MONICA FERRARIS

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Full Professor

Member of Interdepartmental Center (J-Tech@PoliTO)

+39 0110904687 / 4687 (DISAT)

Personal web site

Institute Institute of Materials Physics and Engineering
Research groups/teams GLANCE - Glasses Ceramics and Composites
Laboratories
Research projects

Funded by competitive calls

  • Antimicrobial/virucidal PVD coatings for automotive, (2021-2022) - Responsabile Scientifico

    Corporate-funded and donor-funded research

    ERC sectors

    PE5_6 - New materials: oxides, alloys, composite, organic-inorganic hybrid, nanoparticles

    Abstract

    POLITO developed an antibacterial/virucidal coating demonstrated to be effective against bacteria, fungi and some respiratory viruses, SARS-CoV-2 included. The antibacterial/virucidal coating can be applied by sputtering on every substrate: polymers, glasses, metals, textiles.Technical challenge is to test it for automotive applications: air filters, textiles, internal parts.

    Countries

    • ITALIA

    Departments

  • MAGIC - Development of antibacterial MetAllic Glass mICrofibers, (2020-2022) - Responsabile Scientifico

    UE-funded research - H2020 - Excellent Science - Marie Curie

    View project record on CORDIS

    Abstract

    The proposed training-through-research aims to develop novel antibacterial materials for medical devices based on Zr-Cu-Ag metallic glasses in the form of microfibers. The major cause of metal implants retrieval is infection due to bacterial biofilm formation on their surface. Many studies have been conducted on the development of antibacterial coating on metallic implants, but evidence has shown numerous drawbacks associated with coatings including their lack of durability. MAGIC project proposes the development of Zr-Cu-Ag metallic glasses with generic and intrinsic antibacterial properties which makes them capable of battling antibiotic resistance bacterial infection with no further required coating. Meaningful development of this novel class of intrinsic antibacterial metals requires a fundamental understanding of their antibacterial mechanism which to date is not well-understood. Therefore, MAGIC project fundamental ambition is to discover the underlying antibacterial mechanism of innovative Zr-Cu-Ag metallic glasses though a novel interdisciplinary approach, combing materials engineering knowledge of metallic glasses with advanced biological analysis of bacteria. On the engineering side, the main antibacterial contributors chemical composition and surface energy of Zr-Cu-Ag metallic glass will be modified and controlled; On the biological analysis side, bacterial genetic and metabolic response to these changes will be studied by coupling basic metabolic assays with next-generation sequencing and omics techniques. Furthermore, to facilitate the integration of antibacterial metallic glasses in the medical industry, MAGIC has an applied ambition to fabricate the best found Zr-Cu-Ag metallic glass (in terms of chemical composition and surface energy) in the form of microfibers for the very first time. Microfibers have higher surface areas and are easier to be formed into different shapes, offering added value to their applicability in industry.

    Countries

    • ITALIA

    Departments

  • Novel Ceramic Matrix Composites produced with Microwave assisted Chemical Vapour Infiltration process for energy-intensive industries, (2020-2024) - Componente gruppo di Ricerca

    UE-funded research - H2020 - Industrial Leadership – LEIT - NANOTECHNOLOGIES

    View project record on CORDIS

    ERC sectors

    PE8_8 - Materials engineering (metals, ceramics, polymers, composites, etc.)

    SDG

    Obiettivo 9. Costruire un'infrastruttura resiliente e promuovere l'innovazione ed una industrializzazione equa, responsabile e sostenibile

    Abstract

    The European Green Deal aims at Europe as the first climate-neutral continent by 2050. Research and innovation on technologies allowing intense exploitation of renewable energy is paramount. Renewable energy sources are, for their very nature, fluctuating, and potentially generating extreme conditions. Adaptation and optimisation of current processes to changes caused by increased use of renewable energy sources is particularly important in energy-intensive industries. Novel materials are needed to sustain conditions, such as higher temperatures and corrosive environments and, at the same time, guarantee energy efficiency and high-performances.Materials potentially able to withstand such extreme conditions keeping excellent thermo-mechanical properties already exist, but are currently used only in sectors such as aerospace due to the high production costs: Ceramic Matrix Composites (CMCs).In CEM-WAVE we aim at introducing an innovative CMC production process, based on Microwave-assisted Chemical Vapour Infiltration (MW-CVI) technologies. This novel proposed process will extremely reduce processing costs, thus making CMCs sustainable for process industries in energy-intensive sectors such as steelmaking. In more detail, CEM-WAVE aims at validating, in a radiant tube furnace, a small scale CMC-based tube embedded with sensors, substituting Inconel/Stainless steel alloys currently employed. The research and innovation work will be flanked by Artificial Intelligence (AI)-aided modelling research to predict the material behaviour, and will develop innovative joining and coating technologies to produce complex shaped components and further improving their high-temperature corrosion resistance. Life-Cycle Assessment (LCA), Life-Cycle Costing (LCC) and Thermoeconomic Analysis (TA) will guarantee that the project follows at every step the best directions in term of sustainability and future market uptake of the generated results.

    Countries

    • Germania
    • Regno Unito
    • Italia
    • Spagna
    • Francia

    Institutes/Companies

    • FRAUNHOFER GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V.
    • THE UNIVERSITY OF BIRMINGHAM
    • FRICKE UND MALLAH MICROWAVE TECHNOLOGY GMBH
    • AGENZIA NAZIONALE PER LE NUOVE TECNOLOGIE, L'ENERGIA E LO SVILUPPO ECONOMICO SOSTENIBILE
    • KNEIA SL
    • CONSIGLIO NAZIONALE DELLE RICERCHE
    • ARCHER TECHNICOAT LIMITED
    • POLITECNICO DI TORINO
    • ARCELORMITTAL INNOVACION INVESTIGACION E INVERSION SL
    • STEINBEIS ADVANCED RISK TECHNOLOGIES GMBH
    • CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
    • IRIS TECHNOLOGY SOLUTIONS, SOCIEDAD LIMITADA

    Departments

  • Poc Instrument_Ferraris, (2020-2021) - Responsabile Scientifico

    Corporate-funded and donor-funded research

    ERC sectors

    PE8_7 - Mechanical and manufacturing engineering (shaping, mounting, joining, separation) PE5_3 - Surface modification

