NEW TECHNOLOGIES FOR 3D PRINTING OF ADVANCED MATERIALS (Q3161266): Difference between revisions

From EU Knowledge Graph
Jump to navigation Jump to search
(‎Changed label, description and/or aliases in en: translated_label)
(‎Removed claim: summary (P836): With THE OBJECTIVE OF MODERNISING AND IMPLEMENTING COMPETITIVITY OF INDUSTRY IN EUROZONA, THE EUROPEAN COMMISSION defined a group of six-six-technological facilitators, TFE (MICRO AND ELECTRONIC NANO, BIOTECHNOLOGY, NANOTECNOLOGY, advanced MATERIALS, PHOTONICAL AND ADVANCED FABRICATION TECHNOLOGIES) that should be the engine in the development of new knowledge and tools that allow the great speeds to be absorbed by society in the years._x000D_...)
Property / summary
With THE OBJECTIVE OF MODERNISING AND IMPLEMENTING COMPETITIVITY OF INDUSTRY IN EUROZONA, THE EUROPEAN COMMISSION defined a group of six-six-technological facilitators, TFE (MICRO AND ELECTRONIC NANO, BIOTECHNOLOGY, NANOTECNOLOGY, advanced MATERIALS, PHOTONICAL AND ADVANCED FABRICATION TECHNOLOGIES) that should be the engine in the development of new knowledge and tools that allow the great speeds to be absorbed by society in the years._x000D_ in the last years, the IMPACT AND THE UTILISATION OF ADITIVE FABRICATION (FA) has been increased year after year due to its POTENTIAL enormity, BEFORE the point of being considered as a key technology in the RUTA sheet of the H2020-FACTORIES OF THE FUTURE PROGRAMME. THIS TECHNOLOGY WILL ALLOW THE MANUFACTURE OF PRODUCTS WITH BETTER PERFORMANCE TO INCREASE THE PRODUCTIVITY AND EFFICIENCY OF THE INDUSTRY. In this connection, the NET3D+ COORDINED PROJECT is aligned in the EU’s FUTURE STRATEGY._x000D_ THE PRINCIPAL OBJECT OF THE PROJECT CONSISTS IN THE DESIGN AND DEVELOPMENT OF A MULTIMATERIAL HYBRID ADITIVE TECHNOLOGY, which will permit the development of improved and high-valored provisions based on DIRECT INK Writting (DIW) or DIGITAL LIGHT PROCESSING (DLP) systems._x000D_ to reach the right objective of this MULTIDISCIPLINAR INVESTIGATION PROJECT will be incorporated into the GEOMETRIC Ilimitations supported by FA, use of OPTIMISATION PROCESSES BASED IN THE METHOD OF Finite ELEMENTS AND IN THE DEVELOPMENT OF ADVANCED MATERIAL DIFFERENT TINTS._x000D_ IN A FIRST ETAPA shall be departed from existing and used in the environment of the aditiative manufacturing, primarily PHOTOSENSIBLE RESINATS, which will be reinforced by MICRO-nanoparticulate DISTINTS AND FIBRAS, ADVANCED MATERIALS IN 3D, WITH Improved PHISIC PROPERTY. For it will be formulated and optimised the DIW MULTIMATERIAL TIFERENTS and 3D IMPRESION will be used by means of DLP, AND THAT IS THE TECHNOLOGY that uses SYSTEM OF CURADO MEDIENT LIGHTS and can thus be able to control the utility of the different TINTS FORMULATES._x000D_ IN A SECOND ETAPA will be designed and developed DIW MULTIMATERIAL TECHNOLOGY, complemented by COPLATE LIGHT EMISSION SYSTEMS, FOR THE IMPRESION OF TINTS OF MATERIAL DIFFERENTS (polymers, METALs, CERAMICS and COMPUESTS), BASED in polymers AND/or PHOTOSENSIBLE RESINS, WHEN THE MATERIAL AND THE DISPOSITIVO REQUIREED. The STRATEGY FOR THE FORMULATION OF TINTS will vary in the function of the MATERIAL COMBINATION._x000D_ We will study interesting and potentially interesting cases and applications for industry, as strengthened for pharmaceutical products, MICRO-Nanoporous STRUCTURES OF TITANIO OXIDO WITH HIGH Catalitic ACTIVITY, FUNDATION and microelectronic MICRO-Nanoporous STRUCTURES IMPRESS FOR SENSORS OR RADIOFRECUENCE, BETTER OTHERS_x000D_ parallelly, shall be characterised PHYSIC-CHIMICAL PROPERTY OF DIFFERENT TINTS, the POSTERIAL PROCESSES to OTHER MATERIALS ADDED WITH THE GEOMETRY DESIGNED IN THE FUNCTION OF THE APPLICATION._x000D_ ULTIMO, are going to defy the type of models used by the MATERIAL to be used in a simplification. by means of the methodology of finite elements for the modification of improved new materials, allowing for a GEOMETRIC OPTIMISATION OF PIECES. (English)
 
