- •Федеральное агентство по образованию
- •Удк 802:62(075.8)
- •П р е д и с л о в и е
- •Part I. Highway construction road
- •Vocabulary notes
- •From the history of roads
- •Vocabulary notes
- •Road engineering
- •Vocabulary notes
- •Building a road
- •Vocabulary notes
- •Impact on society
- •Vocabulary notes
- •Problems of safety
- •Cars: passion or problem
- •Components of the automobile
- •Making a car panel
- •Finding a fault in a car
- •Vocabulary notes
- •Modern buses
- •Vocabulary notes
- •Motor companies
- •Vocabulary notes
- •Ford motor company
- •Vocabulary notes
- •General motors company
- •Vocabulary notes
- •Chrysler
- •Vocabulary notes
- •Modern transportation vehicles and systems
- •Vocabulary notes
- •A car cooling system
- •Fuel warning light
- •Test II
- •Part II. Housing construction engineering
- •Engineering as a profession
- •Vocabulary notes
- •Types of engineering
- •Vocabulary notes
- •Civil engineering
- •Vocabulary notes
- •Building materials cement
- •Vocabulary notes
- •Vocabulary notes
- •General properties of clay bricks
- •Vocabulary notes
- •Concrete
- •Vocabulary notes
- •Requirements for concrete quality
- •Vocabulary notes
- •Admixtures for concrete
- •Vocabulary notes
- •Gas concrete
- •Vocabulary notes
- •The structural use of plastics in building
- •Vocabulary notes
- •Prestressed concrete structures structures
- •Vocabulary notes
- •Reasons for prestressing
- •Principles of prestressing
- •Vocabulary notes
- •Systems and methods of prestressing
- •Vocabulary notes
- •How prestressed concrete works
- •Vocabulary notes
- •Prestressed beams, arch beams, slabs and shells
- •Vocabulary notes
- •Building industry
- •Vocabulary notes
- •Building houses
- •Vocabulary notes
- •Foundations
- •Vocabulary notes
- •Brickmaking
- •Vocabulary notes
- •Bricklaying
- •Vocabulary notes
- •Partition walling
- •The new look in buildings
- •Vocabulary notes
- •High-rise building
- •Vocabulary notes
- •Glass-walled skyscaper
- •26-Storey blocks at wyndford, glasgow
- •National theatre of japan
- •Round tower in sydney’s australia square
- •Scotland’s largest supermarket
- •Modern bridge designs
- •Vocabulary notes
- •Test II
- •Part III. Texts for supplementary reading National and international highway systems
- •In search of smoother roads
- •Concrete protection
- •Innovative backfill for bridge
- •Germany’s highway vision
- •Forming a tunnel
- •Bridge or Tunnel?
- •Prestressed concrete runways and concrete pavements
- •Bridge at Kirchkein, Germany
- •The George Washington Bridge bus terminal, New York
- •Constructing a skyscraper
- •Eastbourne’s new Congress Theatre
- •Diaphragm walls
- •Thin diaphragm cut-off walls
- •The scope of civil engineering.
- •Why “civil” engineer?
- •Vocabulary part I
- •Part II
- •Библиографический список
- •Содержание
- •Пособие по английскому языку
Constructing a skyscraper
New methods in the design and construction of skyscrapers have been closely related to the development of computers. Engineers use computers to solve the complex mathematical problems involved in such construction projects. Computers do this work quickly by breaking the design down into a limited number of recalculated elements.
When an organization decides to erect a skyscraper it usually signs a contract with building firm. The company awards the contract after many firms have submitted bids showing the price they will charge and the time they will need to erect the building. The company that receives the contract must make detailed building plans that construction can be done as quickly and as cheaply as possible. The construction firm often subcontracts to other companies such work as electrical wiring, plumbing, and bricklaying. Such subcontracting saves money because it means using a worker only when the production schedule requires the individual’s services.
Before construction begins, engineers determine the strength of the soils that will lie underneath the new building. With this information, they can design the proper foundation. After the building site is cleared, leveled, and drained of water, excavation (digging) begins. Mobile diggers usually excavate the foundation. Ground made of rock may be excavated by blasting.
Sometimes workers dig a trench on all sides of the foundation and fill it with concrete before excavation begins. Any excavation that may cave in is braced and shored with wood or steel. Pumps can be used to keep water from the excavation area at all times. But if the soil becomes too watery, caissons (protective walls) may be built so the work can continue.
After the excavation is finished, the footings (base) and the superstructure are built. Most steel used in the superstructure, such as beams, girders, and columns comes prefabricated. Each piece of steel should have a number indicating the exact place where it should be used. When the steel is raised into place, workers fasten the pieces together temporarily with bolts. Later, welders and riveters join these pieces together permanently.
Most kinds of derricks and cranes are used in the construction of skyscrapers. The two main kinds are mobile cranes and tower cranes. Mobile cranes are mounted on trucks or special vehicles and can maneuver around the outside of the building to hoist materials and equipment from various locations. Tower cranes are supported on a steel tower erected next to or inside a building’s framework. They can only hoist materials positioned within the maximum radius of their lifting mechanisms. Some tower cranes can add sections to increase the height of their support tower as the building goes up. Others are mounted directly on the recently constructed upper storey of the building’s framework. A derrick, mobile crane, or even a helicopter can help in removing sections of a tower crane once the building is nearly complete.
After workers complete the superstructure and outside walls, the building is ready to be finished, decorated, and furnished.
Often used in high class work as a finishing to a reinforced concrete roof slab, but very seldom to timber flat roof construction.
The old method of soldering metal sheets together has now been largely replaced by welted joints, which are made by a special efficient mechanical device. The welted joint, executed in this way, is a rather rapid means of jointing and effectively allows for expansion and contraction of the metal covering.