DCCSM - Danish Center for Composite Structures and Materials for Wind Turbines
What causes cracks and damage on different length scales to become major cracks and damage which may develop into fractures in e.g. the blade of a wind turbine? DCCSM tests this aspect through development of new experimental and calculation- related methods on all length scales, i.e. from nano/micro scale to decameter scale. The aim is to optimise strength on all length scales.
Project description
Results
Key figures
Period:
2010 - 2017
Funding year:
2009
Own financial contribution:
41.60 mio. DKK
Grant:
38.00 mio. DKK
Funding rate:
48 %
Project budget:
79.60 mio. DKK
Category
Oprindelig title
DCCSM - Danish Centre for Composite Structures and Materials for Wind Turbines
Programme
Innovationsfonden
Technology
Wind
Project type
Forskning
Case no.
ENMI 09-067212
Participants
Danmarks Tekniske Universitet (DTU) (Main Responsible)
Partners and economy
| Partner | Subsidy | Auto financing |
|---|---|---|
| Aalborg Universitet (Fredrik Bajers Vej) | ||
| Danmarks Tekniske Universitet (DTU) | ||
| SIEMENS WIND POWER A/S | ||
| FIBERLINE A/S | ||
| BACH COMPOSITE INDUSTRY A/S | ||
| LM Glasfiber A/S |
Contact
Kontakperson
Sørensen, Bent F.
Comtact information
Danmarks Tekniske Universitet. Institut for Vindenergi (DTU Vindenergi)
Risø Campus, Frederiksborgvej 399, Bygning 228
DK-4000 Roskilde
www.vindenergi.dtu.dk
Contact email
bsqr@risoe.dtu.dk
