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Transcript of 10111ce601 - Construction Techniques Equipments and Practice (1)
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10111CE601 CONSTRUCTION TECHNIQUES, EQUIPMENT AND PRACTICES
OBJECTIVEThe main objective of this course is to make the student aware of the various construction
techniques, practices and the equipment needed for different types of construction activities.
At the end of this course the student shall have a reasonable knowledge about the variousconstruction procedures for sub to super structure and also the equipment needed forconstruction of various types of structures from foundation to super structure.
UNIT I CONCRETE TECHNOLOGYCementsGrade of cements - manufacture of cementconcrete chemicals and Applications
Mix design conceptmix design as per BIS & ACI methodsmanufacturing of concrete
Batchingmixingtransportingplacingcompaction of concretecuring and finishing.
Testing of fresh and hardened concretequality of concrete - Nondestructive testing.
UNIT II CONSTRUCTION PRACTICES
Specifications, details and sequence of activities and construction co-ordinationSite ClearanceMarkingEarthwork - masonrystone masonryBond in masonry - concrete hollow block
masonryflooringdamp proof coursesconstruction jointsmovement and expansion joints
pre cast pavementsBuilding foundationsbasementstemporary shedcentering and
shutteringslip formsscaffoldingsde-shuttering formsFabrication and erection of steeltrussesframesbraced domeslaying brickweather and water proofroof finishes
acoustic and fire protection.
UNIT III SUB STRUCTURE CONSTRUCTIONTechniques of Box jackingPipe Jacking -under water construction of diaphragm walls and
basement-Tunneling techniquesPiling techniques - well and caisson - sinking cofferdam
cable anchoring and grouting-driving diaphragm walls, sheet piles - shoring for deep cuttingwell points -Dewatering and stand by Plant equipment for underground open excavation.
UNIT IV SUPER STRUCTURE CONSTRUCTIONLaunching girders, bridge decks, off shore platformsspecial forms for shells - techniques for
heavy decksin-situ pre-stressing in high rise structures, Material handling - erecting light
weight components on tall structures - Support structure for heavy Equipment and conveyors
Erection of articulated structures, braced domes and space decks.
UNIT V CONSTRUCTION EQUIPMENT
Selection of equipment for earth work - earth moving operations - types of earthwork equipment- tractors, motor graders, scrapers, front end waders, earth moversEquipment for foundation
and pile driving. Equipment for compaction, batching and mixing and concreting - Equipment
for material handling and erection of structures - Equipment for dredging, trenching, tunneling,
TEXT BOOKS
1. Peurifoy, R.L., Ledbetter, W.B. and Schexnayder, C., "Construction Planning, Equipmentand Methods", 5th Edition, McGraw Hill, Singapore, 1995.
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2. Arora S.P. and Bindra S.P., Building Construction, Planning Techniques and Method ofConstruction, Dhanpat Rai and Sons, 1997.
3. Varghese , P.C. Building construction, Prentice Hall of India Pvt. Ltd, New Delhi, 2007.4. Sheety, M.S, Concrete Technology, Theory and Practice, S. Chand and Company Ltd, New
Delhi, 2005.
REFERENCES
1. Jha J and Sinha S.K., Construction and Foundation Engineering, Khanna Publishers, 1993.2. Sharma S.C. Construction Equipment and Management, Khanna Publishers New Delhi,
1988.
3. Deodhar, S.V. Construction Equipment and Job Planning, Khanna Publishers, New Delhi,1988.
4. Dr. Mahesh Varma, Construction Equipment and its Planning and Application,Metropolitan Book Company, New Delhi-, 1983.
5. Gambhir, M.L, Concrete Technology, Tata McGrawHill Publishing Company Ltd, NewDelhi, 2004
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UNIT I
CONCRETE TECHNOLOGY
CementsGrade of cements - manufacture of cementconcrete chemicals and Applications
Mix design conceptmix design as per BIS & ACI methodsmanufacturing of concreteBatchingmixingtransportingplacingcompaction of concretecuring and finishing.Testing of fresh and hardened concretequality of concrete - Nondestructive testing.
TYPES OF CEMENT
Ordinary Portland cementOPC33,OPC43 and OPC53 grade
Rapid hardening cement
Extra rapid hardening cement Sulphate resisting cement Portland slag cement Quick setting cement Low heat cement Portland pazzolona cement Air entraining cement Colored cement White cement Hydrophobic cement Masonry cement expansive cement Oil well cement Redi set cemnt
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Concrete sleeper grade cement High alumina cement Very high strength cement
CHEMICAL ADMIXTURES OF CONCRETE
Water-reducing admixture / Plasticizers:
These admixtures are used for following purposes:
1. To achieve a higher strength by decreasing the water cement ratio at the same workabilityas an admixture free mix.
2. To achieve the same workability by decreasing the cement content so as to reduce theheat of hydration in mass concrete.
