What is
Concrete Slab.
The concrete slab is a Horizontal structural element to provide a flat surface for arranging floors and ceilings . Concrete Slabs are reinforced with mild steel bars having
different diameters and surfaces like deformed steel bars and Twisted/Tor Bars
to produce good bonding with concretes.
Steel Types
used in Concrete.
According
to strength, there are two types of Steel used in construction.
1, Low
carbon Steel /Mild steel.
2, High
carbon steel.
In
construction Mild steel is usually used in all types of Civil engineering
structures but High carbon steel is preferred in Precast structures only.
Mild
steel or low carbon steel is mostly used
in construction because of its more protection against corrosion.
In
most structures Grade 60 is preferred because of economic suitability and its minimum Yield strength is
used in designing RCC structures.
STRENGTH in (PSI) |
Grade 40 |
Grade 60 |
Grade75 |
Minimum Yield Strength |
40000 |
60000 |
75000 |
Maximum Yield Strength |
60000 |
90000 |
100000 |
Concrete mix
for RCC/PCC slabs.
DETAILS
OF CONCRETES |
||
TYPE OF CONCRETE |
MIX RATIO |
COMPRESSIVE STRENGTH in (PSI) AFTER
28 DAYS |
PCC |
(1:5:10) |
1000 |
PCC |
(1:4:8) |
1500 |
PCC |
(1:3:6) |
2000 |
RCC |
(1:2:4) |
3000 |
RCC |
(1:1.5:3) |
4000 |
RCC |
(1:1:2) |
4500 |
Generally,
the above mixtures are used in the production of Plain cement concretes and
Reinforced cement concretes but special concretes may be produced by special
measuring and testing in labs. These special concretes are made for high
loading demands using moderated tools and materials and specialists are needed
to produce such high-strength concretes.
Some
of these special concretes are as follows
M25 (25MPa)= 3625 PSI
M30 (30MPa)= 3625 PSI
M35 (35MPa)= 5075 PSI
M40 (40MPa)= 5800 PSI
M50 (50MPa)= 6525 PSI
M55 (55MPa)= 7250 PSI
M60 (60MPa)= 8700 PSI
M65 (65MPa)= 9425 PSI
M70 (70MPa)= 10150 PSI
Methods of
Construction.
There are some methods involved in the Concreting process.
1- Preparation
of Flooring for Scaffolding.
Scaffolding
can be done on firm ground but there may be chances of settlement so it should
be better to lay Plain cement concrete which may be part of the floor in later
stages. Arrangement and fixing of scaffolding should be according to the weight
of Concrete which may be calculated from the following formula.
Weight
of plain cement concrete = Volume of concrete x Density of Concrete
Density
of Plain cement concrete=140 Pound/ Cft
Density
of Reinforced cement concrete=150 Pound/ Cft
One
scaffolding pipe can bear 2240 Pound Safely if braced at vertical interval or
3Ft.
So
the number of vertical pipes under PCC /RCC = Weight /2240= No of Pipes
Horizontal
pipes should be calculated according to the height of pipes and according to
loading of slabs.
2- Fixing of
Shuttering
It
is a very important stage as shuttering provides a firm platform for placing
concrete and steel, so shuttering should be water-tight so the cement paste may
not go out from the concrete mix as it will decrease the strength of cement
concrete. Shuttering may be made of wooden ply sheets supported by wooden beams, and may
also, be made of steel sheets supported by steel girders.
Shuttering
should be leveled as per drawing and design and also according to the elevation
of the building.
3- Fixing of Steel
Reinforcement.
Steel
reinforcement should be placed and fixed at shuttering platform according to
drawing and design of slab. There are different sizes of steel bars as
1.25" ,1" ,7/8",6/8",5/8",4/8"3/8"2/8"
used in building construction.In Oneway slabs Main bars are placed along short
spans whereas distribution bars are placed along the longer sides of slabs. In
TwoWay slabs both longer and shorter bars contribute equally so up or down does
not matter as per design aspects. Negative bars control negative moments that
apply on supports and up to the distance of L/4.Supporting bars should be
provided beneath the Negative bars usually at intervals of 12 " c/c.