    Abstract

    L’obiettivo della presente proposta progettuale è la realizzazione di due prototipi di componenti giuntati (figura 1) costituiti da compositi fibrorinforzati a matrice polimerica (CFRP) con giunzione ad elevata resistenza meccanica, tramite l’applicazione e lo sviluppo di una tecnologia di modifica superficiale recentemente brevettata. La presente invenzione riguarda i compositi fibrorinforzati a matrice polimerica (CFRP) ed un processo di attacco acido per modificarne la superficie senza interrompere la continuità delle fibre, consentendo un miglioramento dell’adesione del materiale di giunzione (o del materiale di rivestimento) e di conseguenza l’ottenimento di una giunzione con resistenza meccanica migliorata (o un rivestimento con adesione migliorata).La presente invenzione trova applicazioni vantaggiose in campo aeronautico e aerospaziale, nautico, automobilistico, ma anche biomedico, in generale, laddove sia richiesta una giunzione (od un rivestimento) di un materiale composito a matrice polimerica. La tecnologia proposta, inoltre, è a basso impatto ambientale poiché i reagenti richiesti vengono utilizzati in dosi minime e riutilizzati più volte.Nella presente proposta progettuale si intende sfruttare la tecnologia di modifica superficiale tramite attacco acido per la realizzazione di due prototipi di componenti giuntati a base CFRP con potenziale applicazione nel settore nautico ed aerospaziale, in cui è richiesta un’elevata resistenza meccanica delle giunzioni.Il progetto si articola in diverse attività sperimentali per la definizione e lo sviluppo dei prototipi e ad alcune attività volte alla promozione e divulgazione della tecnologia.

    Countries

    • ITALIA

    Departments

  • STUDIO, PROGETTAZIONE E SVILUPPO DI UNA NUOVA GAMMA DI ELETTRODOMESTICI CARATTERIZZATA DA TECNOLOGIE INNOVATIVE MIRATE AD UNA NOTEVOLE RIDUZIONE DEI CONSUMI ENERGETICI E DELL’IMPATTO AMBIENTALE, (2009-) - Responsabile Scientifico

    Nationally funded research

    Countries

    • ITALIA

    Institutes/Companies

    • C.N.R. - CONSIGLIO NAZIONALE DELLE RICERCHE
    • STMICROELECTRONICS S.R.L.
    • POLITECNICO DI MILANO
    • POLITECNICO DI TORINO - AMMINISTRAZIONE CENTRALE
    • WHIRLPOOL EMEA S.P.A.
    • Ministero dello Sviluppo Economico
    • ENEA - Agenzia Nazionale per le Nuove Tecnologie, l'Energia e lo Sviluppo Economico Sostenibile
    • CETMA - CENTRO DI PROGETTAZIONE, DESIGN E TECNOLOGIE DEI MATERIALI -
    • SYNOPSIS CONSULTING SRL
    • MECCANO SPA
    • ALTER SRL
    • BENCO SPA
    • FERIOLI FILIPPO S.P.A
    • TEKNISOL SRL
    • STE S.A.S DI G. MOIRAGHI &amp
    • C

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • ODUPE- OPTICAL DEVICES USING PHOTOSENSIVITY FOR THEIR ELABORATION, (2000-) - Responsabile Scientifico

    UE-funded research - VPQ - IMPROVING

    Countries

    • FRANCIA
    • ITALIA

    Institutes/Companies

    • UNIVERSITE PARIS-SUD 11
  • CONFIDENTIAL INFORMATION EXCHANGE AGREEMENT - PROPOSTA VIRGIN (IP-IST-VIPQ), (unknown date-unknown date) - Responsabile Scientifico

    UE-funded research

    Countries

    • FRANCIA
    • ITALIA

    Institutes/Companies

    • UNIVERSITÉ D'AIX MARSEILLE II - FRANCIA -
  • Laboratorio per l'Integrità Strutturale di Materiali e Giunzioni e materiali sottoposti a Carichi Dinamici, (2018-2021) - Responsabile Scientifico

    Regionally funded research

    Abstract

    Obiettivo dell’IR è la creazione di una struttura di riferimento per la valutazione dell’integrità strutturale di giunzioni emateriali innovativi sottoposti a carichi dinamici.Come testimoniano le manifestazioni d’interesse di aziende ed enti, l’IR rivestirà un ruolo primario nella ricercainternazionale e svolgerà un efficace e necessario ruolo di supporto al tessuto industriale nell’indirizzare lo sviluppo digiunzioni e materiali innovativi per applicazioni strutturali in ambiti diversi legati alla meccanica in generale, qualil’automotive, l’aerospazio, la meccatronica, il ferroviario, il navale, l’energetico e la difesa.Il controllo non distruttivo della difettosità interna di giunzioni e materiali e la valutazione della loro risposta sperimentale inpresenza di carichi ciclici e dinamici estremi saranno le peculiarità uniche dell’IR che le consentiranno di diventare, neglianni, un polo d’attrazione per finanziamenti derivanti da collaborazioni con aziende e progetti di ricerca.

    Countries

    • ITALIA

    Departments

    • Ricerca
    • Trasferimento Tecnologico e Relazioni con l'Industria
  • Mechanical characterization of Hybrid Joints for Microscale Simulation JOI-MICROSIM, (2018-2018) - Responsabile Scientifico

    Corporate-funded and donor-funded research

    Abstract

    Cluster: New materials for lightening and recycling

    Countries

    • ITALIA

    Institutes/Companies

    • FCA Italy S.p.A.

    Departments

  • IL TROVATORE - Innovative cladding materials for advanced accident-tolerant energy systems, (2017-2022) - Responsabile Scientifico

    UE-funded research - H2020 - Euratom

    View project record on CORDIS

    Abstract

    The Fukushima Daiichi event has demonstrated the need for improved nuclear energy safety, which can be ensured by the development of accident-tolerant fuels (ATFs). ATFs are expected to overcome the inherent technical shortcomings of the standard zircaloy/UO2 fuels, thus relieving the industry from the huge financial penalty associated with beyond-design-basis accidents leading to fuel cladding material failure and release of radioactive fission products to the power plant containment and the environment. The main objective of IL TROVATORE is to identify the best candidate ATF cladding materials for use in Gen-II and Gen-III/III LWRs and to validate them in an industrially-relevant environment, i.e., under neutron irradiation in PWR-like water. Ideally, fuel cladding materials must demonstrate leak tightness and containment of fuel pellets and fission products during the fuel residence in the reactor, even under transient/accidental operation conditions. The innovative ATF cladding material concepts proposed in IL TROVATORE are expected to demonstrate significant improvement in performance when compared to the current fuel cladding materials, thus helping to take a critical step towards an improved energy safety worldwide, in response to the requirements of the amended Nuclear Safety Directive. The development of ATF clads will eliminate redundant safety systems, improving the market profile of current reactor designs, and the overall envisaged innovation will strengthen the competitiveness of European industries in both nuclear and non-nuclear sectors. To achieve its ambitious objectives, IL TROVATORE relies on academic excellence and industrial support, while also involving standardization bodies and nuclear safety regulatory authorities to accelerate the transfer of key innovation to market. Since IL TROVATORE is put forth to address a pressing global challenge, it is presented as an international collaboration between Europe, the USA and Japan.

