Prefabrication
Prefabrication is the practice of assembling components of a structure in a factory or another manufacturing site and transporting complete assemblies or sub-assemblies to the construction site where the structure is to be located. The term is used to distinguish this process from the more conventional construction practice of transporting the basic materials to the construction site where all assembly is carried out.
The term prefabrication also applies to the manufacturing of things other than structures at a fixed site. It is frequently used when the fabrication of a section of a machine or any movable structure is shifted from the main manufacturing site to another location, and the section is supplied assembled and ready to fit.
It is not generally used to refer to electrical or electronic components of a machine, or mechanical parts such as pumps, gearboxes, and compressors which are usually supplied as separate items, but to sections of the body of the machine that in the past were fabricated with the whole machine. Prefabricated parts of the body of the machine may be called sub-assemblies to distinguish them from the other components.
Process of Prefabrication
An example from house-building illustrates the process of prefabrication. The conventional method of building a house is to transport bricks, timber, cement, sand, steel, construction aggregate, etc. to the site, and construct the house on site from these materials. In prefabricated construction, only the foundations are constructed in this way, while sections of walls, floors, and roofs are prefabricated (assembled) in a factory (possibly with windows and door frames included), transported to the site] lifted into place by a crane and bolted together.
Prefabrication is used in the manufacture of ships, aircraft, and all kinds of vehicles and machines where sections previously assembled at the final point of manufacture are assembled elsewhere instead, before being delivered for final assembly.
Prefabrication is used in the manufacture of ships, aircraft, and all kinds of vehicles and machines where sections previously assembled at the final point of manufacture are assembled elsewhere instead, before being delivered for final assembly.
The theory behind the method is that time and cost are saved if similar construction tasks can be grouped, and assembly line techniques can be employed in prefabrication at a location where skilled labor is available, while congestion at the assembly site. which wastes time, and can be reduced.
The method finds application, particularly where the structure is composed of repeating units or forms, or where multiple copies of the same basic structure are being constructed. Prefabrication avoids the need to transport so many skilled workers to the construction site, and other restricting conditions such as a lack of power, lack of water, exposure to harsh weather, or a hazardous environment
are avoided. Against these advantages must be weighed the cost of transporting prefab-created sections and lifting them into position as they will usually be larger, more fragile, and more difficult to handle than the materials and components of which they are made.
History of Prefabrication
Prefabrication has been used since ancient times. For example, it is claimed that the world's oldest known engineered roadway, the Sweet track constructed in England around 3800 BC, employed prefabricated timer sections brought to the site rather than assembled on-site. Sinhalese kings of ancient Sri Lanka used prefabricated buildings technology to erect giant structures, which dates back as far as 2000 years, where some sections were prepared separately and then fitted together, especially in the kingdom of Anuradhapura and kingdom of Polonnaruwa The method was widely used n the construction of prefabricated housing in the 20th century, such as in the United Kingdom to replace houses bombed during World War II.
Assembling sections in factories saved time on site and reduced costs. However the quality was low, and when such prefabricated housing was left in use for longer than its designed life, it acquired a certain stigma. The Crystal Palace, erected in London in 1851, was a highly visible example of iron and glass prefabricated construction; it was followed on a smaller scale by Oxford Rewley Road railway station.
Uses of Prefabrication
The most widely-used form of prefabrication in building and civil engineering is the use of prefabricated concrete and prefabricated steel sections in structures where a particular part or form is repeated many times. It can be difficult to construct the formwork mold concrete components on-site, and delivering wet concrete to the site before it starts to set requires precise time management.
Pouring concrete sections in a required tory brings the advantages of being able to reuse molds and the concrete can be mixed on the spot without having to be transported to and pumped wet on a congested construction site. Prefabricating steel sections reduce on-site cutting and welding costs as well as the associated hazards.
