History Commons^™

Support The Next Generation By Sponsoring The 2024 Windstorm Challenge!, Advanced Structures And Composites Center

General University of Maine Publications

The Windstorm Challenge is a unique opportunity for middle and high school students to get hands-on engineering practice at the Advanced Structures and Composites Center (ASCC). Organized by the same team that brings you AFloat, the Windstorm Challenge seeks to educate the next generation of floating offshore wind innovators.

Afloat 2021: American Floating Offshore Wind Technical Summit, Advanced Structures And Composites Center

General University of Maine Publications

Email invitation to the "AFloat 2021: American Floating Offshore Wind Technical Summit" scheduled for September 8 and 9, 2021. Due to the emergence of COVID variants and the health risks they pose, a decision was made to hold the event virtually to ensure everyone's safety.

Floating Offshore Wind Project Webinar, University Of Maine Alumni Association, John Diamond, Habib Dagher

General University of Maine Publications

Watch Dr. Habib Dagher, executive director of UMaine’s Advanced Structures and Composites Center, for a May 2021 update on UMaine’s offshore wind program. UMaine is collaborating with New England Aqua Ventus LLC, a joint venture between Diamond Offshore Wind, a subsidiary of the Mitsubishi Corporation, and RWE Renewables, the second-largest company in offshore wind globally, to develop an 11-megawatt floating offshore demonstration project off the coast of Maine.

The New England Aqua Ventus offshore wind project is a critical milestone in the commercial realization of UMaine’s internationally recognized offshore wind technology that was developed at the Advanced Structures and Composites …

Ferland Engineering Education And Design Center (Eedc) Virtual Beam Topping Ceremony, Jeff Mills, Joan Ferrini-Mundy, Dana Humphrey, Consigli Construction Co., Inc., Wbrc Architects And Engineers, Ellenzweig

General University of Maine Publications

Construction of the $78 million Engineering Education and Design Center (EEDC) on the University of Maine campus began in May 2020, with workers following state-mandated health and safety guidelines. Work on the 105,000-square-foot facility is expected to be completed in spring 2022.

Design and construction of EEDC involved 78 graduates of the University of Maine, many from the College of Engineering. Over 500 alumni, friends, corporations, and foundations contributed to the fund-raising effort. Retired power industry executive and Skowhegan, Maine native, Jim Ferland and his wife Eileen provided a $10-million naming gift for the new Center. Jim Ferland earned a …

Building Life-Cycle Carbon And Operational Energy Report, Duncan Cox, Alexandra Davis, Vamshe Gooje

General University of Maine Publications

The premise of this report is to surmise the embodied carbon impact and anticipated operational energy use of the 57,995 sf crosslaminated timber (CLT) and glulam addition to the Advanced Structures and Composites Center (ASCC) on the University of Maine campus. The project will contain open lab space for the world’s largest prototype polymer 3D printer, offices, and a presentation venue.

A life-cycle assessment is a methodology for quantifying environmental impacts at all stages of a building’s life cycle. This is a cradle-to-grave assessment of the building, beginning from raw material extraction and sourcing, to manufacturing, transportation, construction, energy use, …

Composite Materials And Structures Certificate, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

The Certificate requires completion of 12 credits (4 courses) through a combination of 400- and graduate-level courses as described in the course sequence section below. A maximum of one course (or 3 credits) at 400 or 500 level may be transferred from outside of UMaine to the program for credit.

Umaine Holds Virtual Groundbreaking For $78 Million Ferland Engineering Education And Design Center, Dana Humphrey, Jeffery N. Mills, Joan Ferrini-Mundy

General University of Maine Publications

A virtual groundbreaking ceremony for the $78 million Engineering Education and Design Center (EEDC) took place April 28, 2020 on the University of Maine campus.

Click on the download link for a machine-generated English-language transcript.

Alfond W2 Ocean Engineering Lab, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

The Alfond W2 Ocean Engineering Lab at the University of Maine Advanced Structures and Composites Center is a unique facility equipped with a high-performance rotatable wind machine over a multidirectional wave basin. The facility will accurately simulate towing tests, variable water depths, and scaled wind and wave conditions that represent some of the worst storms possible anywhere on Earth.

Wind Blade Testing: Design, Fabricate, And Test Under One Roof, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

The University of Maine Advanced Structures and Composites Center's award winning research staff help clients take innovations from concept through design validation. The 8100 m2, $160 million laboratory employs more than 150 people with expertise in large-scale and coupon-level instrumentation and testing, composites manufacturing and analysis, finite element analysis and other modeling techniques. UMaine Composites Center faculty and staff may be engaged to jointly develop products, or may be contracted to fabricate and test composite or concrete products.

Offshore Wind In Maine, Aqua Ventus Maine, University Of Maine

General University of Maine Publications

80% of U.S. electricity demands are located in coastal states, and the total U.S. offshore wind energy potential is more than twice what the entire country currently uses. Nearly 80% of the U.S. offshore wind resource is located in deepwater, which can be cost effectively harnessed using the University of Maine’s VolturnUS.

Duration Of Load And Creep Effects Of Wood Composites, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

The Duration of Load & Creep Effects Lab at the UMaine Advanced Structures and Composites Center has a complete creep testing facility capable of evaluating duration of load effects on wood composites such as panel products, structural composite lumber (SCL), and wood-plastic composites (WPC).

Mass Timber At Umaine, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

Many architects and engineers believe that we are now in “the beginning of the timber age” where “plyscrapers” will soon be dotting city skylines all over the world. These tall wood buildings are a result of “mass timber” – a category of construction characterized by the use of large wood-based panels for wall, floor, and roof construction. Products in the mass timber family include: Cross-Laminated Timber (CLT), Nail-Laminated Timber (NLT), Glued-Laminated Timber (Glulam), and Structural Composite Lumber (SCL) e.g., Laminated Veneer Lumber (LVL), Laminated Strand Lumber (LSL), and Parallel Strand Lumber (PSL), as well as hybrid products manufactured with a …

Structural Testing Of Wood And Wood-Based Products, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

Maine’s economy has always drawn upon its forests. Our wood composites research not only follows this tradition, it allows future generations to do so, as well. International timber competition has forced Maine to become smarter about the lumber goods it produces, which is why the UMaine Advanced Structures and Composites Center has been working with industry to produce value added wood products since its inception in 1996. Focus areas have included FRP-reinforced glulam, structural composite lumber, wood-plastic composites, wood and bio-based panels, nanocellulose, and mass timber construction.

Wood Composites Manufacturing, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

The UMaine Advanced Structures and Composites Center has a complete Wood Composites Pilot Line allowing production of up to 4’ x 8’ oriented strand board (OSB), laminated strand lumber (LSL), particle board, MDF, and other cellulosic composites on a near-industrial scale.

Selected Research And Development Projects, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

Promotional flyer with summaries of a selection of research and development projects including VolturnUS 1:8, DeepCLiDAR, Composite Arch Bridge System, MAKO, Secure Hybrid Composite Shipping Container, Modular Ballistic Protection System, and NASA HAID.

Examples Of Material Property Testing, Advanced Structures & Composites Center, University Of Maine

General University of Maine Publications

No abstract provided.