    Countries

    • Svezia
    • Regno Unito
    • Francia
    • Germania
    • Giappone
    • Belgio
    • Italia
    • Stati Uniti d'America

    Institutes/Companies

    • LINKOPINGS UNIVERSITET
    • WESTINGHOUSE ELECTRIC SWEDEN AB
    • THE CHANCELLOR MASTERS AND SCHOLARS OF THE UNIVERSITY OF CAMBRIDGE
    • KUNGLIGA TEKNISKA HOEGSKOLAN
    • THE UNIVERSITY OF MANCHESTER
    • IMPERIAL COLLEGE OF SCIENCE TECHNOLOGY AND MEDICINE
    • ELECTRICITE DE FRANCE
    • RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN
    • ASSOCIATION FRANCAISE DE NORMALISATION
    • ROLLS-ROYCE POWER ENGINEERING PLC
    • PLANSEE COMPOSITE MATERIALS GmbH
    • COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
    • NATIONAL NUCLEAR LABORATORY LIMITED
    • KOKURITSU DAIGAKU HOJIN KYOTO DAIGAKU
    • GESELLSCHAFT FUR TECHNISCHE THERMOCHEMIE UND-PHYSIK MIT BESCHRANKTER HAFTUNG
    • DEUTSCHES ZENTRUM FUR LUFT - UND RAUMFAHRT EV
    • STUDIECENTRUM VOOR KERNENERGIE / CENTRE D'ETUDE DE L'ENERGIE NUCLEAIRE
    • UNIVERSITE DE POITIERS
    • FONDAZIONE ISTITUTO ITALIANO DI TECNOLOGIA
    • KARLSRUHER INSTITUT FUER TECHNOLOGIE
    • HELMUT SCHMIDT UNIVERSITAT UNIVERSITAT DER BUNDESWEHR HAMBURG
    • POLITECNICO DI TORINO
    • AKTIEBOLAGET SANDVIK MATERIALSTECHONOLOGY
    • ECOLE NORMALE SUPERIEURE PARIS-SACLAY
    • THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
    • DREXEL UNIVERSITY
    • KATHOLIEKE UNIVERSITEIT LEUVEN
    • TECHNISCHE UNIVERSITAET DRESDEN
    • JRC -JOINT RESEARCH CENTRE- EUROPEAN COMMISSION

    Departments

  • Advanced materials solutions for next generation high efficiency concentrated solar power (CSP) tower systems, (2017-2020) - Responsabile Scientifico

    UE-funded research - H2020 - Industrial Leadership – LEIT - NANOTECHNOLOGIES

    View project record on CORDIS

    Abstract

    NEXTOWER shall introduce a set of innovative materials to boost the performance of atmospheric air-based concentrated solar power (CSP) systems to make them commercially viable. In particular, tower systems are appealing for the great environmental compatibility and offer tremendous potential for efficient (electrical and thermal) power generation. Yet, their industrial exploitation has been so far hindered by limitations in the materials used both for the central receiver - the core component - and for thermal storage. Such limitations dictate maximum working temperature and in-service overall durability (mainly driven by failure from thermal cycling and thermal shocks). Improving the efficiency of a tower system entails necessarily improving the central receiver upstream and possibly re-engineering the whole systems downstream to work longer and at much higher temperature, especially in the thermal storage compartment. NEXTOWER will address this need by taking a comprehensive conceptual and manufacturing approach that will optimize bulk and joining materials for durability at the component level to achieve 25 years of maintenance-free continued service of the receiver and maximum thermodynamic efficiency at the system level. This is made possible through a unique combination of excellence in materials design and manufacturing, CSP full-scale testing facilities brought together in the Consortium, supporting the making of a full-size demo modules SOLEAD (tested in Spain and Italy) within the project. The successful achievement of a new generation of materials allowing for virtually maintenance free operations (limited to ceraminc parts) and increased working temperature shall result in the next-generation of air-coolant CSP highly competitive over other CSP alternatives and sustainable power supply options.

    Countries

    • Spagna
    • Italia
    • Svezia
    • Francia
    • Turchia
    • Belgio
    • Svizzera
    • Regno Unito
    • Danimarca

    Institutes/Companies

    • ASOCIACION ESPANOLA DE NORMALIZACION
    • CONSORZIO PER LA RICERCA E LO SVILUPPO DELLE APPLICAZIONI INDUSTRIALI DEL LASER E DEL FASCIO ELETTRONICO E DELL'INGEGNERIA DI PROCESSO, MATERIALI, METODI E TECNOLOGIE DI PRODUZIONE
    • KUNGLIGA TEKNISKA HOEGSKOLAN
    • SIL'TRONIX SILICON TECHNOLOGIES
    • R2M SOLUTION SPAIN SL
    • CERTIMAC SOC. CONS. A R. L.
    • UNIVERSIDAD DE BURGOS
    • CENTRO DE INVESTIGACIONES ENERGETICAS, MEDIOAMBIENTALES Y TECNOLOGICAS-CIEMAT
    • GREENWAY GUNES SISTEMLERI ENERJI URETIM SANAYI VE TICARET ANONIM SIRKETI
    • BEWARRANT
    • POLITECNICO DI TORINO
    • AKTIEBOLAGET SANDVIK MATERIALSTECHONOLOGY
    • WALTER TOSTO SPA
    • FUNDACION ICAMCYL
    • ENGICER SA
    • THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
    • LIQTECH INTERNATIONAL A/S
    • UNIVERSITA DEGLI STUDI DI ROMA LA SAPIENZA

    Departments

  • Benchmarking of tungsten steel joints for the plasma facing wall of DEMO, (2017-2018) - Responsabile Scientifico