3. To increase the workability so as to ease placing in accessible locations4.
Water reduction more than 5% but less than 12%
Actions involved:
1. Dispersion:Surface active agents alter the physic chemical forces at the interface. They are adsorbed on the
cement particles, giving them a negative charge which leads to repulsion between the particles.
Electrostatic forces are developed causing disintegration and the free water become available forworkability.
2.
Lubrication:
As these agents are organic by nature, thus they lubricate the mix reducing the friction andincreasing the workability.
3. Retardation:A thin layer is formed over the cement particles protecting them from hydration and increasing
the setting time. Most normal plasticizers give some retardation, 3090 minutes
Super Plasticizers:
These are more recent and more effective type of water reducing admixtures also knownas high range water reducer
The commonly used Super Plasticizers are as follows:
Sulphonatedmelamineformaldehydecondensates(SMF)
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Give 1625%+ water reduction. SMF gives little or no retardation, which makes them very
effective at low temperatures or where early strength is most critical.
However, at higher temperatures, they lose workability relatively quickly. SMF generally give a
good finish and are colorless, giving no staining in white concrete.
They are therefore often used where appearance is important.
Sulphonated naphthalene formaldehyde condensates (SNF)
Typically give 1625%+ water reduction. They tend to increase the entrapment of larger,unstable air bubbles. This can improve cohesion but may lead to more surface defects.
Retardation is more than with SMF but will still not normally exceed 90 minutes. SNF is a verycost-effective.
Polycarboxylate ether super plasticizers (PCE)
Typically give 2035%+ water reduction. They are relatively expensive per liter but are verypowerful so a lower dose (or more dilute solution) is normally used.
In general the dosage levels are usually higher than with conventional water reducers, and the
possible undesirable side effects are reduced because they do not markedly lower the surfacetension of the water.
Accelerators:
An admixture which, when added to concrete, mortar, or grout, increases the rate of hydration ofhydraulic cement, shortens the time of set in concrete, or increases the rate of hardening or
strength development.
Accelerating admixtures can be divided into groups based on their performance and application:
1. SetAcceleratingAdmixtures,Reduce the time for the mix to change from the plastic to the hardened state.
Set accelerators have relatively limited use, mainly to produce an early set.
2. HardeningAccelerators,Which increase the strength at 24 hours by at least 120% at 20C and at 5C by at least 130% at48 hours. Hardening accelerators find use where early stripping of shuttering or very early access
to pavements is required.
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They are often used in combination with a high range water reducer, especially in cold
conditions.
.
Set Retarders:
The function of retarder is to delay or extend the setting time of cement paste in concrete. Theseare helpful for concrete that has to be transported to long distance, and helpful in placing the
concrete at high temperatures.
When water is first added to cement there is a rapid initial hydration reaction, after which there is
little formation of further hydrates for typically 23 hours.
The exact time depends mainly on the cement type and the temperature. This is called the
dormant periodwhen the concrete is plastic and can be placed.
At the end of the dormant period, the hydration rate increases and a lot of calcium silicate
hydrate and calcium hydroxide is formed relatively quickly. This corresponds to the setting time
of the concrete.
Retarding admixtures delay the end of the dormant period and the start of setting and hardening.
This is useful when used with plasticizers to give workability retention. Used on their own,retarders allow later vibration of the concrete to prevent the formation of cold joints between
layers of concrete placed with a significant delay between them.
The mechanism of set retards is based on absorption. The large admixture anions and molecules
are absorbed on the surface of cement particles, which hinders further reactions between cementand water i.e. retards setting.
Air Entrained Admixtures:
An addition for hydraulic cement or an admixture for concrete or mortar which causes air,usually in small quantity, to be incorporated in the form of minute bubbles in the concrete or
mortar during mixing, usually to increase its workabilityand frost resistance.
Air-entraining admixtures are surfactantsthat change the surface tension of the water.
Traditionally, they were based on fatty acid salts or vinsol resin but these have largely been
replaced by synthetic surfactants or blends of surfactants to give improved stability and voidcharacteristics to the entrained air.
Air entrainment is used to produce a number of effects in both the plastic and the hardened
concrete. These include:
Resistance to freezethaw action in the hardened concrete.
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Water is added to make a thick paste which contains 14% of moisture
The paste format are dried and off charged into a rotary kiln
The product obtained often calcinations in rotary kiln
The clinker I obtained as a result of incipient fusion and sintering at a temp about 1400c to1500 c
The clinker is cooled to preserve the meta stable compounds and there solid solutions
Dispersion of one solid with another solid which made the clinker again heated
Clinker is again cooled and grounded in tube mills where 2-3% gypsum is added
The purpose of adding gypsum is to coat the cement particle by interfering the process of
hydration of cement particles
The flow diagram of dry process
Wet process
The operations are
Mixing Burning Grinding
Process
The crushed raw materials are fed in to a ball mill and a little water is added
The steel balls in the ball mill pulverized the raw material which form a slurry with water
The slurry is passed through storage tanks where the proportioning of compound is adjusted toensure desired chemical composition
The corrected slurry having moisture about 40%,is then fed into rotary kiln
Where it loses moisture and form on to lumps
These are finally burned at 1500 to 1600 c
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It becomes clinker at this stage, the clinker is cooled and then grounded in tube mills
While grinding the clinker 3% gypsum I added this is stored in silos and packed
Concrete Mix Design concept
Definition:
Mix design can be defined as the process of selecting suitable ingredients of concrete and
determining their relative proportions with the object of producing concrete of certain minimumstrength and durability as economically as possible.
