Concrete foundation wall reinforcing

By - , Build 167

Reinforcing is an integral part of all concrete and concrete masonry. We review NZS 3604:2011 requirements for foundation walls in timber-framed buildings so you can get this right.

Figure 5 Stepped foundation walls.
Figure 1 Reinforcing for in situ concrete foundation wall for single storey.
Figure 2 Reinforcing for cantilevered foundation wall for 1 or 2 storeys.
Figure 3 Reinforcing for in situ concrete foundation edge detail for 1 or 2 storeys.
Figure 4 Reinforcing for concrete masonry foundation edge detail for 1 or 2 storeys.

NZS 3604:2011 Timber-framed buildings describes reinforcing for in situ concrete and concrete masonry foundation walls used in conjunction with a piled foundation system supporting lightweight timber-framed construction – refer to paragraph 6.11.7 and Figures 6.13, 6.14 and 6.15 of the standard.

Basics of reinforcing

Reinforcing generally consists of 12 mm diameter deformed (D12) bars. The use of deformed bars, which have an irregular surface, creates a good bond between the reinforcing and the concrete. They are installed both horizontally and vertically at spacings depending on:

  • the height of the wall
  • whether the wall is in situ concrete or concrete masonry
  • whether the wall is to support 1 or 2-storey construction
  • whether the wall is cantilevered or not.

The details for reinforcing in situ concrete and concrete masonry foundation walls are summarised in Table 1 and shown in Figures 1 and 2.

Table 1 REINFORCING FOR FOUNDATION WALLS

 
 
TYPE OF FOUNDATION WALL REINFORCING
FOOTING WALL HORIZONTAL WALL VERTICAL
In situ concrete   1-storey building (wall not cantilevered) 1/D12* D12 @ 450 mm centres plus one D12 at top for walls > 1 m high D12 @ 600 mm centres for walls > 1 m high
2-storey building (wall not cantilevered) 2/D12 D12 @ 450 mm centres plus one D12 at top for walls > 1 m high D12 @ 500 mm centres for walls > 1 m high
1 or 2-storey building (cantilevered wall) D12 @ 400 mm centres both ways (see Figure 2) One D12 @ 400 mm centres plus one D12 at top D12 @ 400 mm centres maximum
Concrete masonry   1-storey building (wall not cantilevered) 1/D12* One D12 at top and one D12 at mid height for walls > 1 m high D12 @ 800 mm centres
2-storey building (wall not cantilevered) 2/D12 D12 at mid height for walls > 1 m high and D12 at top D12 @ 800 mm centres
Cantilevered wall D12 @ 400 mm centres both ways (see Figure 2) D12 @ 800 mm centres D12 @ 400 mm centres

* 2/D12 where foundation wall supports masonry veneer.

Figure 1 Reinforcing for in situ concrete foundation wall for single storey.
Figure 2 Reinforcing for cantilevered foundation wall for 1 or 2 storeys.

When combined with concrete slab-on-ground floors

NZS 3604:2011 contains details of reinforcing for perimeter footings combined with concrete slab-on-ground floors supporting lightweight construction – refer to Figures 7.13(B), 7.14(B) and 7.14(C) of the standard.

The standard also contains details of the reinforcing if the combined perimeter footing/concrete slab-on-ground floor also supports masonry veneer cladding – refer to Figures 7.15(B), 7.16(B) and 7.16(C).

The details for reinforcing combined footing/concrete floor slabs are summarised in Table 2 and shown in Figures 3 and 4.

Note that Building Code B1/AS1 Amendment 11 removed the untied slab/footing details in Figures 7.13(A), 7.14(A), 7.15(A) and 7.16(A) of the standard. All concrete slab-on-ground floors must now be reinforced and the slab reinforcing tied into the perimeter footing reinforcing.

