Advanced Structures and Composites Center

The UMaine Composites Center is a world-leading center for research, education, and economic development encompassing the material science, manufacturing and engineering of composites and structures. An 100,000 ft2, ISO 17025 testing facility, it evaluates nano- to full-scale materials and structures.

35 Flagstaff Rd.
Orono, ME 04469-5793 US

Division
University of Maine

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As Seen In CompositesWorld

Society of Plastics Engineers ACCE 2017 preview
The Society of Plastics Engineers’ (SPE, Bethel, CT, US) long-running Automotive Composites Conference & Exhibition (ACCE) continues to draw a global crowd.

The markets: Renewable energy (2015)
Wind energy continues to dominate in this segment and remains, far and away, the world’s largest market for glass-fiber-reinforced composites.

SPE ACCE report
Automotive composites still on the horizon — are they getting closer?

UMaine composites technology gets Mars lander consideration
The University of Maine is adapting its inflatable carbon fiber tube technology for application to a NASA spacecraft designed to deliver astronauts and cargo to the Mars surface.

SPE’s ACCE 2014 preview
Automotive composites a hot topic in the Motor City.

GFRP enables first grid-connected U.S. floating wind turbine
Composite tower on 1:8-scale system reduces hull size/weight and helps mitigate the overall cost of electric power generation.

Towerless turbine: Airborne system powers rural locales
Wind energy start-up Altaeros Energies' (Boston, Mass.) Buoyant Airborne Turbine (BAT) proof-of-concept prototype reportedly can harvest the more consistent winds at higher altitudes because its elevation is not limited by the need for a tower.

Fair winds for offshore wind farms
Innovations in blades, turbines and foundations are helping spur growth in a very big way.

UMaine's composites center updates floating turbine deployment efforts
The 1:8 scale floating turbine to be tested off the coast of Maine will use a composite tower on top of a concrete semi-submersible platform.

WTTC opens upsized wind blade test facility
The Wind Technology Testing Center (WTTC, Boston, Mass.) opened its $35 million+ wind blade testing facility on May 18, 2011, the only lab in the U.S. that can test blades up to 90m/295-ft long.

UMaine’s Offshore Wind lab sports 70m/230-ft testing … and more
The Offshore Wind Laboratory’s new wind turbine blade test lab, part of a 38,700-ft² (3,595m²) expansion of the University of Maine’s (UMaine) AEWC Advanced Structures and Composites Center (Orono, Maine), was first announced in February 2009.

UMaine, NRG Systems, AWS Truepower, Leosphere form wind energy R&D partnership
Under the agreement, the University of Maine's Advanced Structures and Composites Center will design and build a laser-based sensing system that will gather data on offshore wind conditions.

Tough resins for aggressive environments
New thermoset systems drive composites deeper into markets where fire, corrosion, stress and fatigue are ever-present threats.

Training surge: Too little, too late?
Hands-on programs are aimed at younger students by educators hoping to prevent shortages of composites technicians and engineers.

Maine report evaluates deepwater wind turbine feasibility
University of Maine and DeepCwind report, funded by the Department of Energy, highlights potential of offshore wind resources near Maine coast and outlines five-phase, 20-year plan for deployment of floating wind farms.

AEWC, DeepCwind to host developer's reception in October
Dr. Habib J. Dagher of the AEWC and DeepCwind, will host two receptions for industry leaders interested in deepwater floating offshore wind opportunities in the Gulf of Maine

Blades? Yes! Towers ... maybe
Although steel dominates the utility-scale wind turbine tower market, height increases, on- and offshore, are shifting the wind toward composites.

Composites 2010 Product Showcase
The ACMA’s Las Vegas exhibition reflected an industry in recovery.

Step 5 - ready for cure

New infusion regime for superthick laminates
 Innovative initiator chemistry yields long flow time, cure on demand and exotherm control for large, thick parts.

Jeff Sloan mug shot

The cost equation
Keynote speakers at CompositesWorld Expo 2009 delivered news both sobering and encouraging to those who are trying to predict what the future holds for composites in the postrecession manufacturing economy.

Product Categories of Advanced Structures and Composites Center

Design, testing, consulting, other services
  • Education/Training
  • Consulting
    • Consulting, materials
    • Consulting, process development
    • Consulting, structual design
  • Testing
    • Testing, materials
    • Testing, product
    • Testing, structural