Early Strength and Physical Properties in Accelerated Shotcrete

Mechanical Properties of Early Age Steel Fibre Reinforced Shotcrete

Making the Most of HPC
Developing high-performance concrete (HPC) was only the first step toward bringing a material with improved durability, strength, constructability, and mechanical properties to the bridge...

Natural Tracers of Coastal Sediments
The properties of natural sediments can be used to determine their sources and to trace their transport paths through coastal environments. These properties include the mineralogies of...

Safeguarding Los Alamos
A forest fire that burned 48,000 ac (19,500 ha) around the Los Alamos National Laboratory, in New Mexico, in May 2000, created another problem for one of the nation's most...

Relation of Local Scour to Hydraulic Properties at Selected Bridges in New York

Effects of Flow Duration on Local Scour at Bridge Piers in New York

Relation of Local Scour to Hydraulic Properties at Selected Bridges in New York

Physical and Computational Modeling of Bridge Scour at Oregon Inlet, North Carolina

Best of Both Worlds
All around the Pacific Rim structural engineers are experimenting with concrete filled steel tubes as structural elements. The concrete filled tubes take advantage of the best properties...

Aspects of a Computer-Simulation Approach to the Design of HSC

Seismic Behavior of High-Strength Concrete Short Beams

Behaviour of Fiber Concrete Reinforced with Steel Spirals under Cyclic Compressive Loading

Seismic Behavior of High-Strength Concrete Tied Columns

Cyclic Flexural and Shear Behavior of High-Strength Concrete Columns

Applications of High Performance Concrete to the Prestessed Bridge Girder Industry

Seismic Behavior of Prestressed Concrete Beam-Column Joints

Innovation of Precast Pretensioned High-Strength Spun Concrete Pile—Lessons from 1995 Hyogo-Ken Nanbu Earthquake

On the Evaluation of the Characteristic Length in High Strength Concrete

High Strength Concrete from Low Water Demand Cement





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