Loading presentation...

Present Remotely

Send the link below via email or IM

Copy

Present to your audience

Start remote presentation

  • Invited audience members will follow you as you navigate and present
  • People invited to a presentation do not need a Prezi account
  • This link expires 10 minutes after you close the presentation
  • A maximum of 30 users can follow your presentation
  • Learn more about this feature in our knowledge base article

Do you really want to delete this prezi?

Neither you, nor the coeditors you shared it with will be able to recover it again.

DeleteCancel

Make your likes visible on Facebook?

Connect your Facebook account to Prezi and let your likes appear on your timeline.
You can change this under Settings & Account at any time.

No, thanks

AIMPLAS NANOTECHNOLOGY

Nanotechnology in plastics

Comments (0)

Please log in to add your comment.

Report abuse

Transcript of AIMPLAS NANOTECHNOLOGY

NANOCOND
Objective:
Development of new polymeric composites based on conductive nanofillers for electrostatic disipation. The materials are developed for the construction and building sectors (profiles, panels, flooring and anti-static laminates for interior pannels).
RECYTUBE
Objective:
Reutilization of scraps containing carbon nanotubes (CNT) generated during masterbach, compounding or injection moulding production processes to produce new plastic nanocomposites with commercial value.
Development of high electrical conductive materials adding conductive nanofillers
Consortium:
Recycling of Carbon Nanotube (CNT) based nanocomposites for technical applications
POLYCOND
Objetivo:
Desarrollo de compuestos poliméricos con propiedades eléctricas y físicas mejoradas mediante el desarrollo de procesos de producción eficientes.
Productos de alto valor añadido mediante el uso de nuevos polímeros conductores
Consorcio:
Consortium:
SAMDOKAN
Objective:
Industrialization of an environmentally sustainable pre-treatment for plastic surfaces' metallization, free of hexavalent chromium, using molecular self-assembly technology (SAM). Application in automotive, sanitary and white goods sector.
Industrialization of an environmentally friendly pre-treatment for plastic materials metallization
Consortium:
AIMPLAS • AVANZARE INNOVACION TECNOLÓGICA, S.L. • NIQUELADOS MIRA S.L. • DURDEN PLASTK ÜRÜNLER YAPIKAN FLM TC SAN A • PGS PLASTK AHAP METAL KAPLAMA SAN. TC. LTD.T
ECOSAM
Objective:
Development of a nanostructured pre-treatment process for metallization of plastic parts.
The use of carcinogenic agents such as hexavalent chromium acid is avoided during pre-treatment for the metallization of different plastic matrices such as ABS, PP or PA6.
Development of a new pre-treatment free of hexavalent chromium for metallization of plastic surfaces
Consortium
SMITHERS RAPRA TECHNOLOGY LIMITED • INTERQUIMICA • FARBA S.A. • DMS PLASTICS • INNOPLATE INTERNATIONAL B.V. • QUALITY PLATED PRODUCTS LTD. • PR euroCHEM • FAPERIN, S.L. • CHORRO Y VERDÚ, S.L. • AVANZARE INNOVACION TECNOLÓGICA, S.L.
NANOMASTER
Objective:
To reduce the amount of plastic used to make a component by 50%, maintaining the mechanical properties due to the reinforcement provided by the graphene, and hence reduce component weight by 50%, at the same time as imparting electrical and thermal functionality

