Foundation possibilities

Failure of reinforced concrete columns

4- Pile System

Arrangement of piles

Force

Pavement Design

Properties of Section

Quantity

Grade Of Concrete

Short Column Effect

Plan view of Jamarat Bridge, Makkah, KSA

Amazing Facts About Dubai

ASTM Standard Reinforcing bars

Automatic rebar tier machine

BIM

Buckling Loads

Column Design

Deflection formula

Expansion joint

Figure showing the failure pattern of ductile steel

Moments-of-sections

response spectrum

reinforced concrete pylon

Radian-common

Moment & Deflection

The Putzmeister M 70-5, the world's largest concrete pump, with a 70m span and a weight of 190,000 pounds.

The relationship that exists between the member end moments and its end displacemen

The soil textural triangle

Timber_deflection

types of micropiles

Typical arrangement of piles.

Wind turbine building – Foundation

Slipform Canal Compacting

Shear Force & Bending Moment Diagram

Second moment of inertia table

Some Construction Machines

Shearband System

Problem of Punching Shear

Flat slab construction is not ideal from the structural point of view, due to stress concentration at points of support, such as columns. In reinforced concrete design, the problem is a matter of preventing brittle punching shear failure.

Reinforcing against shear failure is traditionally accomplished by providing reinforcement either at an angle or laterally to the main flexural reinforcement.

In thin structural elements, such as slabs, anchoring short lengths of shear reinforcement can not be placed above the top layer of flexural reinforcement without reducing either the durability, or efficiency of the flexural reinforcement. In addition, there is the practical problem of supporting shear reinforcement during the construction stages.

Shear Ladder System

Used to resist punching shear in flat slab or piled slab construction.

Slump Test