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Precast elements

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Shrividhyah
Shrividhyah

Precast Elements

Education
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• The manufacture of the components can be done in a • factory for the commercial production established at the focal point based on the market potential or in a • site precasting yard set up at or near the site of work.
• Factory prefabrication is resorted to in a factory for the commercial production for the manufacture of standardized components on a long-term basis. • It is a capital intensive production where work is done throughout the year preferably under a closed shed to avoid effects of seasonal variations. • High level of mechanization can always be introduced in this system • where the work can be organized in a factory-like manner with the help of a constant team of workmen.
• Prefabricated components produced at site or near the site of work as possible. • This system is normally adopted for a specific job order for a limited period. • Under this category there are two types that is semi- mechanized and fully-mechanized.
• The work is normally carried out in open space with locally available labour force. • The equipment machinery used may be minor in nature and moulds are of mobile or stationary in nature.
• The work will be carried out under shed with skilled labour. • The equipment used will be similar to one of factory production. • This type of precast yards will be set up for the production of precast components of high quality, high rate of production. • Though there is definite economy with respect to cost of transportation, this system suffers from basic drawback of its non-suitability to any high degree of mechanization and no elaborate arrangements for quality control. • Normal benefits of continuity of work is not available in this system of construction.
• The various processes involved in the manufacture of precast elements may be classified as • Main Process. • Auxiliary process.
• Providing and assembling the moulds, placing reinforcement cage in position for reinforced concrete work, and stressing the wires in the case of prestressed elements; • Fixing of inserts and tubes, where necessary (for handling); • Pouring the concrete into the moulds; • Vibrating the concrete and finishing; • Curing (steam curing, if necessary); and • Demoulding the forms and stacking the • precast products.
Process necessary for the successful completion of the processes covered by the main process: • Mixing and manufacture of fresh concrete (done in a mixing station or by a batching plant); • Prefabrication of reinforcement cage (done in a steel yard or workshop); • Manufacture of inserts and other finishing items to be incorporated in the main precast products; • Finishing the precast products; and • Testing of products.
All other work involved in keeping the main production work to a cyclic working: a) Storage of materials; b) Transport of cement and aggregates; c) Transport of green concrete and reinforcement cages; d) Transport and stacking the precast elements; e) Repairs and maintenance of tools, tackles and machines; f) Repairs and maintenance of moulds, and Generation of steam, etc.
For the manufacture of precast elements all the above processes shall be planned in a systematic way to achieve the following: 1. A cyclic technological method of working to bring in speed and economy in manufacture; 2. Mechanization of the process to increase productivity and to improve quality; 3. The optimum production satisfying the quality control requirements and to keep up the expected speed of construction aimed; 4. Better working conditions for the people on the job; and 5. To minimize the effect of weather on the manufacturing schedule.
P L A N T P R O C E S S
The various accepted methods of manufacture of precast units can be broadly classified into two methods: a) The ‘Stand Method’ where the moulds remain stationary at places, when the various processes involved are carried out in a cyclic order at the same place, and b) The ‘Flow Method’ where the precast unit under consideration is in movement according to the various processes involved in the work which are carried out in an assembly-line method.
The following points shall be kept in view during stacking: a) Care should be taken to ensure that the flat elements are stacked with right side up. For identification, top surfaces should be clearly marked. b) Stacking should be done on a hard and suitable ground to avoid any sinking of support when elements are stacked. c) In case of horizontal stacking, packing materials shall be at specified locations and shall be exactly one over the other to avoid cantilever stress in panels. d) Components — should be packed in a uniform way to avoid any undue projection of elements in the stack which normally is a source of accident.
• Transport of precast elements inside the factory and to the site of erection is of considerable importance not only from the point of view of economy but also from the point of view of design and efficient management. • Transport of precast elements must be carried out with extreme care to avoid any jerk and distress in elements and handled as far as possible in the same orientation as it is to be placed in final position.
• Transport of precast elements moulded inside the factory depends on the method of production, selected for the manufacture.
• Transport of precast concrete elements from the factory to the site of erection should be planned in such a way so as to be in conformity with the traffic rules and regulations as stipulated by the Authorities. • The size of the elements is often restricted by the availability of suitable transport equipment, such as tractor-cumtrailers, to suit the load and dimensions of the member in addition to the opening dimensions under the bridge and load carrying capacity while transporting the elements over the bridge.
• While transporting elements in various systems, that is, wagons, trucks, bullock carts, care should be taken to avoid excessive cantilever actions and desired supports are maintained. • Special care should be taken at location of sharp bends and on uneven or slushy roads to avoid undesirable stresses in elements. • Before loading the elements in the transporting media, care should be taken to ensure that the base packing for supporting the elements are located at specified positions only. Subsequent packings must be kept strictly one over the other.
In the ‘erection of precast elements’, all the following items of work are meant to be included: a) Slinging of the precast element; b) Tying up of erection ropes connecting to the erection hooks; c) Cleaning of the elements and the site of erection; d) Cleaning of the steel inserts before incorporation in the joints, lifting up of the elements, setting them down into the correct envisaged position; e) Adjustment to get the stipulated level, line and plumb; f) Welding of cleats; g) Changing of the erection tackles; h) Putting up and removing of the necessary scaffolding or supports; i) Welding of the inserts, laying of reinforcements in joints and grouting the joints; and j) Finishing the joints to bring the whole work to a workmanlike finished product.
Scaffolding/props used: • Scaffolding is a temporary structure used to support people and material in the construction or repair of buildings and other large structures. • It is usually a modular system of metal pipes or tubes, although it can be from other materials. • The key elements of a scaffold are standards, ledgers and transoms.
Precast elements