Thermoplastic masterbatches reinforced with graphene
Consortium:
AIMPLAS • NETCOMPOSITES LTD. · DTI · PHILIPS · TIMCAL · MB PROTO · INSTITUTE OF OCCUPATIONAL MEDICINE · CREATE IT REAL · AEC · LATI THERMOPLASTIC INDUSTRIES SPA · RÖCHLING AUTOMOTIVE AG & Co.KG · AVANZARE INNOVACIÓN TECNOLÓGICA, S.L. · PROMOLDING BV
RECAN
Objective:
Ultra-hydrophobic coatings highly resistant to abrasion
Consortium:
AIMPLAS
NANOSCRATCH
Objective:
To develop a novel high performance scratch resistant coating technology for plastic pieces using an environmental friendly and tailor-made process, for substitution of metallic and glass components.
Consortium:
AIMPLAS • BSH ELECTRODOMESTICOS ESPAÑA, S.A. · AVANZARE INNOVACION TECNOLÓGICA, S.L. · POLYRAZ PLASTICS INDUSTRIES · INEA · INTERQUIMICA · SZU · FAURECIA INTERIOR SYSTEMS ESPAÑA, S.A.
AIMPLAS · AIDICO · AIDIMA · AITEX · INSTITUTO DE TECNOLOGÍA ELÉCTRICA · UNIVERSIDAD POLITÉCNICA DE VALENCIA
Development of a scratch resistant coating through nanotechnology
CAYLEY
Objective:
Industrial implementation of environmentally friendly panels based on thermoplastic polymers and natural fibres with reduced weight, improved accoustic properties and enhanced mechanical and flame-retardant properties.
These pannels are aimed for aircraft interior parts (sidewalls, ceilings, stow bins, etc.), and also trains, buses, ships and automobiles.
Ecological panels with flame-retardant nanofillers for the aeronautic sector
Consortium:
AIMPLAS · INVENT · LINEO · BOEING
SUPIN
Objective:
Innovative piezoresistive sensors based on smart polymers for construction and textile applications.
Consortium:
AIMPLAS · FUNDACIÓN INASMET · FUNDACIÓN PRIVADA CETEMMSA
COINPLA
Objective:
Development of new thermoplastic composites containing metallic nanoparticles with special treatments and carbonaceous nanostructures for co-injected parts with electrical properties and antimicrobial surfaces. Application in the medical and electrical-electronic sectors.
Development of co-injected technical parts containing silver nanoparticles with special treatment in order to improve conductive and antimicrobial properties
Consortium:
AIMPLAS
Intelligent surfaces and structures through the incorporation of functionalized nanofibers
AIMPLAS · RAPRA TECHNOLOGY LTD. · INTERMEDIC ARFRAN S.A. · WHITAKER TECHNICAL PLASTICS LTD. · LABO LTD. · HUNGARIAN CHEMICAL INDUSTRY ASSOCIATION · BOND VOOR MATERIALENKENNIS · TBA TEXTILES LTD. · FAPERIN, S.L. · MOLESPOL S.A. · COMPAÑÍA LEVANTINA DE REDUCTORES, S.L. · RONDOL TECHNOLOGIA LTD. · EUPC- EUROPEAN PLASTIC CONVERTERS · VTT TECHNICAL RESEARCH CENTRE OF FINLAND · TNO INDUSTRIAL TECHNOLOGY · THE BRITISH PLASTICS FEDERATION · CMB COLOREX MASTER BATCHES BV · PROMOLDING BV · CHEMICAL RESEARCH CENTER-HAS · PANIPOL OY
AIMPLAS · CMB COLOREX MASTER BATCHES BV · NANOCYL · FAPERIN, S.L.
Telephone: +34 96 136 60 40

Follow us:
www.facebook.com/aimplas
twitter.com/aimplas

info@aimplas.es
www.aimplas.es
Contact us
Development of an ultra-hydrophobic high scratch resistant coating to avoid ice accumulation on metallic structures in aeronautics.
PEGASUS
Objective:
Integration of engineering and material processing technologies for the European automotive sector
Consortium:
AIMPLAS · ACTECO PRODUCTOS Y SERVICIOS, S.L. • UNIVERSIDAD DO MINHO • SMITHERS RAPRA TECHNOLOGY LIMITED • DAIMLER AG • ADDCOMP HOLLAND BV • EUPC- EUROPEAN PLASTIC CONVERTERS • TNO SCIENCE AND INDUSTRY • FRAUNHOFER ICT • PLASDAN MAQUINAS PARA PLASTICOS LDA • SCHNEIDER FORM GMBH • EPISTEMICS LTD • BAX COATING BV • QS-GRIMM GMBH • JACOB PLASTICS ZUM ANFASSEN • OSOWAPLAST JIS • S.E.T.E - M.I.P S.A. • LMS INTERNATIONAL N.V. NOESIS • BOSTIK B.V. • SMART GMBH • SOC. OF MOTOR MANUFACTURERS AND TRADERS LIMITED • TECHNISCHE UNIVERSITEIT DELFT • DSM RESINS BV • TACIT CONNEXIONS LTD.
To use nanoparticles in colouring technology for automotive plastic components, to avoid additional painting. This will give a wider colour choice, reduce VOCs from painting down to 0% and still give a satisfactory finish, reducing production times and the overall paint line space in the factory.
THERMALCOND
Objective:
Consortium:
AIMPLAS • AVANZARE INNOVACION TECNOLÓGICA, S.L. • ABN PIPE SYSTEMS, S.L. U. • SMITHERS RAPRA TECHNOLOGY LIMITED • RESENERGIE SL • A.P.T. ARCHIMEDES POLYMER TECHNOLOGIES LTD. • CMB COLOREX MASTER BATCHES BV
PROFORM IPARI ES KERESKEDELMI KFT
To develop a new family of low cost polyolefin based components (sheets, pipes and fittings) to be used in the manufacturing of flat-plate solar thermal collectors. These components are expected to be a viable alternative to current thermal collectors’ constitutive metallic components, mainly made of copper.
Aplicaciones:
Medicina y salud
Automoción
Militar
Electrico-electronico
Polymeric composite materials with enhanced thermal conductivity properties for solar collectors
ESPRIT
Objective:
Improvement of self-reinforced materials through an innovative heating technology that reduces fibre damage.
For this purpose, microwave and induction selective heating techniques have been optimized using susceptor additives based on carbon nanotubes.

