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At Manasquan NJ, dolos armor layer repaired with CORE-LOC® units in two days working from floating platforms.
The unique shape of CORE-LOC® provides extraordinary interlocking and achieves an optimal blend of structural integrity and hydraulic stability.
Single-Layer Sustainable System for Breakwater Protection
Research dramatically improved coastal armoring for marine infrastructure, enhancing performance and durability.
Reliable and Cost-Effective Coastal Structure Protection
The ERDC Coastal and Hydraulics Laboratory (CHL) developed and patented CORE-LOC® Concrete Armoring in 1996 to provide reliable navigation and shore protection structures in high wave-energy environments. As a cost-effective system for breakwater protection, CORE-LOC® dissipates the maximum amount of wave energy with the least amount of concrete. This helps protect long-term investments in the performance and durability of marine infrastructure.
Superior Stability and Structural Integrity
Building CORE-LOC® in a random matrix design achieves superior hydraulic stability due to interlocking of its symmetrically-tapered octagonal members. CORE-LOC® provides an optimal blend of structural integrity and hydraulic stability for many open ocean applications.
Designed to withstand the harshest of wave climates, CORE-LOC® is a popular concrete armoring unit for both new construction and repair of existing concrete-armored slopes. Benefits include:
Efficient Wave Energy Dissipation
CORE-LOC® provides a high efficiency system for breakwater protection:
CORE-LOC® armoring systems have been used on over 100 projects. The first project was built in 1996 in Port St. Francis, South Africa with 800 15-ton units.
U.S. Air Force Base, Lajes, Azores, Portugal
CHL conducted two-dimensional and three-dimensional physical model studies of repair scenarios for the breakwater at Lajes Air Force Base. From the research, CHL developed a new CORE-LOC® structure type that combines low maintenance and superior stability with an easy-to-construct underwater semi-mobile rock mound. The physical model study resulted in more than $10 million of direct savings and a considerable reduction in risk.
Manasquan, New Jersey, USA
At an inlet on the Atlantic Ocean at Manasquan, New Jersey, USA, 16-ton steel-reinforced dolosse were in need of repair. To make the project more challenging, all construction and repair work had to be done from floating platforms and equipment stations. CHL researchers studied the crumbling dolosse and recommended replacing them with CORE-LOC® units sized to fit. In spite of challenging logistics, engineers placed all CORE-LOC® units in two days.
Chicago, Illinois, USA
The Chicago River Turning Basin project began as a massive construction effort to control the most serious area of uncontrolled leakage at the mouth of the Chicago River. For the first time ever, CORE-LOC® precast concrete units were used as a unique baffling system. Use of CORE-LOC® reduced by 50% the number of openings and sluice gates necessary to convey the design discharge. CORE-LOC® also ensured hydraulically unrestricted flow conditions in both directions through the sluice gate structure and provided efficient flow energy dissipation to maintain safe navigation and prevent river bed scour.
Model and Full-Scale Testing
Practical Formwork for Fast Placement
Licensing and Distribution
CORE-LOC® holds patents and trademarks in more than 45 countries. Several engineering and construction firms worldwide license and distribute this innovative and cost-effective breakwater armoring solution.