Property / summary: With THE OBJECTIVE OF MODERNISING AND IMPLEMENTING COMPETITIVITY OF INDUSTRY IN EUROZONA, THE EUROPEAN COMMISSION defined a group of six-six-technological facilitators, TFE (MICRO AND ELECTRONIC NANO, BIOTECHNOLOGY, NANOTECNOLOGY, advanced MATERIALS, PHOTONICAL AND ADVANCED FABRICATION TECHNOLOGIES) that should be the engine in the development of new knowledge and tools that allow the great speeds to be absorbed by society in the years._x000D_ in the last years, the IMPACT AND THE UTILISATION OF ADITIVE FABRICATION (FA) has been increased year after year due to its POTENTIAL enormity, BEFORE the point of being considered as a key technology in the RUTA sheet of the H2020-FACTORIES OF THE FUTURE PROGRAMME. THIS TECHNOLOGY WILL ALLOW THE MANUFACTURE OF PRODUCTS WITH BETTER PERFORMANCE TO INCREASE THE PRODUCTIVITY AND EFFICIENCY OF THE INDUSTRY. In this connection, the NET3D+ COORDINED PROJECT is aligned in the EU’s FUTURE STRATEGY._x000D_ THE PRINCIPAL OBJECT OF THE PROJECT CONSISTS IN THE DESIGN AND DEVELOPMENT OF A MULTIMATERIAL HYBRID ADITIVE TECHNOLOGY, which will permit the development of improved and high-valored provisions based on DIRECT INK Writting (DIW) or DIGITAL LIGHT PROCESSING (DLP) systems._x000D_ to reach the right objective of this MULTIDISCIPLINAR INVESTIGATION PROJECT will be incorporated into the GEOMETRIC Ilimitations supported by FA, use of OPTIMISATION PROCESSES BASED IN THE METHOD OF Finite ELEMENTS AND IN THE DEVELOPMENT OF ADVANCED MATERIAL DIFFERENT TINTS._x000D_ IN A FIRST ETAPA shall be departed from existing and used in the environment of the aditiative manufacturing, primarily PHOTOSENSIBLE RESINATS, which will be reinforced by MICRO-nanoparticulate DISTINTS AND FIBRAS, ADVANCED MATERIALS IN 3D, WITH Improved PHISIC PROPERTY. For it will be formulated and optimised the DIW MULTIMATERIAL TIFERENTS and 3D IMPRESION will be used by means of DLP, AND THAT IS THE TECHNOLOGY that uses SYSTEM OF CURADO MEDIENT LIGHTS and can thus be able to control the utility of the different TINTS FORMULATES._x000D_ IN A SECOND ETAPA will be designed and developed DIW MULTIMATERIAL TECHNOLOGY, complemented by COPLATE LIGHT EMISSION SYSTEMS, FOR THE IMPRESION OF TINTS OF MATERIAL DIFFERENTS (polymers, METALs, CERAMICS and COMPUESTS), BASED in polymers AND/or PHOTOSENSIBLE RESINS, WHEN THE MATERIAL AND THE DISPOSITIVO REQUIREED. The STRATEGY FOR THE FORMULATION OF TINTS will vary in the function of the MATERIAL COMBINATION._x000D_ We will study interesting and potentially interesting cases and applications for industry, as strengthened for pharmaceutical products, MICRO-Nanoporous STRUCTURES OF TITANIO OXIDO WITH HIGH Catalitic ACTIVITY, FUNDATION and microelectronic MICRO-Nanoporous STRUCTURES IMPRESS FOR SENSORS OR RADIOFRECUENCE, BETTER OTHERS_x000D_ parallelly, shall be characterised PHYSIC-CHIMICAL PROPERTY OF DIFFERENT TINTS, the POSTERIAL PROCESSES to OTHER MATERIALS ADDED WITH THE GEOMETRY DESIGNED IN THE FUNCTION OF THE APPLICATION._x000D_ ULTIMO, are going to defy the type of models used by the MATERIAL to be used in a simplification. by means of the methodology of finite elements for the modification of improved new materials, allowing for a GEOMETRIC OPTIMISATION OF PIECES. (English) / rank
Normal rank
 
