-Nano Machining Lab. |
| Field of application | Technology matching tool |
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| Test use | Web site published:http://planet-aidea.com/ |
Different materials adhesion technology
(Metal-Japanese lacquer, Resin-Plastic, Resin molded parts-Metal, etc.)
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| In use | We are implementing technology dissemination seminars and joint research centered on participating companies of technology transfer consortium which Iwate University mainly operates. Test use and research and development are conducted at Iwate University and Iwate industrial research institute. Iwate University also supports "empirical research" which is one step before commercialization at the next generation technology demonstration research laboratory. Empirical research close to the on-site scale is possible. |
| Inquiry |
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| The organization which has this technology | Inorganic material chemistry lab., Iwate University |
| Field of application | Machinery and electrical parts relation (automobile parts), medical and welfare equipment relation (medical parts) |
| Details |  |
| Test use | Flow path cassette (rubber - rubber), magnetic sensor connector (metal - resin), tumbler (Japanese lacquer - metal, pottery), flexible thermal conductive composites etc |
Ceramics 3D Printing technology
(Ceramic powder manufacturing/Slurry layer manufacturing)
| Feature | Manufacturing technology suitable for small lot production and prototyping of porous ceramic members. It is possible to realize a shape (especially a hollow shape) impossible to realize by conventional methods. |
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| Inquiry |
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| The organization which has this technology | Structural Materials Research Institute, Chubu, AIST |
| Field of application | Mechanical and electrical parts relation, medical and welfare equipment relation (Ceramics products in general, assuming porous members in particular) |
| Details |  |
| Trial use examples | Ceramics exposure stage for semiconductor manufacturing, ceramic filter, artificial knee joint, bone prosthetic material, ceramic core etc. |
Hybrid Ceramic Coating Technology
(HAD)
| Feature | Improvement of sealing property, corrosion resistance, surface hardness, heat resistance, etc. by a room temperature / low temperature ceramic coating of a three-dimensional object. |
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| Inquiry |
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| The organization which has this technology | Advanced Coating Technology Research Center, Tsukuba, AIST |
| Field of application | Functional parts relation, Machine / electrical parts relation, Medical / welfare equipment relation (structural member, heavy industry, medical member, kitchen member, automobile, energy related member (storage battery, fuel cell, power device mounted)) |
| Details |  |
| Test use | Semiconductor manufacturing member chamber, ceramic seal, frying pan, highly efficient film formation of allophane, denture, smartphone case etc. |
Dispenser Photocurable 3D gel printing system
| Feature | Direct manufacturing of gel objects such as organ models and human body parts is possible! By using "gel which containing water" which can not be achieved with conventional soft materials, it is possible to produce shaped objects that are closer to living tissue. · Resolution: 500 μm, work size: 300 × 300 × 300 mm · Hardness and Softness can be changed. · Multiple materials can be manufactured at the same time. |
| In use | We set up equipment at D-lightmatter which is a venture company from Yamagata University and provide manufacturing services. We are considering selling equipment in the future. |
| Inquiry |
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| The organization which has this technology | D-lightmatter |
| Field of application | Medical / welfare equipment relation (organ model, human body part model, artificial blood vessel, cartilage etc.) |
| Details |  |
| Test use | Human body parts model, intraocular lens, cell culture plate, sealing material, etc. |
Multi-beam Laser Coating Head Apparatus
| Feature | We have developed coating head which heats raw material powder injected from the center with plural laser beams to form a film. As a result, it becomes possible to form a film with high precision, and at the same time, it becomes possible to control the beam profile at the processing point, thereby improving the quality of the film. |
| In use | Sell by Muratani Machine Manufacture Co., Ltd. (Start selling from November, 2016). |
| Inquiry |
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| The organization which has this technology | Muratani Machine Manufacture Co., Ltd. |
| Field of application | Machine / electrical parts relation (fine cladding, machine tool, etc.) |
| Details |  |
| Test use | It is installed in a hybrid processing machine manufactured and sold by Yamazaki Mazak Corporation . |
Multi-beam Direct Injection Laser Coating Apparatus
| Feature | We developed a fine, low distortion, high precision laser coating technology. This makes it possible to apply to the fields of electronic equipment, medical equipment, etc. which have not been applied so far. |
| In use | Osaka University Joining and Welding Research Institute(JWRI) can support practical application in companies in the form of joint research. We have installed apparatus at Industrial Research Institute of Ishikawa(IRII) and can cope with prototyping from companies in the form of technical guidance etc. Furthermore we plan to sell this apparatus from Muratani Machine Manufacture Co., Ltd. from FY 2019. |
| Inquiry |
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| The organization which has this technology | Muratani Machine Manufacture Co., Ltd. |
