CONSTRUCTION TECHNOLOGY 3 CODE:AAR 551 SEMESTER :04 CREDIT UNIT :3 CONTACT HOUR :3 HRS LECTURE LECTURER : MUHAMMAD HAFIZ BIN TAJUDDIN
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Chapter 1 – Substructure » Soil investigations » Choice of foundation in relation to soil condition » Shallow foundation: pad, strip & raft. » Basic understanding of piling » Basement construction and waterproofing Chapter 2 – Superstructure » Types of reinforce concrete frame structure » Column and beam » Floor: two-way span, one way span, Types of slab: flat slab, flat plate and waffle slab » Roof: flat roof Chapter 3 – Formwork » Timber » Steel Chapter 4 – Reinforcement Chapter 5 – Walls » Masonry infill with stiffener, concrete panel, party wall
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Chapter 6 – Staircase » Types of structure – String Beam, Cranked Slab, Cantilever, Inclined Slab, Continuous Slab And Spiral . » Types of design - Dogged leg, bifurcated, quarter turn and geometrical Chapter 7 – Ramps: for vehicles, pedestrians and handicapped. Chapter 8 – Concrete » Composition, Types of concrete, Manufacturing and Test for concrete Chapter 9 – Finishes and Protection » various types of concrete surfaces: plaster, paints, decorative coatings Chapter 10 – Concrete, cement and ceramic products » Bricks, blocks, pavers, roof tiles, floor and wall tiles Chapter 11 – External works » Fencing » Surface drain » Pavement and road » Retaining wall
COURSE OUTLINE
COURSE DESCRIPTION
• Study on the principles of in-situ reinforcement frame construction for small to medium scale, medium rise buildings and structures. • Sub-structure, super-structure, stairs and external works. • Production process, properties, characteristics, application and performance of concrete, cement, ceramic and other products.
COURSE OUTCOME Upon completion of this course, students should be able to: • Illustrate the construction requirement related to reinforced concrete structures applicable for small to medium scaled building. (C3) • Reproduce the construction methods of reinforced concrete structures related to small to medium scaled building. (P3) • Apply the principles of reinforced concrete frame construction into the design project. (C3)
SYLLABUS CONTENT
REFERENCES
• In-situ reinforced concrete construction for small and medium scaled building: Sub-structure Super-structure
1. Nawy, E. G., (2009), Reinforced Concrete:A Fundamental Approach, N.J.,Prentice Hall 2. R.Chudley & R. Green (2006), Advance Construction Technology, Pearson Prentice Hall 3. Spiegel, L., (2003), Reinforced Concrete Design, N.J., Prentice Hall 4. Ambrose, J.E., (1991), Building Construction:Site and BelowGrade Systems, london, E. & F.N. Spon 5. Barry, A., (1991), Defect &Deterioration in Buildings, london,E.&F.N.Spon 6. Foster, J.S.,(1976) Structure and Fabric, Part 1,(Mitchell’s Building Construction), London, Batsford
• Various aspects of concrete as building material. • Reinforced concrete structures in accordance with the Uniform Building By-Laws (UBBL) 1984. • Studies on concrete, cement and ceramic products which include factors of selection and application of bricks, pavers, roof tiles, floor and wall tiles and current products.
TEACHING REQUIRED
METHODS/MATERIALS
This subject is taught through formal lectures, tutorials, case studies, laboratory tests, factory visit and site visit. The main coursework shall be the structuring and detailing of a concrete frame building. The size and complexity is based on the selected project as executed in current design project.
ASSESSMENT Assessment will be based on coursework (assignment / seminars) and final examination.
The proportion of marks allocated shall be as follows: Coursework 40% Final examination 60% Total 100%
Chapter 1- Substructure site investigation/foundation/building movement
Chapter 1- Substructure site investigation/foundation/building movement Pad foundation Anti termite treatment to pad foundation
Driving pile
Ground beam
Chapter 1- Substructure site investigation/foundation/building movement
Chapter 2 – Superstructure column, beam & floor structure
Parameter beam structure Column structure Transfer beam
Chapter 3 – Formwork column, beam & slab formwork
Floor slab formwork Column formwork
Staircase formwork
Beam formwork
Chapter 4 – Reinforced Concrete
Reinforcement bars (rebars)
Chapter 5 – Walls non-load bearing wall/party wall
Non-load bearing wall
r.c lintel
Brickwork party wall
Chapter 5 – Walls non-load bearing wall/party wall
Chapter 6 – Staircase types of staircase/staircase structures
Geometrical/ spiral staircase Dog-legged bifurcated
Chapter 7 – Ramps ramp design for disabled
ramps
Chapter 8 – Concrete composition/types/defects
Conrete test Concrete composition Types of concrete Concrete defects
Chapter 9 – Roof Finishes Concrete roof tiles/flat roof
Concrete flat roof Concrete flat
Concrete roof tiles
Chapter 10 – Floor finishes composition/types/properties
Ceramic tiles
Marble
Coloured concrete
Chapter 11 – External Works fencing/drains/retaining wall/site preparation Fencing and surface drain
Retaining wall
Site preparation
THANK YOU