Engineering

Researchers develop earthquake-resistant concrete

A new seismic-resistant, fibre-reinforced concrete developed at the University of British Columbia will see its first real-life application this fall as part of the seismic retrofit of a Vancouver elementary school.

Engineering

New method verifies carbon capture in concrete

Carbon capture is essential to reduce the impact of human carbon dioxide emissions on our climate. Researchers at the University of Tokyo and Nagoya University in Japan have developed a method to confirm whether carbon in ...

Engineering

Lasers pave the way to better use of cement

Engineers at Princeton University are deploying lasers to precisely evaluate a major drawback of 3D-printed cement—the material's resistance to fracture. The researchers hope that progress in this area could lead to a wider ...

Engineering

Understanding the catastrophic impact of the earthquakes in Turkey

When a 7.8 magnitude earthquake struck southeastern Turkey in the early morning hours of Feb. 6, it was identified as the most powerful seismic incident to hit the country since 1939. When a 7.6 magnitude earthquake was triggered ...

Engineering

Research team develops hemp-based masonry blocks

A University of Nebraska–Lincoln College of Engineering research team has developed a plant-based mixture for concrete masonry blocks that are environmentally friendly and sustainable while helping to meet the world's construction ...

page 2 from 5

Concrete

Concrete is a construction material composed of cement (commonly Portland cement) as well as other cementitious materials such as fly ash and slag cement, aggregate (generally a coarse aggregate such as gravel, limestone, or granite, plus a fine aggregate such as sand), water, and chemical admixtures. The word concrete comes from the Latin word "concretus" (meaning compact or condensed), the past participle of "concresco", from "com-" (together) and "cresco" (to grow).

Concrete solidifies and hardens after mixing with water and placement due to a chemical process known as hydration. The water reacts with the cement, which bonds the other components together, eventually creating a stone-like material. Concrete is used to make pavements, architectural structures, foundations, motorways/roads, bridges/overpasses, parking structures, brick/block walls and footings for gates, fences and poles.

Concrete is used more than any other man-made material in the world. As of 2006, about 7.5 cubic kilometres of concrete are made each year—more than one cubic metre for every person on Earth. Concrete powers a US $35-billion industry which employs more than two million workers in the United States alone.[citation needed] More than 55,000 miles (89,000 km) of highways in the United States are paved with this material. Reinforced concrete and prestressed concrete are the most widely used modern kinds of concrete functional extensions.

This text uses material from Wikipedia, licensed under CC BY-SA