Example 2|www.BuildingHow.com

VOLUME A
The art of construction and detailing
Introduction
The structural frame
- Introduction
- Structural frame elements
  - Columns
  - Beams
  - Slabs
  - Staircases
  - Foundation
- STRUCTURAL FRAME LOADING
- BEHAVIOR OF THE STRUCTURAL FRAME
  - The behavior and reinforcement of a slab
  - Behavior and reinforcement of beams and columns
Construction methods
- The materials
- The moulds
- Thermal insulation of structural elements
- Concrete
- The steel
- Reinforcement specifications of antiseismic design
- Industrial stirrups - stirrup cages
- Standardized cross-sections of reinforced concrete elements
Reinforcement
- Columns
- Shear walls
- Composite elements
- Beams
- Slabs
- Staircases
- Foundation
Quantity surveying
- Estimation of the concrete’s quantity
- Estimation of the formworks’ quantity
- Estimation of the spacers’ quantity
- Estimation of the reinforcements' quantity
- Total estimation of the materials’ quantities
- Optimization of the reinforcement schedule
- Estimation of the structural frame’s cost
- Electronic exchange of designs - bids - orders
Detailing drawings
- General
- The drawings’ title block
- Carpenter’s drawings
- Steel fixer’s drawings
Tables
- Table 1
- Table 2
- Table 3
Drawings
- Carpenter’s drawings
- Steel fixer’s drawings
Model (exemplary) construction

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Example 2

(project <Β_422-2>)

Figure 4.2.3-12: Shear force envelopes

The most unfavourable shear forces are equal to:

x direction: V_xr=22.8 (20.6) [*]NoteThe respective results corresponding to global loading are shown in brackets. , V_x,erm=-34.7 (-34.7) [kN]
y direction: V_yr=16.6 (15.3) [kN]

Figure 4.2.3-13: Front view of the 3D shear force diagrams, corresponding to the envelope of [V_x]

Figure 4.2.3-16: Front view of the 3D bending moment diagrams, corresponding to the envelope of [M_x]

Notice that although the live load has a relatively high value, the shear forces do not differ more than 10%. Of course, this is due to the fact that only 2 spans exist and the unfavourable shear forces at the supports result from the global loading 1.35g+1.50q. The differences would be even higher in multiple spans.

Figure 4.2.3-15: Bending moment envelopes

The most unfavourable bending moments are equal to:

x direction: M_x=18.6 (15.5) [*]NoteThe respective results corresponding to global loading are shown in brackets. , M_x,erm=-27.4 (-27.4) [kNm]
y direction: M_y=4.1 (3.6) [kNm]

Note that although the live load has a relatively high value, the differences between the moments are small and less than 20%.

Figure 4.2.3-18: Deflection envelopes

The most unfavourable slab deflection is equal to y=-2.94 mm (-2.10 mm) [*] Note NoteThe respective results corresponding to global loading are shown in brackets. and y=+0.48, i.e. the slab is lifted in this case as well, in contrast with the response of global loading case.

Figure 4.2.3-20: Side view of the 3D deflection diagrams

Notice that the deflections are as high as 40% while opposite sign deformations also arise (blue lines).

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