    UE-funded research - H2020 - Euratom

    Abstract

    Tungsten represents a viable solution for the manufacture of the plasma facing first wall components in future fusion devices (such as DEMO). Furthermore, reduced activation ferritic martensitic (RAFM) steels are candidate materials for supporting structures and breeding blankets. For the successful outcome of the joining between tungsten and steel, an appropriate interlayer must be inserted in order to limit the thermal mismatch between both materials.In several studies tungsten steel joints have been produced either by an interlayer or by functionally graded material (FGM). The used production methods were vacuum plasma spraying (VPS), atmospheric plasma spraying (APS), physical vapour deposition (PVD), spark plasma sintering (SPS), pulse plasma sintering (PPS), hot pressing and diffusion bonding. These preliminary experiments have shown the feasibility; however, their performance under thermal cycling still needs to be investigated more systematically.In the frame of this Enabling Research Program the different joining techniques shall be benchmarked in high heat flux tests at 2 MW/m². Therefore, the same geometry and thermal conditions shall be used for all samples to ensure the best comparability of the joints. In particular, two innovative approaches - functionally graded interlayers between modified surfaces (e.g. using laser sculpturing or magnetron sputtering) and interlayers comprising expansion gaps - shall show their potential in comparison to existing techniques. Based on the past experience, the production of the joints will be optimized.

    Countries

    • ITALIA

    Institutes/Companies

    • C.N.R. - CONSIGLIO NAZIONALE DELLE RICERCHE
    • ENEA - Agenzia Nazionale per le Nuove Tecnologie, l'Energia e lo Sviluppo Economico Sostenibile

    Departments

  • Green Factory for Composites, (2016-2019) - Responsabile Scientifico

    Regionally funded research - Piattaforme Tecnologiche

    Abstract

    Il progetto che si propone, mira a trovare soluzioni innovative di manufacturing per incrementare l’impiego di materiali polimerici compositi ad elevate prestazioni in maniera rispettosa dell’ambiente (di fabbrica e non solo), riuscendo a coniugare beneficio tecnico a costi/investimenti, ad impatto ambientale ed energetico sostenibili.Volendo intraprendere una valutazione ad ampio raggio di tutte le potenzialità offerte da tali materiali e dei vari aspetti del manufacturing «intelligente», si propone un progetto basato su due linee di ricerca:• Produzione e impiego di nuovi materiali per applicazioni strutturali ed estetiche. Si intendono sviluppare applicazioni utilizzando compositi a matrice termoplastica ed a matrice termoindurente ad alto contenuto tecnologico per la realizzazione di componenti e strutture.• Il manufacturing della Fabbrica Intelligente. I vari aspetti che saranno esplorati sono: lo stampaggio, la verniciatura, l’assemblaggio, il controllo di processo, riduzione/trattamento materiali di scarto (per ogni fase di processo), consumi energetici. Verranno implementate metodologie ICT per la gestione di tutto il ciclo produttivo e per la gestione «ambientale».

    Countries

    • ITALIA

    Institutes/Companies

    • CENTRO RICERCHE FIAT

    Departments

  • CAbin Systems design Toward passenger welLbEing, (2016-2022) - Responsabile Scientifico

    UE-funded research - JTI - Clean Sky

    Abstract

    European Regional Aircraft and Business Jets require continuous improvements in the cabin comfort to compete in theglobal market. The results obtained for the large commercial jets are exacerbating the comfort issues. Therefore, aircraftmanufacturers are requested to design and produce aircraft offering high standards of comfort. As it concerns the area ofcomfort, Airliners have also paid great attention over the past twenty years on the noise and vibration, all addressing thehuman sensations of comfort.The main objective of CASTLE project is to achieve:for Regional Aircraft - an improved and optimized passenger cabin environment by means of an innovative and integrated design approach; mainly based on human factor issues regarding ergonomics, anthropometrics, as well as effects of vibration, noise and motion on passenger, crew and PRM;for Business Jets - an improved and optimized passenger cabin comfort increasing passenger’s well-being and efficiency, both turning the travelling time into effective productive time.In this respect, CASTLE project will address:different human requirements with respect to the cabin environment;optimization procedures in the acoustic design;green materials such as bio-sourced materials made of renewable sources;additional requirements.

    Countries

    • ITALIA

    Institutes/Companies

    • Geven spa

    Departments

  • SMS - Sandwich material and structure, (2016-2017) - Responsabile Scientifico

    UE-funded research - H2020 - Industrial Leadership – LEIT - SPACE

    View project record on CORDIS

    Abstract

    In the space industry, a growing demand is to make structures lighter, while optimizing the mass/stiffness/strength ratio.. To do so, the sandwich architecture appears to be the most efficient design. The main objective of Sandwich Material and Structure (SMS) project is then to develop an ultra-stable and low weight structure, based on such architecture. This optimized structure will combine innovative solutions such as cyanate-ester / pitch fiber Carbon Fiber Reinforced Polymer (CFRP) raw material, cyanate-ester / pitch fiber CFRP honeycomb and advanced joining solutions.To validate the performance of such assembly, SMS will work on a sandwich mirror structure use case.. The development of a groundbreaking joining solution, based on organic, inorganic or hybrid chemistry, will ensure optimal structural cohesion. The implementation of Zerodur skins to create the mirror will allow to measure optical performances and to characterize the stability of the structure.SMS work plan includes the identification of requirements at system and building blocks level, the development of European sourced cyanate-ester CFRP and CFRP honeycomb, the tuning of an efficient joining method and a Breadboard prototyping and tests.SMS project will ensure the compatibility of its developments with the European legislation and regulation, as well as foresee their up-scaling at industrial level and their dissemination towards research groups and SMEs.All the achievements will focus on developing a range of new space products from non-space low TRL technologies.At project end, SMS will achieve a Technological Readiness Level (TRL) 4-5, with the identification of the way forward to qualify and industrialize very large scale structures.SMS will be supported by a well-balanced and transdisciplinary consortium, with previous common experience in carrying out successful material and processes development projects.