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Precast elements

  • 1.
  • 2. • The manufacture of the components can be done in a • factory for the commercial production established at the focal point based on the market potential or in a • site precasting yard set up at or near the site of work.
  • 3. • Factory prefabrication is resorted to in a factory for the commercial production for the manufacture of standardized components on a long-term basis. • It is a capital intensive production where work is done throughout the year preferably under a closed shed to avoid effects of seasonal variations. • High level of mechanization can always be introduced in this system • where the work can be organized in a factory-like manner with the help of a constant team of workmen.
  • 4. • Prefabricated components produced at site or near the site of work as possible. • This system is normally adopted for a specific job order for a limited period. • Under this category there are two types that is semi- mechanized and fully-mechanized.
  • 5. • The work is normally carried out in open space with locally available labour force. • The equipment machinery used may be minor in nature and moulds are of mobile or stationary in nature.
  • 6. • The work will be carried out under shed with skilled labour. • The equipment used will be similar to one of factory production. • This type of precast yards will be set up for the production of precast components of high quality, high rate of production. • Though there is definite economy with respect to cost of transportation, this system suffers from basic drawback of its non-suitability to any high degree of mechanization and no elaborate arrangements for quality control. • Normal benefits of continuity of work is not available in this system of construction.
  • 7. • The various processes involved in the manufacture of precast elements may be classified as • Main Process. • Auxiliary process.
  • 8. • Providing and assembling the moulds, placing reinforcement cage in position for reinforced concrete work, and stressing the wires in the case of prestressed elements; • Fixing of inserts and tubes, where necessary (for handling); • Pouring the concrete into the moulds; • Vibrating the concrete and finishing; • Curing (steam curing, if necessary); and • Demoulding the forms and stacking the • precast products.
  • 9. Process necessary for the successful completion of the processes covered by the main process: • Mixing and manufacture of fresh concrete (done in a mixing station or by a batching plant); • Prefabrication of reinforcement cage (done in a steel yard or workshop); • Manufacture of inserts and other finishing items to be incorporated in the main precast products; • Finishing the precast products; and • Testing of products.
  • 10. All other work involved in keeping the main production work to a cyclic working: a) Storage of materials; b) Transport of cement and aggregates; c) Transport of green concrete and reinforcement cages; d) Transport and stacking the precast elements; e) Repairs and maintenance of tools, tackles and machines; f) Repairs and maintenance of moulds, and Generation of steam, etc.
  • 11. For the manufacture of precast elements all the above processes shall be planned in a systematic way to achieve the following: 1. A cyclic technological method of working to bring in speed and economy in manufacture; 2. Mechanization of the process to increase productivity and to improve quality; 3. The optimum production satisfying the quality control requirements and to keep up the expected speed of construction aimed; 4. Better working conditions for the people on the job; and 5. To minimize the effect of weather on the manufacturing schedule.
  • 13.
  • 14.
  • 15. The various accepted methods of manufacture of precast units can be broadly classified into two methods: a) The ‘Stand Method’ where the moulds remain stationary at places, when the various processes involved are carried out in a cyclic order at the same place, and b) The ‘Flow Method’ where the precast unit under consideration is in movement according to the various processes involved in the work which are carried out in an assembly-line method.
  • 16.
  • 17.
  • 18. The following points shall be kept in view during stacking: a) Care should be taken to ensure that the flat elements are stacked with right side up. For identification, top surfaces should be clearly marked. b) Stacking should be done on a hard and suitable ground to avoid any sinking of support when elements are stacked. c) In case of horizontal stacking, packing materials shall be at specified locations and shall be exactly one over the other to avoid cantilever stress in panels. d) Components — should be packed in a uniform way to avoid any undue projection of elements in the stack which normally is a source of accident.
  • 19. • Transport of precast elements inside the factory and to the site of erection is of considerable importance not only from the point of view of economy but also from the point of view of design and efficient management. • Transport of precast elements must be carried out with extreme care to avoid any jerk and distress in elements and handled as far as possible in the same orientation as it is to be placed in final position.
  • 20. • Transport of precast elements moulded inside the factory depends on the method of production, selected for the manufacture.
  • 21. • Transport of precast concrete elements from the factory to the site of erection should be planned in such a way so as to be in conformity with the traffic rules and regulations as stipulated by the Authorities. • The size of the elements is often restricted by the availability of suitable transport equipment, such as tractor-cumtrailers, to suit the load and dimensions of the member in addition to the opening dimensions under the bridge and load carrying capacity while transporting the elements over the bridge.
  • 22. • While transporting elements in various systems, that is, wagons, trucks, bullock carts, care should be taken to avoid excessive cantilever actions and desired supports are maintained. • Special care should be taken at location of sharp bends and on uneven or slushy roads to avoid undesirable stresses in elements. • Before loading the elements in the transporting media, care should be taken to ensure that the base packing for supporting the elements are located at specified positions only. Subsequent packings must be kept strictly one over the other.
  • 23. In the ‘erection of precast elements’, all the following items of work are meant to be included: a) Slinging of the precast element; b) Tying up of erection ropes connecting to the erection hooks; c) Cleaning of the elements and the site of erection; d) Cleaning of the steel inserts before incorporation in the joints, lifting up of the elements, setting them down into the correct envisaged position; e) Adjustment to get the stipulated level, line and plumb; f) Welding of cleats; g) Changing of the erection tackles; h) Putting up and removing of the necessary scaffolding or supports; i) Welding of the inserts, laying of reinforcements in joints and grouting the joints; and j) Finishing the joints to bring the whole work to a workmanlike finished product.
  • 24. Scaffolding/props used: • Scaffolding is a temporary structure used to support people and material in the construction or repair of buildings and other large structures. • It is usually a modular system of metal pipes or tubes, although it can be from other materials. • The key elements of a scaffold are standards, ledgers and transoms.