Prefabrication techniques are used in the construction of apartment blocks, and housing developments with repeated housing units. The quality of prefabricated housing units had increased to the point that they may not be distinguishable from traditionally-built units to those that live in them. The technique is also used in office blocks, warehouses, and factory buildings. Prefabricated steel and glass sections are widely used for the exterior of large buildings
Detached houses, cottages, log cabins, saunas, etc. are also sold with prefabricated elements. Prefabrication of modular wall elements allows the building of complex thermal insulation, window frame components, etc. on an assembly line, which tends to improve quality over the on-site construction of each individual wall or frame. Woof construction in particular benefits from the improved quality.
Prefabrication techniques are used in the construction of apartment blocks, and housing developments with repeated housing units. The quality of prefabricated housing units had increased to the point that they may not be distinguishable from traditionally-built units to those that live in them. The technique is also used in office blocks, warehouses, and factory buildings. Prefabricated steel and glass sections are widely used for the exterior of large buildings
Detached houses, cottages, log cabins, saunas, etc. are also sold with prefabricated elements. Prefabrication of modular wall elements allows the building of complex thermal insulation, window frame components, etc. on an assembly line, which tends to improve quality over the on-site construction of each individual wall or frame. Woof construction in particular benefits from the improved quality.
However, tradition often favors building by hand in many countries, and the image of prefab as a "cheap" method only slows its adoption. However, a current practice already allows modifying the floor plan according to the customer's requirements and selecting the surfacing material, e.g.a personalized brick facade can be masoned even if the load-supporting elements are timber.
Prefabrication saves the engineering time of the construction site in civil engineering projects. This can be vital to the success of projects such as bridges and avalanche galleries, where weather conditions may only allow brief periods of construction.
Prefabrication saves the engineering time of the construction site in civil engineering projects. This can be vital to the success of projects such as bridges and avalanche galleries, where weather conditions may only allow brief periods of construction.
Prefabricated bridge elements and systems offer bridge designers and contractors a significant advantage in terms of construction time, safety, environmental impact, constructability, and cost. Prefabrication can also help minimize the impact on traffic from bridge buildings. Additionally, small commonly-used structures such as concrete pylons are in most cases prefabricated.
Radio towers for mobile phones and other services often consist of multiple prefabricated sections. Modern lattice towers and guyed masts are also commonly assembled of prefabricated elements.
Prefabrication has become widely used in the assembly of aircraft and spacecraft with components such as wings and fuselage sections often being manufactured in different countries or states from the final assembly site. However, this is sometimes for Partial rather than commercial reasons e.g. Airbus.
Radio towers for mobile phones and other services often consist of multiple prefabricated sections. Modern lattice towers and guyed masts are also commonly assembled of prefabricated elements.
Prefabrication has become widely used in the assembly of aircraft and spacecraft with components such as wings and fuselage sections often being manufactured in different countries or states from the final assembly site. However, this is sometimes for Partial rather than commercial reasons e.g. Airbus.
Advantages of Prefabrication
- Self-supporting ready-made components are used, so the need for formwork shuttering and scaffolding is greatly reduced.
- Construction time is reduced and buildings are completed sooner, allowing an earlier return on the capital invested.
- On-site construction and congestion are minimized.
- Quality control can be easier in a factory assembly line setting than in a construction site setting.
- Prefabrication can be located where skilled labor is more readily available and costs of labor, power materials, space, and overheads are lower.
- Time spent in bad weather or hazardous environments at the construction site is minimized.
- Less waste may occur.
- Advanced materials such as sandwich-structured composite can be easily used, improving thermal and sound insulation and airtightness.
Disadvantages of Prefabrication
- Careful handling of prefabricated components such as concrete panels or steel and glass panels is required.
- Attention has to be paid to the strength and corrosion resistance of the joining of the Prefabricated section to avoid failure of the point.
- Similarly, Leaks can form at joints in prefabricated components.
- joining of prefabricated sections to avoid failure of the joint.
Transportation costs may be higher for voluminous prefabricated sections than for the materials of which they are made, which can often be packed more efficiently. - Large prefabricated sections require heavy-duty cranes and precision measurement and handling to place in position.
- Larger groups of buildings from the same type of prefabricated elements tend to look drab and monotonous.
- Local jobs are lost.