Chairs should be provided to control the deflection of steel bars and to keep
steel in position during the concreting process.
Concrete
Spacers should be provided under the steel reinforcement mesh and also on the
sides of slabs, normally concrete cover is equal to the larger dia of steel
used in slab but the minimum cover should be up to 1/2".
4- Fixing of Electric and Plumbing Conduits.
After
steel electric and plumbing conduits should be placed as per the location of
electric fixtures like Fans, Lights, Fan Boxes Etc. Plumbing pipes are kept
vertically according to the required layout of lines. The position of lines
should not be disturbed during the concrete, Care should be taken to avoid the
breaking of pipes from the movement of labor and wheel borrows because broken
pipes get choked and hinder the passage of electric cables in later stages
which causes problems of rerouting by doing more wall trenching and fixing and
inserting new cabling.
5- Mixing and
Placing of Concrete.
Concrete
maybe mixed by hand or in the mechanical mixer, it should be methodically
mixed and the concrete placed in its final position with the minimum delay.
Normal RCC Works are constructed using (1:2:4) mix with concrete incidents as
Cement, Sand, Crush, Water, Steel Reinforcement, and Admixtures. Three mixing
practices can be adopted for concreting 1, By Hand Mixing, 2, By Machine Mixing
3, By Batching Plant.
The most prominent mixing method is mixing by batching plant as quantities can be
measured with controlled mechanism but such mixings are only required to avail
high strength concretes which requires more than 4000 PSI compressive strength.
Batching plants prepare the concrete using weights of ingredients that are
mentioned in the job mix formula. Transportation of concrete Transit mixer
trucks is used whose minimum volume may be 5 cum. In Some places, the batching
plants are available at the construction site and concrete is transported to
the workplace using tower cranes and pumps along with pipelines.
Batching
plants are used for massive construction projects and for normal works such a the method is not affordable at all.
Mixing
by hand may be adopted for small works in which all ingredients are mixed
roughly for two minutes on cleaned and water-tight platforms. An additional
quantity of cement up to 10 % should be added in such mixes to ensure the
quality of concrete.
In
any case, water should be added only according to suitably designed Water
Cement Ratios because excessive water reduces the strength of concrete.
On
the Construction of slabs for small houses, mixture machines are used along
with a tower lift to transporting the concrete on the heights OF slabs, if the
quantity of concrete is massive than more than one machine and tower lifts can
be fixed to avoid delays in the pouring of slabs.
Compaction
of concrete is very important as it provides dense concrete expelling the air
voids from the concrete volume and also increases the strength of concretes.
Compacting
can be efficiently done using Vibrator machines, the vibration should be 1 minute
for 1 cum of concrete, Over vibration should be avoided as it segregates the
ingredients of concrete.
Concrete
should be smooth and well leveled using wooden and steel floats, Level points
may be maintained by the surveyor to ensure the exact thickness of the slab on
all portions.
6- Curing of Concrete slabs.
Curing is an important activity as this saves concrete from hydration which causes cracks and strength losses in concrete structures so curing should be executed at least for 14 days for slab structures because in 14 days concrete maintains 90 % of its ultimate strength.
7-Removing of shuttering and scaffolding.
Removing
of shuttering may be started after 14 days for medium spans of the building but
larger spans should not be suspended before 28 days as concrete avails its 100
% strength in 28-days.
8 comments:
which time suitable for concrete in hot weather in day time the weather temperature almost 55°c
Mr Sajad thanks for your question, please send me your detailed question through email, I will send you complete guidelines. Thank you
mibsajjad.381@gmail.com
OK sir I will contact you through this email
Thank you very much.
Thanks for your precious information.
The article is very useful for practical purposes.Excellent work.
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