One of the ultimate aims of studying the various properties of the materials of concrete, plastic
concrete and hardened concrete is to enable a concrete technologist to design a concrete mix fora particular strength and durability.
The design of concrete mix is not a simple task on account of the widely varying properties of
the constituent materials, the conditions that prevail at the site of work, in particular the exposurecondition, and the conditions that are demanded for a particular work for which the mix is
designed.
Design of concrete mixrequires complete knowledge of the various properties of these
constituent materials, these make the task of mix design more complex and difficult.
Design of concrete mix needs not only the knowledge of material properties and properties of
concrete in plastic condition; it also needs wider knowledge and experience of concreting.
Even then the proportion of the materials of concrete found out at the laboratory requires
modification and re adjustments to suit the field conditions.
With better understanding of the properties, the concrete is becoming more and more an exactmaterial than in the past.
The structural designer specifies certain minimum strength; and the concrete technologistdesigns the concrete mix with the knowledge of the materials, site exposure conditions and
standard of supervision available at the site of work to achieve this minimum strength and
durability.
Further, the site engineer is required to make the concrete at site, closely following the
parameters suggested by the mix designer to achieve the minimum strength specified by thestructural engineer.
In some cases the site engineer may be required to slightly modify the mix proportions given by
the mix designer.
He also makes cubes or cylinders sufficient in numbers and tests them to confirm theachievements with respect to the minimum specified strength. Mix designer, earlier, may have
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made trial cubes with representative materials to arrive at the value of standard deviation or
coefficient of variation to be used in the mix design.
American Concrete Institute Method of Mix Design 11.3 (ACI Concrete Mix Design)
This method of proportioning was first published in 1944 by ACI committee 613. In 1954 themethod was revised to include, among other modifications, the use of entrained air. In 1970, the
method of ACI mix design became the responsibility of ACI committee 211. We shall now deal
with the latest ACI Committee 211.1 method.
It has the advantages of simplicity in that it:
1. Applies equally well2. With more or less identical procedure to rounded or angular aggregate3. To regular or light weight aggregates4. To air entrained or non-air-entrained concretes.
Manufacturing of concrete
IntroductionProduction of concrete requires meticulous care at every stage
The ingredients of good and bad concrete are same but good rules are not
Observed it may become bad
Manufacturing of concrete includes the following stages
1. Batching2.
Mixing3. Transporting
4. Placing5. Compacting6. Curing7. Finishing
Batching
The measurement of materials for making concrete is known as batching.
Methods of batching Volume batching Weigh batching
Volume batching
The required ingredients of conc. Are measured by volume basis
o Volume batching is done by various types of gauge boxes
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o The gauge boxes are made with comparatively deeper with narrow surfaceo Some times bottomless gauge boxes are used but it should be avoided
Volume batching is not a good practice because of the difficulties it offers to granularmaterial.
Some of the sand in loose condition weighs much less than the same volume of dry
compacted soil.
For un important concrete or any small job concrete may be batched by volume.
Weigh batching
It is the correct method of measuring materials for concrete.
Use of weight system in batching ,facilitates accuracy flexibility and simplicity
The different types of weigh batching are there, they are used based on the different situation.
In small works the weighing arrangement consist of two weighing buckets connected to the
levers of spring loaded dials which indicates the load,
The weighing buckets are mounted on a central spindle about which they rotate
On large works the weigh bucket type of weighing equipment used ,the materials are fedfrom the over head storage hopper and it discharges by gravity.
Mixing
Thorough mixing of materials is essential for the production of uniform concrete
The mixing should ensure that the mass becomes homogeneous uniform in color and
consistency.
Types of mixingHand mixing
Machine mixing
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Hand mixing
It is practiced for small scale un important concrete works
Hand mixing should be done over a impervious concrete or brick floor sufficiently large size
take one bag of cement .
Spread out and measure d out fine aggregates and course aggregate in alternative layers.
Pour he cement on the top of it and mix them dry by showel, turning the mixture over andover again until the uniformity of color is achieved.
The uniform mixture is spread out in the thickness of about 20 cm
The water is taken and sprinkled over the mixture and simultaneously turned over
The operation is continued till such time a good uniform homogeneous concrete is obtained
Machine mixing
Mixing of concrete almost invariably carried ot by machine ,for reinforced concrete work
medium or large scale concrete works .