    Countries

    • Svizzera
    • Belgio
    • Polonia
    • Italia

    Institutes/Companies

    • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
    • NORTH THIN PLY TECHNOLOGY SARL
    • MATERIA NOVA
    • NORTH THIN PLY TECHNOLOGY SPOO.
    • POLITECNICO DI TORINO

    Departments

  • VECTEC - Materiale termoisolante vetroceramico poroso in lastre e procedimento di rpoduzione di tale materiale, (2015-2015) - Responsabile Scientifico

    National Research

    Countries

    • ITALIA

    Departments

  • Advanced glasses, Composites And Ceramics for High growth Industries, (2015-2018) - Responsabile Scientifico

    UE-funded research - H2020 - Excellent Science - Marie Curie

    View project record on CORDIS

    Abstract

    The aim of CoACH (Advanced glasses, Composites And Ceramics for High growth Industries) is to offer a multidisciplinary training in the field of high-tech GLASSES, CERAMICS and COMPOSITES based on effective and proven industry-academia cooperation. Our scientific goals are to develop advanced knowledge on glass and ceramic based materials and to develop innovative, cost-competitive, and environmentally acceptable materials and processing technologies. The inter/multi-disciplinary and -sectorial characteristic is guaranteed by the presence of 5 academic partners and 10 companies having top class expertise in glass, ceramic and composite science and technology, modelling, design, characterization and commercialization. Advanced materials fall within the KEY ENABLING TECHNOLOGIES (KETs) and are themselves an emerging supra-disciplinary field; expertise on these new materials brings competitiveness in the strategic thematic areas of: HEALTH-innovative glass and composite for biomedical applications, ENERGY-innovative glass, ceramic and composite materials for energy harvesting/scavenging, solid oxide electrolysis cells and oil, gas and petrochemical industries, ICT-new glass fibre sensors embedded in smart coatings for harsh environment, ENVIRONMENT-new and low cost glass, ceramic and composite materials from waste.The originality of the research programme is to be seen in the supra-disciplinary approach to new glass- and ceramic- based materials and their applications: recruited researchers will benefit from a complete set of equipment and expertise enabling them to develop advanced knowledge in KETs and strategic thematic areas for the EU and to convert it into products for economic and social benefit. The effective research methodology used by the partners and the mutual exploitation of their complementary competences have been successfully experienced in the past in long term common research cooperation and in on-going common projects, including a Marie Curie ITN

    Countries

    • Germania
    • Italia
    • Repubblica Ceca
    • Regno Unito
    • Francia

    Institutes/Companies

    • FRIEDRICH-ALEXANDER-UNIVERSITAET ERLANGEN-NUERNBERG
    • UNIVERSITA DEGLI STUDI DI PADOVA
    • Ustav fyziky materialu, Akademie Ved Ceske republiky, v.v.i.
    • ELEMENT MATERIALS TECHNOLOGY HITCHIN LIMITED
    • Nanoforce Technology Limited
    • COLOROBBIA CONSULTING SRL
    • EUROPEAN THERMODYNAMICS LIMITED
    • UNIVERSITE DE RENNES I

    Departments

  • MARTE - Materiali antibatterici per rivestimento di tessuti, (2014-2015) - Responsabile Scientifico

    Regionally funded research - Poli di Innovazione

    Countries

    • ITALIA

    Institutes/Companies

    • THALES ALENIA SPACE ITALIA SPA

    Departments

  • MATISSE— MATERIALS’ INNOVATIONS FOR A SAFE AND SUSTAINABLE NUCLEAR IN EUROPE, (2013-2017) - Responsabile Scientifico

    UE-funded research

    Abstract

    The European Energy Research Alliance, set-up under the European Strategic Energy Technology Plan, has launched an initiative for a Joint Programme on Nuclear Materials (JPNM). The JPNM aims at establishing key priorities in the area of advanced nuclear materials, identifying funding opportunities and harmonizing this scientific & technical domain at the European level by maximizing complementarities and synergies with the major actors of the field. The JPNM partners propose, through MatISSE, a combination of Collaborative Projects and Coordination and Support Actions to face the challenge of implementing a pan-European integrated research programme with common research activities establishing, at the same time, appropriate strategy and governance structure. Focusing on cross-cutting activities related to materials used in fuel and structural elements of safe and sustainable advanced nuclear systems, the project aims at covering the key priorities identified in the JPNM: pre-normative research in support of ESNII systems, Oxide Dispersed Strengthened steels, refractory composites for the high temperature applications, development of predictive capacities. MatISSE will foster the link between the respective national research programmes through networking and integrating activities on material innovations for advanced nuclear systems, sharing partners best practices and setting-up efficient communication tools. It is expected that, through MatISSE, a real boost toward Joint Programming among the Member States, the European Commission and the main European research actors, will be achieved.

    Countries

    • ITALIA

    Departments

  • ADMACOM - ADVANCED MANUFACTURING ROUTES FOR METAL/COMPOSITE COMPONENTS FOR AEROSPACE, (2013-2016) - Responsabile Scientifico

    UE-funded research

    Abstract

    The aim of ADMACOM (Advanced manufacturing routes for metal/Composite components for aerospace) is to develop innovative manufacturing technologies based on advanced design of interfaces and of joining materials for aerospace components.As an example, an innovative joining technology for Ceramic Matrix Composites (CMC) to metals for aerospace components will be developed.The combination of advanced design of interfaces and joining materials/technologies, selective matrix removal from the composite surface, laser structuring and mechanical machining of the composite/metal surface will be exploited, together with a suitable joint design both based on positive results obtained by some of the partners of this project on joining of composites to dissimilar materials.Advanced surface engineering will be used to maximise interface strength for adhesive and high temperature joints by modelling and design of interfaces, advanced wettability studies, modification of surfaces, thermodynamic prediction and computer simulations of interface reactions. ADMACOM gathers recognized experts in advanced surface engineering.In order to develop innovative manufacturing approaches, novel joining technologies and joining materials will be developed in ADMACOM such as: laser and mechanical structuring of surfaces to be joined, selective matrix removal from composite surface in order to obtain “brush-like” joints; novel and/or modified commercial brazes will be developed within ADMACOM. ADMACOM gathers recognized experts in joining materials and technology.

    Countries

    • ITALIA
    • REGNO UNITO DI GRAN BRETAGNA

    Institutes/Companies

    • NANOFORCE TECHNOLOGY LIMITED

    Departments

  • CADET - CAPTURE AND DEORBITING TECHNOLOGIES, (2013-2015) - Responsabile Scientifico

    Regionally funded research

    Countries

    • ITALIA

    Institutes/Companies

    • Regione Piemonte
    • AVIOSPACE SRL

    Departments

  • STEPS 2, (2013-2015) - Responsabile Scientifico

    Regionally funded research

    Countries

    • ITALIA

    Institutes/Companies

    • Regione Piemonte
    • THALES ALENIA SPACE ITALIA SPA

    Departments

  • MA2RE - MATERIALI E MANUFATTI PER EDILIZIA A RIDOTTA ENERGIA INCORPORATA, (2011-2014) - Responsabile Scientifico

    Regionally funded research - Poli di Innovazione

    Countries

    • ITALIA

    Institutes/Companies

    • Regione Piemonte
    • BUZZI UNICEM S.p.A.