| Field of application | Machine / electrical parts relation (fine cladding, electronics etc) |
| Details |  |
| Test use | Sheet punching blade, mold repair etc. |
Molten Pool type Laser Coating Technology
| Feature | We succeeded in forming a film with little thermal influence on the base material by the laser coating method with precisely controlled laser heat input and powder supply amount compared to the conventional weld cladding method using arc and the like. |
| In use | Osaka University Joining and Welding Research Institute(JWRI) can support practical application in companies in the form of joint research. In addition, Osaka Fuji Corporation can provide manufacturing contract service. |
| Inquiry |
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| The organization which has this technology | Osaka Fuji Corporation |
| Field of application | Machinery and electrical parts relation (steel industry, paper industry, etc.) |
| Details |  |
| Test use | High resistance to abrasion by coating on screw conveyor, corrosion resistance to pump, coating of duplex stainless steel, etc. |
Laser Coating Simulator:SPLICE
(residual Stress control using Phenomenological modeling for Laser welding repair process In Computational Environment)
| Feature | The world's first simulation code that combines high functionality (evaluation of complicated physics from a laser irradiation to a melting / solidification process considering phase change), versatility (corresponds to arbitrary shape, boundary condition, material, laser irradiation condition, etc.), and multiple functions (corresponds to coating, welding, fusing, drilling, metal stereolithography). For improved convenience, man-machine interface has been improved. |
| In use | We will build a cloud that can use SPLICE at the Applied Laser Technology Instltute of Japan Atomic Enery Agency(JAEA), which is the developer, and plan to offer it to companies. In the future we will also consider selling software and providing contract analysis service. |
| Inquiry |
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| The organization which has this technology | Applied Laser Technology Instltute, JAEA |
| Field of application | Mechanical and electrical parts relation |
| Details |  |
| Test use | It has been utilized for derivation of laser irradiation conditions etc. by multiple institutions. |
Supermetallization technologies
(Optimization of sulfonitriding immersion condition, Heat treatment of stainless steel in Nitrogen atomospere, Nano-grain-diamond high dispersion plating)
| Feature |
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| In user | Nagaoka University of Technology will creates technical documents and will provide it to companies through local public research institute to promote technology transfer. |
| Inquiry |
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| The organization which has this technology | Nagaoka University of Technology |
| Field of application | Mechanical and electrical parts relation (metalic mold for automobile parts production and sliding machine parts) |
| Details |  |
| Test use | Metalic mold (sulphonitriding technology), Metal separator for fuel cell (nitrogen heat treatment technology), chain, wire, cutter screw, scroll (nanoparticle highly dispersed plating) etc. |
Support System to achieve uniform plating thickness
| Feature | In electrolytic plating, it is very important to achieve uniform plating thickness. Conventionally, only the experts devise measures such as shielding plate placement. By using this tool, even less experienced workers can design the optimum placement of the shielding plate within a short period. It provides improved yield, productivity, and also it can be a outstanding training tool to contribute human resource development of electrolytic plating engineers. |
| In use | Utilizing software scheduled for introduction in FY 2018, we will promote the dissemination and deployment of this technology by operating and explaining through local public research institute. |
| Inquiry |
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| The organization which has this technology | Nagaoka University of Technology |
| Field of application | Machine / electrical parts relation (electroplating on mechanical parts) |
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| Test use | Shield plate design in plating process etc. |
Metal Material Characteristics and Shape Control Technologies for Design and Manufacturing
| Feature | 3D manufacturing method for metallic materials for advanced structure that realize "anisotropy" by controlling both shape and material from its various scales such as atomic and microstructured to create unprecedented new functions. |
| In use | Osaka University Anisotropic Design & AM Research Center(OSAKA-ADAM center) has material control technologies and can support practical application in companies in the form of collaborative research. The "custom bone implants for animals", one of the applications of this technology, is being disseminated and deployed by the "Advanced veterinary medicine consortium" established by Osaka Prefecture University. |
| Inquiry |
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| The organization which has this technology | OSAKA-ADAM center |
| Field of application | Machinery and electrical parts relation (energy / aviation materials, devices for communication equipment etc.), medical / welfare equipment relation (biological welfare materials etc.) |
| Details |  |
| test use | Turbine blades, custom animal bone implants, thermoelectric device, etc. |
Minority Analysis Method and Tool
| Feature | The world's first minority analytical method that focuses on minority opinions as a method to extract user needs and derives results that have not been thought out from conventional statistical methods. In particular, it aims at spreading to small and medium enterprises that have not utilized such tools. |
