Design of Reinforced Flat Slabs to BS 8110, CONTENTS:
1 INTRODUCTION
2 GENERAL BEHAVIOUR OF SLABS UNDER LOAD
2.1 Typical moment/load behaviour
2.2 Effect of horizontal loading
2.3 Influence of number of slab bays
2.4 Effect of vertical load distribution
3 MOMENT TRANSFER AT INTERNAL COLUMNS
4 MOMENT TRANSFER AT EDGE COLUMNS
5 LATERAL DISTRIBUTIONS OF MOMENTS AND REINFORCEMENT
6 SHEAR IN FLAT SLABS
6.1 Effective shear force at internal columns
6.2 Effective shear force at external columns
6.3 Shear resistance
7 EDGE BEAMS
8 WAFFLE SLABS
9 SLABS WITH DROPS AND/OR HEADS
10 HOLES IN FLAT SLABS
10.1 Holes adjacent to columns
10.2 Holes in area bounded by a column strip
10.3 Holes in area common to two-column strips
10.4 Holes in area common to a column strip and a middle or inner strip
11 LARGE COLUMNS
12 LOAD TRANSFER AT CORE WALLS
13 EQUIVALENT FRAME MODELLING
13.1 Division of flat slab into frames
13.2 Section properties
13.3 Lateral distribution of moments and reinforcement
13.4 Large columns
13.5 Load cases
14 GRILLAGE/FINITE ELEMENT MODELLING
14.1 Member layout
14.2 Member width
14.3 Loading
14.4 Support conditions
14.5 Choice of member properties
14.6 Interpretation of grillage analysis results
14.7 Examples of use of grillage method
15 REINFORCEMENT DETAILING
15.1 Lateral distribution of reinforcement
15.2 Hogging at mid-span
15.3 Torsion at slab edge
15.4 Edge beams
15.5 Shear reinforcement
15.6 Waffle slabs
15.7 Slabs with drops and heads
15.8 Holes in slab
15.9 Nominal reinforcement
16 SCHEME DESIGN CHECK LIST
REFERENCES
APPENDIX 1 Comparison of grillage analysis with laboratory tests
APPENDIX 2 Example of grillage analysis of waffle floor
Design of Reinforced Flat Slabs to BS 8110
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