Property / summary: With THE OBJECTIVE OF MODERNISING AND IMPLEMENTING COMPETITIVITY OF INDUSTRY IN EUROZONA, THE EUROPEAN COMMISSION defined a group of six-six-technological facilitators, TFE (MICRO AND ELECTRONIC NANO, BIOTECHNOLOGY, NANOTECNOLOGY, advanced MATERIALS, PHOTONICAL AND ADVANCED FABRICATION TECHNOLOGIES) that should be the engine in the development of new knowledge and tools that allow the great speeds to be absorbed by society in the years._x000D_ in the last years, the IMPACT AND THE UTILISATION OF ADITIVE FABRICATION (FA) has been increased year after year due to its POTENTIAL enormity, BEFORE the point of being considered as a key technology in the RUTA sheet of the H2020-FACTORIES OF THE FUTURE PROGRAMME. THIS TECHNOLOGY WILL ALLOW THE MANUFACTURE OF PRODUCTS WITH BETTER PERFORMANCE TO INCREASE THE PRODUCTIVITY AND EFFICIENCY OF THE INDUSTRY. In this connection, the NET3D+ COORDINED PROJECT is aligned in the EU’s FUTURE STRATEGY._x000D_ THE PRINCIPAL OBJECT OF THE PROJECT CONSISTS IN THE DESIGN AND DEVELOPMENT OF A MULTIMATERIAL HYBRID ADITIVE TECHNOLOGY, which will permit the development of improved and high-valored provisions based on DIRECT INK Writting (DIW) or DIGITAL LIGHT PROCESSING (DLP) systems._x000D_ to reach the right objective of this MULTIDISCIPLINAR INVESTIGATION PROJECT will be incorporated into the GEOMETRIC Ilimitations supported by FA, use of OPTIMISATION PROCESSES BASED IN THE METHOD OF Finite ELEMENTS AND IN THE DEVELOPMENT OF ADVANCED MATERIAL DIFFERENT TINTS._x000D_ IN A FIRST ETAPA shall be departed from existing and used in the environment of the aditiative manufacturing, primarily PHOTOSENSIBLE RESINATS, which will be reinforced by MICRO-nanoparticulate DISTINTS AND FIBRAS, ADVANCED MATERIALS IN 3D, WITH Improved PHISIC PROPERTY. For it will be formulated and optimised the DIW MULTIMATERIAL TIFERENTS and 3D IMPRESION will be used by means of DLP, AND THAT IS THE TECHNOLOGY that uses SYSTEM OF CURADO MEDIENT LIGHTS and can thus be able to control the utility of the different TINTS FORMULATES._x000D_ IN A SECOND ETAPA will be designed and developed DIW MULTIMATERIAL TECHNOLOGY, complemented by COPLATE LIGHT EMISSION SYSTEMS, FOR THE IMPRESION OF TINTS OF MATERIAL DIFFERENTS (polymers, METALs, CERAMICS and COMPUESTS), BASED in polymers AND/or PHOTOSENSIBLE RESINS, WHEN THE MATERIAL AND THE DISPOSITIVO REQUIREED. The STRATEGY FOR THE FORMULATION OF TINTS will vary in the function of the MATERIAL COMBINATION._x000D_ We will study interesting and potentially interesting cases and applications for industry, as strengthened for pharmaceutical products, MICRO-Nanoporous STRUCTURES OF TITANIO OXIDO WITH HIGH Catalitic ACTIVITY, FUNDATION and microelectronic MICRO-Nanoporous STRUCTURES IMPRESS FOR SENSORS OR RADIOFRECUENCE, BETTER OTHERS_x000D_ parallelly, shall be characterised PHYSIC-CHIMICAL PROPERTY OF DIFFERENT TINTS, the POSTERIAL PROCESSES to OTHER MATERIALS ADDED WITH THE GEOMETRY DESIGNED IN THE FUNCTION OF THE APPLICATION._x000D_ ULTIMO, are going to defy the type of models used by the MATERIAL to be used in a simplification. by means of the methodology of finite elements for the modification of improved new materials, allowing for a GEOMETRIC OPTIMISATION OF PIECES. (English) / qualifier
point in time: 12 October 2021
Timestamp+2021-10-12T00:00:00Z
Timezone+00:00
CalendarGregorian
Precision1 day
Before0
After0
 

