AFloat 2021: American Floating Offshore Wind Technical Summit

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\u27s safety

Dr. Habib Dagher testifying before the U.S. Senate

Sen. Collins asks Dr. Habib Dagher about sustainable infrastructure solutions

Alfond W2 Ocean Engineering Lab

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

Selected Research and Development Projects

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

Structural Testing of Wood and Wood-Based Products

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

Composite Materials and Structures Certificate

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

Wood Composites Manufacturing

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

Advanced Composites Center Research Patent Portfolio webpage

Webpage listing research patents held by since 1998

Duration of Load and Creep Effects of Wood Composites

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

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 combination of materials