Table 2 REINFORCING FOR COMBINED FOUNDATION/CONCRETE FLOOR SLAB

 
 
FOUNDATION EDGE DETAIL   REINFORCING
FOOTING (BASE OF FOUNDATION WALL) HORIZONTAL (TOP OF FOUNDATION WALL) VERTICAL LAP (SLAB MESH AND FOOTING REINFORCING)
In situ concrete (1 or 2 storeys) Two D12 One D12 (top) R10 @ 600 mm centres 300 mm
In situ concrete (1 or 2 storeys supporting masonry veneer) Two D12 (placed horizontally) One D12 (top) R10 @ 600 mm centres 400 mm
Concrete masonry (1 or 2 storeys supporting lightweight cladding) Two D12 (placed horizontally or vertically) One D12 (top) R10 @ 600 mm centres (hooked around horizontal reinforcing in footing in alternating directions – see Figure 4) 300 mm
Concrete masonry (1 or 2 storeys supporting masonry veneer) Two D12 (placed horizontally) One D12 (top) R10 @ 600 mm centres (hooked around horizontal reinforcing in footing in alternating directions – see Figure 4) 400 mm
Figure 3 Reinforcing for in situ concrete foundation edge detail for 1 or 2 storeys.
Figure 4 Reinforcing for concrete masonry foundation edge detail for 1 or 2 storeys.

Laps and changes in direction

Where horizontal reinforcing bars change direction and in other situations where they must be lapped, the overlaps must be a minimum of 500 mm. At corners, the laps must be at least 500 mm in each direction as shown in NZS 3604:2011 Figure 6.15(a).

Lapped reinforcing should be tied with 1.6 mm black annealed steel wire, which is soft and easily bent, at each end of the lap and at regular spacings in between.

Stirrups and bends

Where pairs of horizontal reinforcing bars are required in the footings of combined foundation wall/concrete slab-on-ground floors, they must be linked by stirrups. The stirrups are formed from the R10 (plain) reinforcing bars installed at 400 mm centres and tied with steel wire ties at the junctions of the reinforcing and the stirrups (see Figure 4). Plain reinforcing bars used as stirrups have a minimum bend diameter of two times the diameter of the bar.

The bends in the deformed longitudinal reinforcing that form a hook or create a right angle must be at least five times the diameter of the bar – for example, the minimum bend diameter for 12 mm diameter deformed reinforcing is 60 mm.

Other reinforcing requirements

Other reinforcing requirements for foundation walls and footings:

  • Stepped footings must have additional reinforcing in accordance with NZS 3604:2011 Figure 6.12 (see Figure 5).
  • Where concrete or concrete masonry is against ground, reinforcing must have a minimum concrete cover of 75 mm.
  • Openings in foundation walls larger than 300 mm in any direction must have one D12 trimming bar on each side of the opening. These bars must extend at least 600 mm past each corner of the opening. Where a lintel is less than 650 mm deep, the jamb trimming bars must be bent near their tops at 60 mm from the top of the concrete.
Figure 5 Stepped foundation walls.

Quiz

1. The deformed reinforcing for concrete and concrete masonry foundation walls to NZS 3604:2011 is:
a. 8 mm in diameter.
b. 10 mm in diameter.
c. 12 mm in diameter.
d. 16 mm in diameter.

2. Deformed bars are used because they:
a. slip more easily through the concrete.
b. form a good bond with the concrete.

3. Laps to the D12 horizontal reinforcing must be at least:
a. 300 mm.
b. 500 mm.
c. 700 mm.
d. 1000 mm.

4. The minimum bend diameter of R10 reinforcing for stirrups is:
a. 20 mm.
b. 55 mm.
c. 60 mm.
d. 65 mm.

Answers: 1. c  2. b  3. b  4. a

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Articles are correct at the time of publication but may have since become outdated.

Figure 5 Stepped foundation walls.
Figure 1 Reinforcing for in situ concrete foundation wall for single storey.
Figure 2 Reinforcing for cantilevered foundation wall for 1 or 2 storeys.
Figure 3 Reinforcing for in situ concrete foundation edge detail for 1 or 2 storeys.
Figure 4 Reinforcing for concrete masonry foundation edge detail for 1 or 2 storeys.

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