Machine mixing is not only efficient it is also economical when quantity of concrete to be
produced is large
Type of mixer for mixing concrete
Batch mixer Continuous mixer
Batch mixer
Batch mixer produce concrete batch by batch with time interval
This is used in normal concrete work
Batch mixers are two types
Pan type Drum type
Drum types are further classified into tilting ,non tilting and forced action type
The capacity of batch mixer depends on the proportion of the mix
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For 1:2:4 ideal mixer 200 liters
For 1:3:6 ideal mixer 280 liters
Mixing time
Concrete mixers are generally designed to run at a speed of 15 to 20 revolutions per minute
For proper mixing it is seen that about 25to 30 revolutions are required in a well designed
mixer
It is important that a mixer should not stop in between concreting operations for this
requirement concrete mixer must be kept maintained
Transporting of concrete
Concrete can be imported by variety of methods and equipments
Methods adopted for transportation of concrete
Mortar pan]
Wheel barrow Crane, bucket and rope way Truck mixers and dumpers Belt conveyors Chute Skip and hoist Transit mixer Pump and pipe line Helicopter
Mortar pan
This case concrete is carried out in small quantities
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This method exposes greater surface area of concrete for drying conditions
This results a geat loss of water particularly in hot weather
Mortar pan must be wetted to start with and must be kept clean
Wheel barrow
Used for transporting concrete in ground level.
This method is employed for hauling concrete in longer distance in case of concrete road
construction.
If the distance is long or ground is rough it is likely that the concrete get segregated due to
vibrationTo avoid this, wheel barrows are provided with pneumatic wheel.
Crane bucket and rope way
This is one of the right way for transporting concrete above the ground level
Crane can handle concrete in high rise construction project and are becoming familiar sites in bigcities
Rope way buckets of various sizes are used
Rope way method is adopted for
Concrete works in valley
Construction work of the pier in the river
For dam construction
Truck mixer and dumpers
For large concrete works particularly for concrete to be placed at ground level
These are ordinary open steel tipping lorries
Dumpers having 2-3 cubic meter capacity
Belt conveyors also can be used for
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Chutes
Provided for transporting concrete from ground to lower level
The surface should have same slope not flatter than 1 vertical to 2 and a1/2 horizontal
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Skip and hoist
Adopted method for transporting concrete vertically for 3 to 4 floors
Mortar pan with staging and human ladder is used for transporting concrete
Transit mixer
This is the equipment for transporting concrete over a big distance particularky ready mix
concreteThey are truck mounted having a capacity of 4 to 7 m3
The speed of rotation of truck mixer is 4to16 rev/min
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A small concrete pump is also mounted on the truck carrying transit mixer
Pumps and pipe lines
Universally accepted method
Starts with the suction stroke for suck the concrete inside the pipe
It has a piston which moves forward and backward to have suction and delivery of concrete
Choosing a correct pump involves Length of horizontal pipe Length of vertical pipe Number of bends Diameter of pipe line Length of flexible hose Change in line diameter Slump of concrete
Placing of concrete
Concrete must be placed in a systematic manner to yield optimum results
Some situation where we used provide concrete
Placing concrete within earth mould
Placing concrete with large earth mould or timber plank form work
Placing concrete in layers with in timber or steel shutter
Placing concrete with in usual form work
Placing concrete under water
Placing concrete within earth mould
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Concrete is invariably as foundation bed below the walls and columns
Before placing concrete
All loose earth must be removed
Roots of trees must be cut
If surface is dry must be made just damp
If it is too wet or rain soaked the water slush must be removed
Placing concrete with large earth mould or timber plank form work
For construction of road slabs,air field slabs and ground floor slabs in building conc os placed inthis method
The ground surface must be free from loose earth pool of water ,grass or roots or leaves
The earth must be compacted well
Poly ethylene film is used in between conc ground to avoid absorption of moisture
Concrete is laid alternative layers to give enough scope for shrinkage
Placing concrete in layers with in timber or steel shutter
This can be used in the following cases
Dam construction
Construction of concrete abutments
Raft for a high rise building
The thickness of layers depend on
Method of compactionSize of vibrator
Frequency of vibrator used
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It is good for laying 15 to 30 cm thick layer of concrete ,for mass concrete it may varie from 35
to 45 cm
Its better to leave the top of the layer rough so that succeeding layer can have the good bond
Placing concrete with in usual form work
This can be adopt for Column ,beam and floors
Rules that should be followed while placing the concrete
Check the reinforcements are correctly tied and placed Check the reinforcement is having appropriate cover The joints between plywoods or sheets properly plugged Mould releasing agent should be applied
The concrete must be placed very care fully a small quantity at a time so that they will not blockthe entry of subsequent concrete
Placing concrete under water
Concrete is often required to be placed under water or I a trench filled with slurry
In such a cases use of bottom slurry buckets or termic pipes are used
In the bottom bucket concrete is taken through water in a water tight box or bucket reaching finalplace of deposition
The bottom is made to open by some mechanism and the whole concrete is dumped slowly.