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • INNOVATIVE METAL-CERAMIC JOINTS FOR HIGH AND ULTRA-HIGH TEMPERATURES APPLICATIONS (UHT). FROM DESIGN AND PRODUCTION PROCESSES, TROUGH ADVANCED XPERIMETS, TO MATHEMATICA MODELLING, FOR A VIRTUAL ASSESSMENT OF THE MECHANICAL RESPONSE, (2011-2013) - Responsabile Scientifico

    Corporate-funded and donor-funded research

    Countries

    • ITALIA

    Institutes/Companies

    • POLITECNICO DI MILANO

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • CA JOLIE - JOINING OF LIGHTWEIGHT ALLOYS TO ADVANCED FGM METAL-CERAMIC MATERIALS , (2011-2013) - Responsabile Scientifico

    UE-funded research

    Countries

    • ITALIA

    Institutes/Companies

    • POLITECNICO DI TORINO - AMMINISTRAZIONE CENTRALE
  • GLACERCO - GLASS AND CERAMIC COMPOSITES FOR HIGH TECHNOLOGY APPLICATIONS, (2011-2015) - Responsabile Scientifico

    UE-funded research - VII PQ - People

    View project record on CORDIS

    Abstract

    The aim of this project is to offer a multidisciplinary training in the field of high-tech glasses and composites, in tight contact with companies and universities within this consortium. Our scientific goals are to develop advanced knowledge on glass based materials and to develop innovative, cost-competitive, and environmentally acceptable materials and processing technologies. The inter/multi-disciplinary characteristic is guaranteed by the presence, within this consortium, of five academic partners and five companies, from six countries, having top class expertise in glass science and technology, modelling, design, characterization and commercialization of glass and composite based products.Beside, new high-tech glass-based materials (glasses, glass-ceramics, glass- and glass-ceramic composites and fibers) are themselves an emerging supra-disciplinary field: expertise on these new materials bring competitiveness in strategic fields as medicine (bioactive glasses as bone replacement and drug delivery systems), telecommunications (glass devices for broad-band applications), photonics (glass based photonic sensors), clean energy (Solid Oxide Fuel Cells glass sealants), waste management (vitrification and re-use of wastes),…The scientific quality of the research programme is guaranteed by the quality of the academic and industrial partners, as well as from their proven success stories in previous EU projects participation and international ranking.The originality of the research programme is to be seen in the supra-disciplinary approach to new glass-based materials and their applications: recruited researchers can benefit of a complete set of equipments and expertise able to develop advanced knowledge in highly strategic fields for EU, such as medicine, telecommunications, photonics, clean energy production and waste management.

    Countries

    • Germania
    • Regno Unito
    • Italia
    • Repubblica Ceca
    • Francia

    Institutes/Companies

    • FRIEDRICH-ALEXANDER-UNIVERSITAET ERLANGEN-NUERNBERG
    • MATERIALS ENGINEERING RESEARCH LABORATORY LIMITED
    • UNIVERSITA DEGLI STUDI DI PADOVA
    • Ustav fyziky materialu, Akademie Ved Ceske republiky, v.v.i.
    • COLOROBBIA ITALIA SPA
    • ELEMENT MATERIALS TECHNOLOGY HITCHIN LIMITED
    • Nanoforce Technology Limited
    • CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • NASLA - NANOSTRUCTURED ANTI-SEPTICAL COATINGS, (2010-2012) - Responsabile Scientifico

    UE-funded research - VII PQ - CAPACITIES - Research for the benefit of SMEs

    Countries

    • GRECIA
    • ITALIA
    • SPAGNA
    • SVEZIA

    Institutes/Companies

    • AERO SEKUR SPA
    • KUNGLIGA TEKNISKA HOGSKOLAN (ROYAL INSTITUTE OF TECHNOLOGY)
    • DIPROMED SRL
    • BACTIGUARD AB
    • ALCE CALIDAD S.L.
    • ENOSI AGROTIKON SYNETERISMON RETHYMNIS

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • RIUTILIZZO CENERI PROVENIENTI DALLA COMBUSTIONE DI BIOMASSA - RICCO, (2010-2013) - Responsabile Scientifico

    National Research

    Countries

    • ITALIA

    Institutes/Companies

    • MINISTERO DELLE POLITICHE AGRICOLE ALIMENTARI E FORESTALI

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
    • Dipartimento di Idraulica, Trasporti e Infrastrutture Civili
  • MATRANS - MICRO AND NANOCRYSTALLINE FUNCTIONALLY GRADED MATERIALS FOR TRANSPORT APPLICATIONS, (2010-2013) - Responsabile Scientifico

    UE-funded research - VII PQ - COOPERATION - Nanosciences, Nanotechnologies, Materials and New Product

    Countries

    • BELGIO
    • ITALIA

    Institutes/Companies

    • CEE - COMUNITÀ ECONOMICA EUROPEA -
    • EUROPEAN VIRTUAL INSTITUTE ON KNOWLEDGE-BASED MULTIFUNCTIONAL MATERIALS AISBL

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • NANOPARTICLES ANTIBACTERIAL COATINGS - NABLA, (2009-2012) - Responsabile Scientifico

    Regionally funded research

    Countries

    • ITALIA

    Institutes/Companies

    • ISTITUTO SUPERIORE " M. BOELLA" SULLE TECNOLOGIE DELL'INFORMAZIONE E DELLE TELECOMUNICAZIONI
    • FINPIEMONTE S.p.A.
    • UNIVERSITA' DEGLI STUDI DI TORINO
    • DI.PRO SAS DI BUEMI ENRICO &amp
    • C.
    • THALES ALENIA SPACE ITALIA SPA
    • SANTER REPLY S.P.A. CON UNICO AZIONISTA

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • FEMAS, FUSION ENERGY MATERIAL SCIENCE, (2008-2011) - Responsabile Scientifico

    UE-funded research - (Progetti diversi)

    View project record on CORDIS

    Abstract

    The timely availability of qualified materials for use in fusion power reactors is a necessity for the fast deployment of fusion power. 27 European institutions have joined together in the FEMaS-CA to advance fusion materials science in Europe and in close cooperation with EFDA, the European Fusion Development Agreement. The overarching objective of this Coordination Action is: The FEMaS-CA will create a European research environment in which fusion materials science for the realization of fusion power can be carried out with optimum effect. To enforce this objective, the goals of the are 1. It will strengthen the application of advanced materials characterization methods which is an essential ingredient for the successful development of fusion reactor materials in Europe. 2. It will form a strong European network involving institutions and large scale facilities outside of the present fusion programme 3. Within this network bi- and multilateral collaborative activities shall be carried out. 4. Together with EFDA activities it will contribute to the formation of lasting and efficient European structure for fusion materials science and development.

