8/8/2019 iolisurf : Ionic Liquids for high performance coatings

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A European Integrated Project supported through the Sixth Framework Programmefor Research and Technological Development

Project Coordinator:

INSTM Consorzio Interuniversitario Nazionale per la Scienza e la Tecnologiadei Materiali - Mr Ugo Bardi, ugo.bardi@unif.it, +39 055 457 3118

With the support of ALMA Consulting Group:

Mrs Raaella Catana, rcatena@almacg.com, +33 (0)4 72 35 80 30   C  r   é  a   t   i  o  n  :  :   C  o  m   è   t  e  :  :  w  w  w .  c  o  m  e   t  e .  c  o  m

www.iolisur.eu

iolisurf Consortium

 AcknowledgementThe IOLISURF project is supported by the European

Commission through the Sixth Research Framework

Programme or Research and Technological Development

(FP6, 2002-2006) at a level o 1.594.484 euros (or a total

budget o 2.495.702 euros). The IOLISURF project addresses

the thematic area “Nanotechnologies and nano-sciences,

knowledge-based multiunctional materials and new

production processes and devices”. The project has been

started on 1st January 2006 and will last 36 months.

GalvanicaParmense

The IOLISURF consortium consists of 9 partners, coming from

5 European countries. It includes three SMEs (SOLVIONIC,

GALVANICA, CABRO), three research centres (INSTM,

IST, CRANFIELD), two large companies (NP, MERCK) and

a company specialised in the administrative and nancial

management o EU programs (ALMA) .

8/8/2019 iolisurf : Ionic Liquids for high performance coatings

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Research and development in the feld o new

ionic liquids (ILs) and their applications have

opened a new feld in the area termed “green

chemistry”, which promises cost eective 

and environmentally riendly materials

processing or industrial applications.

Context

iolisurf

Objectives

iolisurf Work PlanThe structure o the work plan starts with the generation

o knowledge on Ionic liquids themselves (development

and study o Ionic liquids), proceeds with their use or the

study o the basic mechanisms and o the electrochemical

aspects o deposition, ollowed by the development oelectro-deposition processes or materials o industrial and

technological interest. The testing o the coatings prepared

will include the study and development o thermal treating

or high temperature applications.

The main objective o IOLISURF is to

generate undamental knowledge on

Ionic Liquids as an electrochemical

medium or electrodepositing cost

effective and environmentally 

riendly multi-unctional materials

operating in extreme conditions

against corrosion and high 

temperature oxidation.

ILs are defned as ionic salts existing in the

liquid state at room temperature or anyway

under 100ºC. As electrolytes, ionic liquids

provide a larger electrochemical “window”

or electrodeposition than conventional

aqueous baths and hence permit the

deposition o elements (e.g. aluminium) that

cannot be deposited rom the aqueous phase.

Their low environmental impact is due to

their chemical and physical properties (non

toxic, non fammable and no measurable

vapour pressure) combined with low

consumption o energy and electrode

materials, low pollutant emission, and low

operating costs.

WP1

Preliminary activities and basic specifications

WP2

Study and synthesis of ironic liquids

WP3

Electrodeposition from ionic liquids

WP4

Electrodeposition plant and testing methods

WP5

Tests and industrial validation

     W     P     6

   K  n  o  w   l  e   d   g  e  m  a  n  a   g  e  m  e  n   t

The substantial R&D eort will

be directed in the ollowing

directions:

• Quantitative Structure Properties

Relationship (QSPR) study or the

selection and synthesis o innovativeand improved ILs with respect to

electrochemical properties

•  Selected targets for the

electrodeposition of multi-

functional materials

• Aluminium,

• Chromium

• Cr-Al and Pt-Al alloys

All these materials are the basis

of important multifunctional

protective materials.

Thereore, the development o such materials can be considered

a major breakthrough, owing to the possibility o depositingdiusion coating rom the liquid phase at low temperature.

To study and understand the ILs electrochemical properties,

the participants o the IOLISURF project have created a strong

and synergic team gathering research organisations and

universities, SMEs and industries throughout Europe.

These characteristics are a unique opportunity to study

ionic liquids or high added value multi-unctional material

processing applications, such as treatment or protection

against corrosion and high temperature oxidation. Such

extreme conditions are observed in the combustion chamber

o engines and are o enormous interest in the aerospace and

gas turbine felds, as well as being a demanding benchmark or

any new material.