Compaction of concrete
Compaction of concrete is the process adopted for expelling the entrapped air from the concrete
Method for compacting concrete
Hand compaction
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Compaction by vibrator
Compaction by pressure and jolting
Compaction by spinning
Hand compaction
Adopted in case of unimportant concrete
This can be adopted when mechanical mean cannot be used
It consist of Roding Ramming Tamping
Roding
Poking the concrete with about 2m long 16 mm dia rod to poke the concrete reinforcement
Ramming
Should be done with care
Permitted in unreinforced foundation concrete in ground floor construction
Tamping
The thickness of conc should be comparatively less
Consist of beating the op surface by wooden cross beam
The section of wooden beam is about 10x10 cm
Compaction by vibrators
We can place the concrete economically when compared to hand compaction
The use of vibrators may be essential for the production of good concrete
Type of vibrators
Internal vibrator
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Formwork vibrator
Table vibrator
Platform vibrator
Surface vibrator
Vibratory rollers
Compaction by pressure and jolting
This is one of the effective method of compacting dry concrete
Often used for compacting hollow block ,cavity blocks concrete blocks
The stiff concrete is vibrated pressed and also given jolts
With the combined action of the three the stiff conc gets compacted to an dense form to give
good strength and volume
Compaction by spinning
This is one of the recent method of the compacting concrete
This is adopted for fabrication of concrete pipes
The plastic concrete when at every high speed get well compacted by centrifugal force
Potential products such as spun pipes are compacted by spinning process
Vibratory rollers
One of the recent methods of compacting very lean or dry concrete
The concrete compacted by rollers can be called as roller concrete
Tests on concrete
Concrete Slump Test
This test is performed to check the consistency of freshly made concrete.
The slump test is done to make sure a concrete mix is workable.
The measured slump must be within a set range, or tolerance, from the target slump.
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Workability of concrete is mainly affected by consistency i.e. wetter mixes will be more
workable than drier mixes, but concrete of the same consistency may vary in workability.
It can also be defined as the relative plasticity of freshly mixed concrete as indicative of its
workability.
Tools and apparatus used for slump test (equipment):
1. Standard slump cone (100 mm top diameter x 200 mm bottom diameter x 300 mm high)2. Small scoop3. Bullet-nosed rod (600 mm long x 16 mm diameter)4. Rule5. Slump plate (500 mm x 500 mm)
Procedure of slump test for concrete:
Clean the cone. Dampen with water and place on the slump plate. The slump plate should beclean, firm, level and non-absorbent. Collect a sample of concrete to perform the slum test
.
Stand firmly on the footpieces and fill 1/3 the volume of the cone with the sample. Compactthe concrete by 'rodding' 25 times. Rodding means to push a steel rod in and out of theconcrete to compact it into the cylinder, or slump cone. Always rod in a definite pattern,
working from outside into the middle. Now fill to 2/3 and again rod 25 times, just into the top of the first layer. Fill to overflowing, rodding again this time just into the top of the second layer. Top up the
cone till it overflows. Level off the surface with the steel rod using a rolling action. Clean any concrete fromaround the base and top of the cone, push down on the handles and step off the footpieces.
Carefully lift the cone straight up making sure not to move the sample.Turn the cone upside down and place the rod across the up-turned cone.
Take several measurements and report the average distance to the top of the sample.If the sample
fails by being outside the tolerance (ie the slump is too high or too low), another must be taken.If this also fails the remainder of the batch should be rejected.
Compression Test
The compression test shows the compressive strength of hardened concrete.
The compression test shows the best possible strength concrete can reach in perfect conditions.
The compression test measures concrete strength in the hardened state. Testing should always be
done carefully. Wrong test results can be costly.
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The testing is done in a laboratory off-site. The only work done on-site is to make a concrete
cylinder for the compression test.
The strength is measured in Megapascals (MPa) and is commonly specified as a characteristic
strength of concrete measured at 28 days after mixing.
The compressive strength is a measure of the concretes ability to resist loads which tend to
crush it.
Apparatus for compression test
Cylinders (100 mm diameter x 200 mm high or 150 mm diameter x 300 mm high) (The small
cylinders are normally used for most testing due to their lighter weight)
1. Small scoop2. Bullet-nosed rod (600 mm x 16 mm)3.
Steel float4. Steel plate
Procedure for compression test of concrete
Clean the cylinder mould and coat the inside lightly with form oil, then place on a clean,level and firm surface, ie the steel plate. Collect a sample.
Fill 1/2 the volume of the mould with concrete then compact by rodding 25 times. Cylindersmay also be compacted by vibrating using a vibrating table.
Fill the cone to overflowing and rod 25 times into the top of the first layer, then top up themould till overflowing.
Level off the top with the steel float and clean any concrete from around the mould.
Cap, clearly tag the cylinder and put it in a cool dry place to set for at least 24 hours.