    Countries

    • Spagna
    • Svezia
    • Germania
    • Portogallo
    • Romania
    • Ungheria
    • Francia
    • Svizzera
    • Belgio
    • Paesi Bassi
    • Polonia
    • Grecia
    • Italia
    • Regno Unito
    • Danimarca
    • Austria
    • Finlandia

    Institutes/Companies

    • UNIVERSIDAD DE ALICANTE
    • KUNGLIGA TEKNISKA HOEGSKOLAN
    • FORSCHUNGSZENTRUM JULICH GMBH
    • INSTITUTO TECNOLOGICO E NUCLEAR.
    • INSTITUTUL NATIONAL DE CERCETARE DEZVOLTARE PENTRU FIZICA LASERILOR PLASMEI SI RADIATIEI
    • TECHNISCHE UNIVERSITAET MUENCHEN
    • MAGYAR TUDOMANYOS AKADEMIA KFKI ATOMENERGIA KUTATOINTEZET
    • COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
    • EUROPEAN SYNCHROTRON RADIATION FACILITY
    • CENTRO DE INVESTIGACIONES ENERGETICAS, MEDIOAMBIENTALES Y TECNOLOGICAS-CIEMAT
    • ECOLE POLYTECHNIQUE FEDERALE DE LAUSANNE
    • STUDIECENTRUM VOOR KERNENERGIE / CENTRE D'ETUDE DE L'ENERGIE NUCLEAIRE
    • HELMHOLTZ-ZENTRUM BERLIN FUR MATERIALIEN UND ENERGIE GMBH
    • KARLSRUHER INSTITUT FUER TECHNOLOGIE
    • NUCLEAR RESEARCH AND CONSULTANCY GROUP
    • POLITECHNIKA WARSZAWSKA
    • "NATIONAL CENTER FOR SCIENTIFIC RESEARCH ""DEMOKRITOS"""
    • POLITECNICO DI TORINO
    • LOUGHBOROUGH UNIVERSITY
    • DANMARKS TEKNISKE UNIVERSITET
    • THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
    • SCUOLA UNIVERSITARIA PROFESSIONALE DELLA SVIZZERA ITALIANA
    • OESTERREICHISCHE AKADEMIE DER WISSENSCHAFTEN
    • UNIVERSIDAD DEL PAIS VASCO/ EUSKAL HERRIKO UNIBERTSITATEA
    • TEKNOLOGIAN TUTKIMUSKESKUS VTT
    • UNIVERSIDAD CARLOS III DE MADRID

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • Realizzazione e caratterizzazione di vetri contenenti nanoclusters metallici mediante RF-sputtering, (2007-2009) - Responsabile Scientifico

    Nationally funded research - PRIN

    Abstract

    Preparation and characterization of metal nanocluster doped glasses via RF-sputtering

    Countries

    • ITALIA

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • MATERIALI MULTIFUNZIONALI NANOSTRUTTURATI CON PARTICELLE METALLICHE PER APPLICAZIONI FOTONICHE SENSORISTICHE, (2006-2009) - Responsabile Scientifico

    Regionally funded research

    Countries

    • ITALIA

    Institutes/Companies

    • ISTITUTO SUPERIORE " M. BOELLA" SULLE TECNOLOGIE DELL'INFORMAZIONE E DELLE TELECOMUNICAZIONI
    • Regione Piemonte
    • POLITECNICO DI TORINO - AMMINISTRAZIONE CENTRALE

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
    • Dipartimento di Elettronica
  • Realizzazione di vetri nanostrutturati mediante fusione e sputtering a radiofrequenza per applicazioni ottiche non lineari, (2004-2006) - Responsabile Scientifico

    Nationally funded research - PRIN

    Abstract

    Fabrication of nanostructured glasses via melt-quench technique and RF-sputtering for non-linear optical applications

    Countries

    • ITALIA

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • KMM - NOE: KNOWLEDGE-BASED MULTICOMPONENT MATERIALS FOR DURABLE AND SAFE PERFORMANCE, (2004-2008) - Responsabile Scientifico

    UE-funded research - VI PQ - Nanotecnologie

    Countries

    • ITALIA
    • POLONIA

    Institutes/Companies

    • INSTYTUT PODSTAWOWYCH PROBLEMÓW TECHNIKI POLSKIEJ AKADEMII NAUK

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • CONSORTIUM AGREEMENT EU-ASIA UNIVERSITY EXCHANGE AND CO-OPERATION IN THE FIELD OF TELECOMMUNICATIONS TECHNOLOGIES, (2004-2007) - Responsabile Scientifico

    UE-funded research - ASIA Link

    Countries

    • INDIA
    • ITALIA
    • REGNO UNITO DI GRAN BRETAGNA
    • REPUBBLICA POPOLARE CINESE

    Institutes/Companies

    • LUOYANG TECHNOLOGY COLLEGE
    • UNIVERSITY OF SOUTHAMPTON
    • ANNA UNIVERSITY (CHENNAI)
  • EU-ASIA UNIVERSITY EXCHANGE AND COOPERATION IN THE FIELD OF TELECOMMUNICATIONS TECHNOLOGIES, (2004-2007) - Responsabile Scientifico

    UE-funded research - ASIA Link

    Countries

    • BELGIO
    • ITALIA

    Institutes/Companies

    • CEE - COMUNITÀ ECONOMICA EUROPEA -

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • GLAPHOVIS - GLASSES FOR PHOTOSENSITIVITY IN THE VISIBLE, (2002-2003) - Responsabile Scientifico

    UE-funded research - VPQ - IST (SOCIETA' DELL'INFORMAZIONE)

    Countries

    • BELGIO
    • ITALIA

    Institutes/Companies

    • CEE - COMUNITÀ ECONOMICA EUROPEA -

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
  • GLAMOROUS - GLASS-BASED MODULATORS, ROUTERS AND SWITCHES, (2001-2004) - Responsabile Scientifico

    UE-funded research - VPQ - IST (SOCIETA' DELL'INFORMAZIONE)

    Countries

    • BELGIO
    • ITALIA
    • SVEZIA

    Institutes/Companies

    • CEE - COMUNITÀ ECONOMICA EUROPEA -
    • ACREO AB

    Departments

    • Dipartimento di Scienza dei Materiali e Ingegneria Chimica
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Funded by commercial contracts

  • sviluppo di nuovi materiali, di approcci di progettazione, realizzazione e post-processing di componenti innovativi in vista di una loro applicazione nell’ambito della produzione di dischi freno in materiale carboceramico , (2022-2025) - Responsabile Scientifico

    Participation in expenses for research activity

    Countries

    • ITALIA

    Institutes/Companies

    • BREMBO SGL CARBON CERAMIC BRAKES S.P.A.

