Concrete structures

For decades, cast-in-place concrete parking structures have been successfully constructed and utilized throughout North America. In most cases, a post-tensioned structural system was selected after careful economic studies and comparisons indicated initial or life cycle cost savings.

Concrete structures

Etymology[ edit ] The word concrete comes from the Latin word "concretus" meaning compact or condensed[7] the perfect passive participle of "concrescere", from "con-" together and "crescere" to grow. Prehistory[ edit ] Small-scale production of concrete-like materials dates to BC, pioneered by the Nabataea traders or Bedouinswho occupied and controlled a series of oases and developed a small empire in the regions of southern Syria and northern Jordan.

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They discovered the advantages of hydraulic lime, with some self-cementing properties, by BC. They built kilns to supply mortar for the construction of rubble-wall houses, concrete floors, and Concrete structures waterproof cisterns. They kept the cisterns secret as these enabled the Nabataea to thrive in the desert.

German archaeologist Heinrich Schliemann found concrete floors, which were made of lime and pebbles, in the royal palace of TirynsGreece, which dates roughly to — BC. Its widespread use in many Roman structuresa key event in the history of architecture termed the Roman Architectural Revolutionfreed Roman construction from the restrictions of stone and brick materials.

It enabled revolutionary new designs in terms of both structural complexity and dimension.

ADVANTAGES OF CAST-IN-PLACE CONCRETE PARKING STRUCTURES At the time of construction (), the Franklin/Van Buren Parking Facility, Chicago, IL. was the. Xypex Australia specialise in non-toxic chemical treatments and additives assisting with Waterproofing, Durability Enhancement, Repair and Protection of concrete, in both hardened and plastic state, from a range of aggressive mediums. The American Concrete Institute (ACI) is a leading authority and resource worldwide for the development and distribution of consensus-based standards, technical resources, educational programs, certification programs, and proven expertise for individuals and organizations involved in concrete design, construction, and materials, who share a .

Laid in the shape of archesvaults and domesit quickly hardened into a rigid mass, free from many of the internal thrusts and strains that troubled the builders of similar structures in stone or brick.

First, its mix consistency is fluid and homogeneous, allowing it to be poured into forms rather than requiring hand-layering together with the placement of aggregate, which, in Roman practice, often consisted of rubble. Second, integral reinforcing steel gives modern concrete assemblies great strength in tension, whereas Roman concrete could depend only upon the strength of the concrete bonding to resist tension.

Concrete structures

The Baths of Caracalla in Rome are just one example. Many Roman aqueducts and bridges, such as the magnificent Pont du Gard in southern France, have masonry cladding on a concrete core, as does the dome of the Pantheon.

Middle Ages[ edit ] After the Roman Empire, the use of burned lime and pozzolana was greatly reduced until the technique was all but forgotten between and the 14th century. From the 14th century to the midth century, the use of cement gradually returned.

The Canal du Midi was built using concrete in This third Eddystone Lighthouse pioneered the use of hydraulic lime in concrete, using pebbles and powdered brick as aggregate. His son William continued developments into the s, earning him recognition for the development of "modern" Portland cement.

The first concrete reinforced bridge was designed and built by Joseph Monier in [28]. Composition[ edit ] Many types of concrete are available, distinguished by the proportions of the main ingredients below. In this way or by substitution for the cementitious and aggregate phases, the finished product can be tailored to its application.

Strength, density, as well as chemical and thermal resistance are variables. Aggregate consists of large chunks of material in a concrete mix, generally a coarse gravel or crushed rocks such as limestoneor granitealong with finer materials such as sand.

Cementmost commonly Portland cementis associated with the general term "concrete. One of the most familiar of these alternative cements is asphalt concrete.

Other cementitious materials such as fly ash and slag cementare sometimes added as mineral admixtures see below — either pre-blended with the cement or directly as a concrete component — and become a part of the binder for the aggregate. To produce concrete from most cements excluding asphaltwater is mixed with the dry powder and aggregate, which produces a semi-liquid slurry that can be shaped, typically by pouring it into a form.

The concrete solidifies and hardens through a chemical process called hydration. The water reacts with the cement, which bonds the other components together, creating a robust stone-like material. Chemical admixtures are added to achieve varied properties. These ingredients may accelerate or slow down the rate at which the concrete hardens, and impart many other useful properties including increased tensile strength, entrainment of air and water resistance.

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Reinforcement is often included in concrete. Concrete can be formulated with high compressive strengthbut always has lower tensile strength. For this reason it is usually reinforced with materials that are strong in tension, typically steel rebar.

Mineral admixtures have become more popular over recent decades. The use of recycled materials as concrete ingredients has been gaining popularity because of increasingly stringent environmental legislation, and the discovery that such materials often have complementary and valuable properties.

The most conspicuous of these are fly asha by-product of coal-fired power plantsground granulated blast furnace slaga byproduct of steelmakingand silica fumea byproduct of industrial electric arc furnaces. The use of these materials in concrete reduces the amount of resources required, as the mineral admixtures act as a partial cement replacement.

This displaces some cement production, an energetically expensive and environmentally problematic process, while reducing the amount of industrial waste that must be disposed of. Mineral admixtures can be pre-blended with the cement during its production for sale and use as a blended cement, or mixed directly with other components when the concrete is produced.

The mix design depends on the type of structure being built, how the concrete is mixed and delivered, and how it is placed to form the structure.

Cladding of concrete frame structures

Cement Several tons of bagged cement, about two minutes of output from a 10, ton per day cement kiln Portland cement is the most common type of cement in general usage. It is a basic ingredient of concrete, mortar and many plasters.McPherson Concrete Products, Inc. Pre-Cast Concrete Structures Full Service Ready Mix Plant Concrete Pipe Concrete Manholes Concrete Culverts.

ADOT Bridge Design Guidelines SCOPE This Section contains guidelines to supplement provisions of Section 5, Concrete Structures, of the AASHTO LRFD Bridge Design Specifications.

Cast-in-Place Concrete Parking Structures Parking Structures. Parking Structures | Advantages | Notable Projects.

Concrete structures

For decades, cast-in-place concrete parking structures have been successfully constructed and utilized throughout North America. Family-owned since , Concrete Structures has been in continuous operation, completing such diverse projects as high-rise buildings, sports venues, runways, bridges, tunnels, manufacturing and distribution facilities, data centers, parking structures, and treatment plants.

Utility Structures Inc. (USI) is a precast concrete manufacturer, specializing in concrete poles for; Outdoor Streetlighting, Sports Lighting and Utility/Hydro Distribution.

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