After the mould is removed the cylinder is sent to the laboratory where it is cured andcrushed to test compressive strength
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UNIT II
CONSTRUCTION PRACTICES
Specifications, details and sequence of activities and construction co-ordinationSite ClearanceMarkingEarthwork - masonrystone masonryBond in masonry - concrete hollow blockmasonryflooringdamp proof coursesconstruction jointsmovement and expansion joints
pre cast pavementsBuilding foundationsbasementstemporary shedcentering and
shutteringslip formsscaffoldingsde-shuttering formsFabrication and erection of steeltrussesframesbraced domeslaying brickweather and water proofroof finishes
acoustic and fire protection.
Sequence of activities and construction co-ordination
Planning
Planning is considered as a precondition measures before attending any development program
Particularly planning is more important in the following area
When the fund available are limited
The total requirement is much higher
Sequence of operation
It is always desirable to divide large projects into several construction stages
For prepare progress of construction each stage may be constructed under separate contraction
It should be carried out in the proper method and arrangement
Before starting to construct the structure we must go for the sequence of operation in the projectit is better way o arrange the labour material and equipment
Following are the sequence of operation in a highway project
Site clearance
Earth work for laying embankment
Construction of drainage works
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Construction of pavement structures
Installation of light poles and road signals
MARKING, SETTING OUT OF FOUNDATION
Setting out is the process of laying down the excavation lines and centre lines on the ground
before excavation is started after the foundation design is done
For setting out the foundation of a small building the centre line of the longest outer wall of the
building is first marked on the ground by stretching a string between wooden or mild steel pegs
driven at the ends
Two pegs one on either from the central peg are driven at the each end of the line
Each peg is equidistant from the central peg and the distance between the outer pegs correspondsto the width of foundation trench to be excavated
Each peg may be projected about 25 to 50 mm above ground level may be driven at a distance of
2m from the edge of excavation
When the string is stretched joining the corresponding pegs at the two extremities of the line the
boundary of the trench to be excavated can be marked on the ground with dry lime powders
A right angle can be set out b forming 3, 4 and 5 units long
The centre line of the other wall which is perpendicular to the long wall can be marked by settingout right angles
All the specifications are made by tape or prismatic compass may be used for setting out rightangles
Similarly outer lines of the foundation trench of each cross wall can be set out
For big project reference pillars of masonry is constructed first, these pillars may be about 20cm
thick and 15cm wider than the width of the foundation
EXCAVATION
Excavation of foundation can be done by manually or with the help of special mechanical
equipments
Manually it can be done by the help of following equipments
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Spade Phawrah Pick axe Crowbar
Rammer Wedge Boning rod Sledge hammer Basket Iron pan line and pinsMechanically the excavation can be done by the help of following machineries
o Boom bucket dipper handleo
Trencho Chain mounted bucketso Raking cuto Vertical cut
FOUNDATION
The foundation is he lower portion of the building, usually located below the ground level, which
transmit the load of super structure to sub soil
Functions of foundation
Reduction of load intensity Even distribution of load
Provision of level surface Lateral stability
Safety against undermining Protection against soil movements
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Types of foundation
Shallow foundation Deep foundation
Shallow foundation
If the depth of foundation is less than or equal to width of foundation it is called as shallow
foundation
Types of shallow foundation
Spread footing Combined footing Strap footing Mat foundation
Spread footing
Spread footing is those which spread the super imposed load to of a wall or column over thelarge area
Spread footing support either a column or a wall
It has the following types
Single footing Stepped footing Sloped footing Wall footing with out step Stepped footing for wall Grillage foundation
Combined footing
A spread footing which supports two are more columnsis termed as combined footing
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It has the following types
Rectangular combined footing Trapezoidal combined footing Combined column wall footing
Trapezoidal footing
If the independent footings of two columns are connected by a beam it is called as strap footing
A strap footing may be used where the distance between the columns is so great that a combined
trapezoidal footing becomes quite narrow
The strap beam does not remains in contact with soil and thus does not transfer any pressure to
the soil
Mat foundation
A raft or mat is a combined footing that covers the entire beneath a structureAnd supports all walls and columns
It is used when the allowable soil pressure is low are the building loads are heavy
It is used to reduce the settlement above highly compressible soil
Rafts may divided into three types
o Solid slab systemo Beam slab systemo Cellular system
Deep foundation
If the depth of foundation is equal to or more than the width of the foundation is called deep
foundation
Types
Deep strip rectangular or square footing Pile foundation Pier foundation or drilled caisson foundation
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Well foundation or caissonsDeep strip footing
Whenever the depth of strip footing is more than the width it is called as deep strip footing
Pile foundation
it is a type of deep foundation in which the loads are taken to a low level by means of vertical
members which may be timber or concrete or steel
Types of pile foundation
End bearing pile Friction pile Combined end bearing and friction pile Compaction pile
End bearing piles
End bearing piles are used to transfer load through water or soft soil to a suitable bearing stratum
Such piles are used to carry heavy loads to hard strata
Multi storied buildings are invariably founded on end bearing piles, so that the settlements are
minimized
Friction piles
Friction piles are used to transfer loads to a depth of a friction load carrying material by means of
skin friction along the length of the pile
These piles mostly used in granular soil
Combined end bearing and friction pile
These are the piles which transfer the super imposed load both through side friction as well as
end bearing
Such piles are more common, especially the end bearing piles are passed through granular soil
Compaction piles
These piles are used o compact loose soil thus increasing there bearing capacity
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The pile tube driven to compact the soil is gradually taken out and sand is filled in its place thus
forming the sand pile
Pier foundation
A pier foundation consist of a cylindrical column of large diameter to support transfer largesuper imposed loads to the firm strata below
Generally pier foundation is shallower in depth than the pile foundation
It has two types
o Masonryo concrete pier
Drilled caissons
Well foundation or caissons are box like structurescircular or rectangular which are sunk from
the surface of either land or water to the desired depth
Caisson foundations are used for major foundation work such as
Bridge pier and abutments in river
Wharves and quay walls docks
Large water front structures such as pump houses, subjected to heavy vertical and horizontalloads
Well foundations are caissons are hollow from inside, which may filled withstand and areplugged at the bottom, the load is transferred to the perimeter wall called as steining
Stone Masonry
Definition:
The art of building a structure in stone with any suitable masonry is called stone masonry.