    Departments

  • Produzione di campioni di materiali energetici e reattivi, (unknown date-unknown date) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • MBDA Italia S.p.A.
  • analisi comparativa di tre campioni di tessuto in fibra di carboniodifferentemente trattati, (2022-2022) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • NANO-TECH S.P.A.

    Departments

  • Studio di un rivestimento nanostrutturato compositoper conferire proprietà antibatteriche alla superficie di lenti per occhiali forniti da Luxottica, (2022-2022) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • LUXOTTICA SRL

    Departments

  • Studio e caratterizzazione meccanica della giunzione tra il dispositivo in gomma “Internal Leakage Limit”, prodotto dall’azienda PRES BLOCK S.p.a, e il telaio in acciaio di una cartuccia per gas butano (o miscela butano/propano) da 190 g, tramite colla cianoacrilica, (2021-2022) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • PRES BLOCK S.p.A.

    Departments

  • Studio relativo a caratterizzazione e ottimizzazione di giunzioni metallo/ceramiche per l’assemblaggio di membrane ceramiche per separazione di ossigeno in un modulo planare, (2021-2022) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • RSE S.P.A. - RICERCA SISTEMA ENERGETICO

    Departments

  • Ottimizzazione composizionale di refrattari, (2021-2021) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • F.LLI BIGARAN Srl

    Departments

  • Stato dell’arte dei trattamenti per ceneri pesanti e leggere derivanti da termovalorizzazione di rifiuto solido urbano (RSU), comprensivo dei risvolti tecnico-economici, al fine di sviluppare soluzioni “end of waste” (EOW) nel campo dei materiali da costruzione, (2021-2021) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • TRM - TRATTAMENTO RIFIUTI METROPOLITANI SPA

    Departments

  • “Sperimentazione di un materiale refrattario migliorativo e innovativo destinato all’utilizzo in caldaie a biomassa” – Bando VIR - (Codice bando: I.1a.5.1_Bando_voucher_servizi_IR – Asse 1 del POR – FESR 2014-2020), (2021-2022) - Responsabile Scientifico

    Commercial contracts for the provision of services

    Countries

    • ITALIA

    Institutes/Companies

    • F.LLI BIGARAN Srl
  • Studio dell’efficacia del sanificatore in ambiente chiuso che simula l’abitacolo dell’auto (4 metri cubi circa)., (2020-2021) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • WAY S.R.L.

    Departments

  • Analisi Batterica comparativa per misura efficienza dispositivo sanificatore, (2020-2021) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • WAY S.R.L.

    Departments

  • Studio di giunzioni metallo/ceramico per l'assemblaggio di membrane ceramiche per separazione di ossigeno in un modulo planare, (2020-2021) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • RSE S.P.A. - RICERCA SISTEMA ENERGETICO

    Departments

  • Studio delle interazioni chimico-fisiche tra lo strato di deposizione PVD e le vernici di base e di finitura di cappe ed emblemi e compatibilità con materiale di base “Definizione di una ricetta di decorazione tramite PVD”, (2018-2019) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • SPM S.p.A.

    Departments

  • Controlli non distruttivi su riborditure e Giiunzioni adesive per AI/AI e acciaio/acciaio, (2017-2018) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • SISTEMI SOSPENSIONI S.P.A

    Departments

  • Studio di fattibilità per: sensorizzazione di serbatoi in FRP e monitoraggio continuo nei confronti di creep, fatica e corrosione, tramite sensori commerciali e/o innovativi, (2017-2018) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • SELIP SPA

    Departments

  • analisi di cristalli porta con rumorosità maggiore e fuori tolleranze ammesse , (2016-2016) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • FCA GROUP PURCHASING SRL A SOCIO UNICO

    Departments

  • Screening di infiammabilità di un campione di polveri , (2015-2015) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • DANA Italia S.p.A.

    Departments

  • Progetto Vestra - aspetti tecnologici fabbricazione elementi in vetro stratificato ....., (2014-2015) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • Università degli Studi di Palermo

    Departments

  • INDIVIDUAZIONE DELLA CAUSA/E CHE GENERANO PERDITA PRODOTTO DAL SISTEMA DI CHIUSURA DELLE BOTTIGLIE ...., (2013-2013) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • CANTINE DI CANELLI WINETRADING S.r.l.

    Departments

  • OVERVIEW JOINING AND MECHANICAL TESTS ON CARBON/CARBON HONEYCOMB COMPOSITES, (2012-2012) - Responsabile Scientifico

    Participation in expenses for research activity

    Countries

    • FRANCIA
    • ITALIA

    Institutes/Companies

    • CYTECH SARL

    Departments

  • CARATTERIZZAZIONE DI SEI CAMPIONI APPARTENENTI AD UNA TURBINA, (2011-2011) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • S.T.E.R. S.p.A.

    Departments

  • PROGETTAZIONE E REALIZZAZIONE DI PROVE NON STANDARD PER LA MISURA DELLA RESISTENZA AL CREEP DI PANNELLI VETROSI GIUNTATI, (2011-2011) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • SAES GETTERS S.p.A.

    Departments

  • DEPOSIZIONI DI FILM ORO-STAGNO EUTETTICI E DI FILM DIELETTRICI, (2011-2011) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • SAES GETTERS S.p.A.

    Departments

  • ADVANCED CHARACTERIZATION OF NABLA LAYERS PARTNERSHIP, (2011-2012) - Responsabile Scientifico

    Commercial Research

    Countries

    • ITALIA

    Institutes/Companies

    • THALES ALENIA SPACE ITALIA SPA

    Departments

  • Studio di reattività tra metalli e composti florurati, (unknown date-2014) - Responsabile Scientifico

    Consulting

    Countries

    • ITALIA

    Institutes/Companies

    • MBDA Italia S.p.A.
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