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Upper floor construction



Part I

Upper floors should not span more than 5 metres in simple buildings. The two most common types of construction 1) _____ upper floors are timber floors and reinforced concrete floors.

Both types of floor may need additional support for larger spans.

Timber floor construction

A first floor span 2) _____ 5 metres is the limit for simple timber floor construction 3) _____ a small building. Table 11.1 shows the maximum practical limit.

Table 11.1. Structural Limits for Timber Floors

Structural part Structural limit
Joist 225×75
Span 4.8 metres at joist interval of 400 mm
Load 0.5 – 1.0 kN/m2

The joists may bend 4) _____ the load if the span is 5) _____ 3 and 5 metres. A twisting joist can weaken the floor. The struts can be used to stiffen the entire floor structure. There are two methods of making struts:

· herringbone, which consists 6) _____ two length of 50×50 mm timbers fixed so that they criss-cross the top and bottom edges of the joists and are nailed 7) _____ to make a herringbone pattern;

· solid, which consists of a number of pieces of 38 mm timber of similar depth 8) _____ the joists. They are cut to fit tightly 9) _____ adjacent joists and are skewnailed.

The types of timber floor that are suitable 10) _____ upper floor are the same as for the ground floor.

between (x2) for(x2) in in the middle of (x2) to under

12 Fill in the gaps with derivatives of the words in capitals:

UPPER FLOOR CONSTRUCTION Part II Reinforced concrete first-floor construction Most reinforced concrete 1) _____ floors are cast in situ. Two forms of 2) _____ are possible: 1. a solid concrete slab with main reinforcement that spans the 3) _____ distance with secondary 4) _____that spans the longer distance; 2. a hollow pot floor with beams that span the shorter distance only. The 5) _____ of the concrete and size and distribution of the steel reinforcement bars are complex issues that depend on the distance to be spanned. The general principles of the design of reinforced concrete suspended slabs should be followed (Figure 11.5): · Concrete is strong when compressed, but weak under tension. It should be reinforced where subjected to 6) _____; · Concrete sags or deflects when it spans between supports. This creates 7) _____ in the top half of a slab and tension in the bottom half; · Steel reinforcement bars will resist tension if they are 8) _____ into the bottom of the slab; · If the slab is laid 9) _____ over an intermediate support, then the deflection is reversed, the tension moves to the top of the slab, which then 10) _____ the steel reinforcement. SUSPEND CONSTRUCT SHORT REINFORCE THICK TENSE COMPRESS BUILD CONTINUOUS REQUIRE
a) a concrete slab without loading b) loading concrete deflecting under the load c) putting steel in the bottom of the slab
d) an unreinforced slab is impossible to use e) a reinforced slab makes suspended concrete construction possible
         

Figure 11.5 Principles of Deflection in Concrete





Дата публикования: 2014-11-02; Прочитано: 8188 | Нарушение авторского права страницы | Мы поможем в написании вашей работы!



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