| In use | We are currently conducting test use, but after the end of SIP, we are considering offering as a product planning support service from Panasonic Corp. |
| Inquiry |
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| The organization which has this technology | OSAKA-ADAM center |
| Field of application | Consumer products such as home appliances, miscellaneous goods, daily necessities |
| Details |  |
| Trial use examples | Design analysis of lighting shades and daily necessities |
Super Engineering Plastics 3D Printer Apparatus
| Feature | 3D printing apparatus capable of manufacturing many super engineering plastic parts having a melting point of 300°C. and a tensile strength of more than 80 MPa. Recycling of unsolidified material powder is possible, and material consumption is also small. |
| In use | Aspect, Inc., which is engaged in the development, maintenance and sale of AM equipment, is planning to commercialize apparatus. In the future, it will be set up in the Tokyo Metropolitan Industrial Technology Research Institute and will be serving for small and medium enterprises. |
| Inquiry |
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| The organization which has this technology | LAMS |
| Field of application | Machine / electrical parts relation (structural members, aircraft parts, rocket parts etc.), medical / welfare equipment relation (medical parts, implants, surgical guides, etc.) |
| Details |  |
| Test use | Various implants, dental prostheses, medical equipment (parts requiring steam sterilization) etc are assumed. |
CAD system for Prosthetic Legs Socket
| Feature | CAD system for prosthetic legs incorporating expert knowledge of veteran prosthetic orthotist. Separate the design and manufacture of the prosthetic legs which was done at the same time in the past. By performing the manufacturing with a 3D printer, it is possible to limit the work of the technician to the design using this system, and the working time is reduced to 1/4. By recording and reproducing design data, it is possible to improve the efficiency of education and the training of technicians. |
| In use | Elysium Inc., which is developing various packaged software based on 3 dimensional shape processing and data exchange technology, plan to commercialize the system. |
| Inquiry |
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| The organization which has this technology | Elysium Inc. |
| Field of application | Medical / welfare equipment relation (prostheses / orthotics, wearable devices in general) |
| Details |  |
| Test use | Prosthetic legs |
Polyurethane 3D Printer Apparatus and Dedicated Polyurethane Material
| Feature |
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| In use | We plan to establish a system that can cope with prototyping and test use from companies by placing a prototype apparatus on the Value co-creation platform of Hyogo Prefectural Institute of Technology in FY 2019. We are also considering selling apparatus in the future. |
| Inquiry |
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| The organization which has this technology | Hyogo Prefectural Institute of Technology, Kobe University, Bando Chemical Industries, Ltd., Kobe Material Testig Laboratory Group |
| Field of application | Machinery and electrical parts parts (industrial goods such as seals and electronic parts), medical and welfare equipment relation (sports and nursing care products such as shoe sole and club grip, medical goods such as mouthpiece) |
| Details |  |
| Test use | Outer sole of running shoes |
UV Cross-linked Rubber 3D Printer Apparatus and Dedicated UV Cross-linked Rubber Material
| Feature |
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| In use | We consider the installation of the prototype apparatus on the Value co-creation platform of Hyogo Prefectural Institute of Technology in FY 2019. We are also considering selling apparatus in the future. |
| Inquiry |
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| The organization which has this technology | Hyogo Prefectural Institute of Technology, Kobe University, Sumitomo Rubber Insutries Ltd., Kobe Material Testig Laboratory Group |
| Field of application | Medical care / welfare equipment relation (midsole of running shoes, medical care component, precision rubber part) |
| Details |  |
| Test use | Midsole of running shoes |
Vulcanized rubber 3D Printer Apparatus and Dedicated Vulcanized rubber Material
| Feature | World's first practical vulcanized rubber 3D printer that can be manufactured without metal mold. |
| In use | A prototype machine has already been installed on the Value co-creation platform of Hyogo Prefectural Institute of Technology. We have already established a system that can respond to prototyping and test use from companies. |
| Inquiry |
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| The organization which has this technology | Hyogo Prefectural Institute of Technology |
| Field of application | Medical / welfare equipment relation (inner sole of shoes), mechanical and electrical parts relation (rubber product manufacturing, related field) |
| Details |  |
| Trial use examples | Inner sole of shoes, anti-vibration pad etc. |
Personal Adaptive Design Tools based on Digital Human Engineering and Smart Factory
| Feature |
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| In use | We plan to establish a system that can respond to trial production and test use from enterprises by setting up a tool in Value co-creation platform of Hyogo Prefectural Institute of Technology in FY 2018. |
| Inquiry |
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| The organization which has this technology | Hyogo Prefectural Institute of Technology |
| Field of application | Medical / welfare equipment relation (sporting goods, rehabilitation equipment, elderly correspondence products) |
| Details |  |
| Trial use examples | Running shose |