Types of Stone Masonry:
Stone masonry may be broadly classified into the following two types:
1. Rubble Masonry
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2. Ashlar Masonry1. Rubble Masonry:
The stone masonry in which either undressed or roughly dressed stone are laid in a suitablemortar is called rubble masonry. In this masonry the joints are not of uniform thickness.
Rubble masonry is further sub-divided into the following three types:
Random rubble masonry Squared rubble masonry Dry rubble masonry
1. Random rubble masonry: The rubble masonry in which either undressed or hammerdressed stones are used is called random rubble masonry. Further random rubble
masonry is also divided into the following three types:
a. Un coursed random rubble masonry:The random rubble masonry in whichstones are laid without forming courses is known as un coursed random rubble
masonry. This is the roughest and cheapest type of masonry and is of varying
appearance. The stones used in this masonry are of different sizes and shapes.before lying, all projecting corners of stones are slightly knocked off. Vertical
joints are not plumbed, joints are filled and flushed. Large stones are used at
corners and at jambs to increase their strength. Once "through stone" is used forevery square meter of the face area for joining faces and backing.
Suitability:Used for construction of walls of low height in case of ordinary
buildings.
b. Coursed random rubble masonry: The random rubble masonry in which stonesare laid in layers of equal height is called random rubble masonry. In this
masonry, the stones are laid in somewhat level courses. Headers of one coursed
height are placed at certain intervals. The stones are hammer dressed.
Suitability: Used for construction of residential buildings, go downs, boundary
walls etc.
Squared rubble masonry:The rubble masonry in which the face stones are squared on
all joints and beds by hammer dressing or chisel dressing before their actual laying, is
called squared rubble masonry.
There are two types of squared rubble masonry.
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c. Coursed Square rubble masonry: The square rubble masonry in which chiseldressed stones laid in courses is called coarse square rubble masonry. This is a
superior variety of rubble masonry. It consists of stones, which are squared on alljoints and laid in courses. The stones are to be laid in courses of equal layers. and
the joints should also be uniform.
Suitability: Used for construction of public buildings, hospitals, schools,markets, modern residential buildings etc and in hilly areas where good quality ofstone is easily available.
d. Un coursed square rubble masonry: The squared rubble in masonry whichhammer dressed stones are laid without making courses is called un coursedsquare rubble masonry. It consists of stones which are squared on all joints and
beds by hammer dressing. All the stones to be laid are of different sizes.
Suitability: Used for construction of ordinary buildings in hilly areas where a
good variety of stones are cheaply available.
2. Dry rubble masonry: The rubble masonry in which stones are laid without using anymortar is called dry rubble masonry or sometimes shortly as "dry stones". It is anordinary masonry and is recommended for constructing walls of height not more than
6m. In case the height is more, three adjacent courses are laid in squared rubble masonry
mortar at 3m intervals.
2. Ashlar masonry:
The stone masonry in which finely dressed stones are laid in cement or lime mortar is known as
ashlars masonry. In this masonry are the courses are of uniform height, all the joints are regular,
thin and have uniform thickness. This type of masonry is much costly as it requires dressing ofstones.
Suitability: This masonry is used for heavy structures, architectural buildings, high piers andabutments of bridges.
Ashlars masonry is further sub divided into the following types:
Ashlars fine or coarse ashlar masonry Random coarse ashlars masonry Rough tooled ashlar masonry
Rock or quarry faced ashlars masonry Chamfered ashlars masonry Block in coarse masonry Ashlar facing
Ashlar fine or coursed ashlar masonry: In this type of stone masonrystone blocks of same height in each course are used. Every stone is fine
tooled on all sides. Thickness of mortar is uniform through out. It is an
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expensive type of stone masonry as it requires heavy labor and wastage of
material while dressing. Satisfactory bond can be obtained in this type of
stone masonry. Random coursed ashlar masonry: This type of ashlar masonry consists
of fine or coursed ashlar but the courses are of varying thick nesses,
depending upon the character of the building Rough tooled ashlar masonry: This type of ashlar masonry the sides ofthe stones are rough tooled and dressed with chisels. Thickness of joints is
uniform, which does not exceed 6mm. Rock or quarry faced ashlar masonry:This type of ashlar masonry is
similar to rough tooled type except that there is chisel-drafted margin left
rough on the face which is known as quarry faced.
