• Slide 1

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 2

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 3

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 4

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 5

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 6

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 7

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 8

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project
  • Slide 9

    Implements commercial or close to the market nanomaterials (aerogels, VIPs, MMTs, CNT) and MEMs, “tunes” their properties and method of application in order to induce improved thermal, structural/vibration/seismic and fire performance to multi-functional light-weight steel/dry wall prefabricated systems.

    Starting date: 01/09/2013
    Duration: 36 months
    Call identifier: FP7-2013-NMP-ENV-EeB
    Funding Scheme: Collaborative project

Elissa will pave the way for Industrial Prefabricated New-to-Build and Deep-Renovation Packages

Grant agreement no: 609086

Development and demonstration of nano-enhanced prefabricated lightweight steel skeleton/dry wall systems with improved performance.

Extend concept to entire lightweight construction of new buildings, renovations and extensions; assess up-scaling for mass production; prove reductions in dead loads (more than 65%) and in primary energy requirements (up to 4 times including nanomaterials) compared to massive construction.

Achieve the highest possible degree of energy efficiency, safety and sustainability for steel lightweight buildings.