Efficient managing of self-reinforced materials and its processing
Consortium:
AIMPLAS · NETCOMPOSITES LTD. • POLISILK S.A. • PEMÜ MUANYAGIPARI ZRT. • STRUCTOFORM • REGLOPLAS AG • FRICKE AND MALLAH MICROWAVE TECHNOLOGY GMBH • FIBROLINE • CELSTRAN • INSTITUT FÜR VERBUNDWERKSTOFFE • AVK • COMFIL ApS • PROMOLDING BV
CARBON INSPIRED
Objective:
Creation of a cooperation network for knowledge transference on carbonaceous nanomaterials for construction and automotive sectors. The developed prototype consists of a sandwich panel with electrostatic discharge and flame-retardant properties based on carbonaceous nanostructures.
Network of cooperation for the development of high value materials based on carbon nanostructures for the automotive and construction sector
Consortium:
AIMPLAS · CTAG · TEKNIKER · UNIVERSIDADE DE AVEIRO · ADERA
NANOCIT
Objective:
Development of innovative applications based on carbonaceous nanocomposites.
Automotive sensor systems, domotic tiles development, slings with high mechanical properties and thermoset materials with high fire-resistance properties.

Consortium:
AIMPLAS · TEKNIKER · CTAG · CTC · ITC · ITMA · LEITAT
Design of high added value materials based on dispersion, deposition and/or functionalization of carbon nanostructures
INNOFOOT
Objective:
To increase competitiveness through the reduction of production cost of orthopaedic footwear and foot orthotics with improved and controllable medical quality.
To generate a common virtual space through Europe for the trade in which procedures and methods are shared.
Consortium:
AIMPLAS · TNO SCIENCE AND INDUSTRY • TRIO D.D. • WITTEKAMP EN BROOS • TOMAS BATA UNIVERSITY IN ZLIN • A. MATEOS E HIJOS PLASTIC • BUCHRNHORNEN ORTHOPEDISCHE SCHOENTECHNIEK • ESPECIALIDADES MEDICO ORTOPEDICAS S.L. • NED. VERENIGING VAN ORTHOPEDISH SCHOENTECHNICI • API SERVIZI S.R.L. • CZECH FOOTWEAR AND LEATHER ASSOCIATION • GREMI D´ORTESISTES I PROTESISTES DE CATALUNYA • AS. DE EMPRESAS DE ORTOPEDIA TECNICA DE ANDALUCIA • KOPITARNA SEVNICA • BALTIC ORTHOSERVICE UAB • C.F. SRL • MATERIAL DESIGN AND PROCESSING • METIS SRO. • REPOL, S.L. • INST. DE BIOMECANICA VALENCIA (IBV) • MOLLA ORTOPEDIA MOLLA S.L. • FLEXOR, S.A. • UNIVERSIDAD DE PERUGIA
Innovative treatment for foot disorders
R&D Projects
52
projects
150
companies
participants
Since 2004 our experience in nanotechnology continues to grow
Analysis and Testing
Technical assistance
Seminars and events
International Workshop on Nanocarbon Composites 2012

Nanomaterials Technical Seminar: new perspectives in the automotive sector 2010

Seminar: Characterization techniques of nanocomposites and nanomaterials 2010

1st International Seminar on Nanocomposites Application in the plastic sector 2009

Training
Nanomaterials in plastics sector.
Nanomaterials: new perspectives in the
automotive sector.
Characterization techniques of
nanocomposites and nanomaterials.
Active packaging and nanotechnology.
Nanotechnology applied to plastic materials.