Revision as of 17:21, 12 October 2021

Project Q3161266 in Spain
Language Label Description Also known as
English
NEW TECHNOLOGIES FOR 3D PRINTING OF ADVANCED MATERIALS
Project Q3161266 in Spain

    Statements

    country
    Spain
    0 references
    EU contribution
    16,577.0 Euro
    0 references
    budget
    33,154.0 Euro
    0 references
    co-financing rate
    50.0 percent
    0 references
    start time
    30 December 2016
    0 references
    end time
    29 December 2019
    0 references
    beneficiary name (string)
    UNIVERSIDAD POLITECNICA DE CATALUÑA
    0 references
    beneficiary
    Q3135316
    0 references
    coordinate location

    41°22'58.40"N, 2°10'38.75"E
    0 references
    postal code
    08019
    0 references
    summary
    CON EL OBJETIVO DE MODERNIZAR Y AUMENTAR LA COMPETITIVIDAD DE LA INDUSTRIA EN LA EUROZONA, LA COMISION EUROPEA DEFINIO UN GRUPO DE SEIS TECNOLOGIAS FACILITADORAS ESENCIALES, TFE (MICRO Y NANO ELECTRONICA, BIOTECNOLOGIA, NANOTECNOLOGIA, MATERIALES AVANZADOS, FOTONICA Y TECNOLOGIAS DE FABRICACION AVANZADA) QUE DEBEN SER EL MOTOR EN EL DESARROLLO DE NUEVOS CONOCIMIENTOS Y HERRAMIENTAS QUE PERMITAN ABORDAR LOS GRANDES RETOS QUE SE ENFRENTA LA SOCIEDAD EN LOS PROXIMOS AÑOS._x000D_ EN LOS ULTIMOS AÑOS, EL IMPACTO Y LA UTILIZACION DE LA FABRICACION ADITIVA (FA) HA IDO AUMENTADO AÑO TRAS AÑO DEBIDO A SU ENORME POTENCIAL, HASTA AL PUNTO DE SER CONSIDERADA COMO UNA TECNOLOGIA CLAVE EN LA HOJA DE RUTA DEL PROGRAMA H2020-FACTORIES OF THE FUTURE. ESTA TECNOLOGIA VA A PERMITIR LA FABRICACION DE PRODUCTOS CON MEJORES PRESTACIONES PARA AUMENTAR LA PRODUCTIVIDAD Y EFICACIA DE LA INDUSTRIA. EN ESTE CONTEXTO, EL PROYECTO COORDINADO NET3D+ SE ALINEA EN LA ESTRATEGIA DE FUTURO DEFINIDO POR LA UE._x000D_ EL OBJETIVO PRINCIPAL DEL PROYECTO CONSISTE EN EL DISEÑO Y DESARROLLO DE UNA TECNOLOGIA ADITIVA HIBRIDA MULTIMATERIAL, QUE PERMITA LA FABRICACION DE DISPOSITIVOS CON PRESTACIONES MEJORADAS Y DE ALTO VALOR AÑADIDO, BASANDOSE EN SISTEMAS DE DIRECT INK WRITTING (DIW) O DIGITAL LIGHT PROCESSING (DLP)._x000D_ PARA ALCANZAR DICHO OBJETIVO ESTE PROYECTO DE INVESTIGACION MULTIDISCIPLINAR SE VA A CENTRAR EN LAS ILIMITACIONES GEOMETRICAS APORTADAS POR LA FA, EL USO DE PROCESOS DE OPTIMIZACION BASADA EN EL