Competitive Intelligence
Customized newsletters
Specialized newsletter: polymeric
nanocomposites
Technology watch reports
Legislation
Standards
Patents

We facilitate access to strategic information on nanotechnology through:
Patents
Polymer for transformation through microwave heating, preparation and use procedure: ES2387768 (A1)
Plastic container with antimicrobial properties and its fabrication method: EP 12382063
Composition for coating EP23389401 (A1)
Hydrophobic coating and process for obtaining this coating: ES2398274 (A1)
Nanoparticles modification for
improvement of properties.
Optimization of characterization systems
for intelligent and active materials.
Sensor systems for automotive and
construction sector.
Detection of market niches for innovative
intelligent materials.
Transformation processes' optimization
for obtaining products based on
nanocomposite materials.

POLYCOND
Objective:
Development of new polymer composites with electrical and physical improved properties through the development of efficient production processes.
Products with high added value through the use of new conductive polymer
Consortium:
Nanotechnology allows increasing barrier properties with the objective of obtaining packages that prolong the shelf life of food.
One of the most successful applications is the incorporation of nanoclay to thermoplastic materials, allowing a food packaging –rigid and flexible- with improved barrier properties.

Fluorinated anti-adherent coatings for metallic composite and plastic substrates.
Interesting for manufacturing companies and users that need anti-adherent surfaces, for instance, aeronautic sector, wind turbines or cables.
Electrical and thermally conductive plastics (sheets or flexible film, EMI shielding cables, bipolar plates, fibres or textiles…)
Interesting for sectors such as electric-electronic, telecommunications, defence, aerospace, automotive or medicine.
We work with leading companies and SME’s committed to innovation
Private projects with companies
METALLIZATION
ELECTRICAL CONDUCTIVITY
MECHANICAL PROPERTIES
THERMAL CONDUCTIVITY
SMART POLYMERS
BACTERICIDE PROPERTIES
FLAME-RETARDANT
SURFACE PROPERTIES
GAS BARRIER
ACTIVE MATERIALS

ELECTROMAGNETIC RADIATION SUSCEPTORS
AIMPLAS • RAPRA TECHNOLOGY LTD • INTERMEDIC ARFRAN SA • WHITAKER TECHNICAL PLASTICS LTD • LABO LTD • HUNGARIAN CHEMICAL INDUSTRY ASSOCIATION • BOND VOOR MATERIALENKENNIS • TBA TEXTILES LTD • FAPERIN SL • MOLESPOL SA • COMPAÑÍA LEVANTINA DE REDUCTORES, SL • RONDOL TECHNOLOGIA LTD • EUPC- EUROPEAN PLASTIC CONVERTERS • VTT TECHNICAL RESEARCH CENTRE OF FINLAND • TNO INDUSTRIAL TECHNOLOGY • THE BRITISH PLASTICS FEDERATION • CMB COLOREX MASTER BATCHES BV • PROMOLDING BV • CHEMICAL RESEARCH CENTER-HAS • PANIPOL OY
PHOENIX
Objective:
Synergic combination of high performance flame retardant nano-layered hybrid particles as real alternative to halogen based flame retardant additives
Consortium:
AIMPLAS · AVANZARE · TUD · ALFA · BADA · SCC · A&E · AKUMPLAST · POLYRAZ · VONROLL · REVI · ARCELIK · ARCTIC · ENSCL FRAUNHOFER
Developement of highly efficient flame-retardant non-halogenated additives that show an excellent fire resistance behaviour maintaining the final product performance.
All flame retardant systems will be produced taking into account safety aspects and environmental impact.
www.phoenix-eu-project.eu
www.nanoscratch-project.eu
www.carboninspired.com
www.cayley.eu
www.innofoot.eu
www.thermalcond.eu
www.nanomasterproject.eu
www.pegasus-eu.net
www.ipolycond.org
www.recytube.eu
www.samdokanproject.eu
www.ecosam.eu
Electronic microscopy: SEM, TEM, AFM
Optical microscopy
FTIR, RAMAN Spectroscopy
Thermal characterization: TGA, DSC, HDT
Mechanical characterization: impact, compression, bending, tensile properties
Electrical and thermal conductivity
Dynamic rheometry analysis
Dynamic-mechanical analysis
Full transcript