METODO DE LOS ELEMENTOS FINITOS Y EN EL DESARROLLO DE TINTAS IMPRIMIBLES DE DIFERENTES MATERIALES AVANZADOS._x000D_ EN UNA PRIMERA ETAPA SE PARTIRA DE MATERIALES ACTUALES EXISTENTES Y UTILIZADOS EN EL AMBITO DE LA FABRICACION ADITIVA, PRINCIPALMENTE RESINAS FOTOSENSIBLES, QUE SE REFORZARAN MEDIANTE DISTINTAS MICRO-NANOPARTICULAS Y FIBRAS, OBTENIENDO MATERIALES AVANZADOS IMPRIMIBLES EN 3D, CON UNAS PROPIEDADES FISICAS MEJORADAS. PARA ELLO SE FORMULARAN Y OPTIMIZARAN LAS DIFERENTES TINTAS Y SE UTILIZARA IMPRESION 3D POR MEDIO DE DLP, YA QUE ES LA TECNOLOGIA QUE UTILIZA SISTEMA DE CURADO MEDIANTE LUZ Y ASI PODER VALIDAR LA UTILIDAD DE LAS DIFERENTES TINTAS FORMULADAS._x000D_ EN UNA SEGUNDA ETAPA SE DISEÑARA Y DESARROLLARA LA TECNOLOGIA DE DIW MULTIMATERIAL, COMPLEMENTADA CON SISTEMAS DE EMISION DE LUZ ACOPLADOS, PARA LA IMPRESION DE TINTAS DE DIFERENTES MATERIALES (POLIMEROS, METALES, CERAMICOS Y COMPUESTOS), BASADAS EN POLIMEROS Y/O RESINAS FOTOSENSIBLES, CUANDO EL MATERIAL Y EL DISPOSITIVO LO REQUIERA. LA ESTRATEGIA PARA LA FORMULACION DE LAS TINTAS VARIARA EN FUNCION DE LA COMBINACION DE MATERIALES._x000D_ SE ESTUDIARAN CASOS Y APLICACIONES POTENCIALMENTE INTERESANTES PARA LA INDUSTRIA, COMO BIOMATERIALES REFORZADOS PARA ANDAMIOS EN REGENERACION DE TEJIDOS, ESTRUCTURAS MICRO-NANOPOROSAS DE OXIDO DE TITANIO CON ALTA ACTIVIDAD CATALITICA, MOLDES DE COQUILLA PARA FUNDICION Y MICROELECTRONICA IMPRESA PARA SENSORES O RADIOFRECUENCIA, ENTRE OTROS_x000D_ PARALELAMENTE, SE CARACTERIZARAN LAS PROPIEDADES FISICO-QUIMICAS DE LAS DIFERENTES TINTAS IMPRIMIBLES, SE OPTIMIZARAN LOS PARAMETROS DE IMPRESION Y, EN CASO NECESARIO, LOS PROCESOS POSTERIORES PARA OBTENER LOS MATERIALES ADECUADOS CON LA GEOMETRIA DESEADA EN FUNCION DE LA APLICACION._x000D_ POR ULTIMO, SE VAN A DEFINIR EL TIPO DE MODELOS CONSTITUTIVOS DEL MATERIAL A UTILIZAR EN UNA SIMULACION MEDIANTE EL METODO DE LOS ELEMENTOS FINITOS PARA MODELIZAR LOS NUEVOS MATERIALES MEJORADOS, PERMITIENDO UNA OPTIMIZACION GEOMETRICA DE LAS PIEZAS. (Spanish)
    0 references
    location (string)
    Barcelona
    0 references

    Identifiers

    Spanish Kohesio ID
    DPI2016-80119-C3-2-R
    0 references
     
    Retrieved from "https://linkedopendata.eu/w/index.php?title=Item:Q3161266&oldid=12835046"