Chamfered ashlar masonry: It is similar to quarry faced except that theedges are beveled or chamfered to 450 for depth of 2.5 cm or more.
Block-in course masonry: It is the name given to a class of ashlar masonrywhich occupies an intermediate place between rubble and ashlars. The
stones are all squared and properly dressed. It resembles to coursed rubblemasonry or rough tooled ashlar masonry.
Ashlar facing:Ashlar facing is the best type of ashlars masonry. Since this is type ofmasonry is very expensive, it is not commonly used throughout the whole thicknessof the wall, except in works of great importance and strength. For economy the facing
are built in ashlars and the rest in rubble.
Brick masonry
cher bricks on edges instead of bed
This bond is weak in strength but it is economical Brick masonry is made up of brick units
bonded together with mortar
Components of brick masonry
Brick Mortar
Types of mortar
Cement mortar Lime mortar Cement-lime mortar Lime surkhi mortar Mud mortar
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Types of bricks
Traditional bricks Modular bricks
Traditional bricks
It has not been standardize in size
Dimensions varies from place to place
Thickness varies from varies from cm to 7.5cm,widthvaries from 10to13 cm and length varies
from 20to25 cm
Modular brick
Any brick which is the same uniform size as laid down by bis
The nominal size of the modular brick is 20cm x10cmx10cm
Actual size is 19x9x9
Classes of brick
First class brick Second class brick Third class brick
Bonds in brick work
Stretcher bond Header bond English bond Flemish bond Facing bond English crossing bond Brick on edge bond Dutch bond Racking bond Zigzag bond Garden wall bondStretcher bond
The length of the brick its along with the face of the wall\
This pattern is used only for those wall which have thickness of half brick
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Header bond
The width of the bricks are thus along the direction of the wall
This pattern is used only when the thickness of the wall is equal to one brick
English bond
It is the most commonly used methodthis bond is considered to be the strongest
This bond consist of alternate course of stretchers and headers
Alternative courses will show either headers or stretchers in elevation
There is nop vertical joint
Every alternative header come centrally over the joint between two stretchers in corse in
below
Since the number of vertical joint in the header course twice the number of vertical joints instretcher course ,the joints in the header course are made thinner than the joints in the
stretcher course
Flemish bond
Inthis type of course is comprised of alternative headers and stretchers
Types of Flemish bond
Double Flemish bond
Single Flemish bond
Double Flemish bond
Every course consist of headers and stretchers placed alternatively
The facing and backing of the wall in each course have the same appearance
Single Flemish bond
Single Flemish bond is comprised of double Flemish bond facing an English bond backing
and hearting in each course
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Facing bond
This bond is used where the bricks of different thickness are to be used in the facing andbacking of the wall
The nominal thickness of facing brick is 10 cm and that of backing bricks is 9 cm the headercourse tis provided at a vertical interval of 90 cm
English cross bond
This is he modification of English bond to improve the appearance e of the wall
Brick on edge bond
This type of bond uses stretdutch bond
DAMP PROOF COURSE
Materials for Damp Proof Course (DPC):
An effective damp proofing material should have the following properties;
1. It should be impervious.2. It should be strong and durable, and should be capable of withstanding both dead as well
as live loads without damage.
3.
It should be dimensionally stable.4. It should be free from deliquescent salts like sulphates, chlorides and nitrates.The materials commonly used to check dampness can be divided into the following three
categories:
1. Flexible Materials: Materials like bitumen felts (which may be hessian based orfibre/glass fibre based), plastic sheeting (polythene sheets) etc.
2. Semi-rigid Materials: Materials like mastic, asphalt, or combination of materials orlayers.
3. Rigid Materials: Materials like first class bricks, stones, slate, cement concrete etc.SELECTION OF MATERIALS FOR DAMP PROOF COURSE:
The choice of material to function as an effective damp proof course requires a judicious
selection. It depends upon the climate and atmospheric conditions, nature of structure and the
situation where DPC is to be provided. The points to be kept in view while making selection ofDPC materials are briefly discussed below:
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1. DPC above ground level: For DPC above ground level with wall thickness generally notexceeding 40cm, any one of the type of materials mentioned above may be used. Cement
concrete is however commonly adopted material for DPC at plinth level, 38 to 50mmthick layer of cement concrete M15 (1:2:4 mix) serves the purpose under normal
conditions.
In case of damp and humid atmosphere, richer mix of concrete should be used. The concrete is
further made dense by adding water proofing materials like Pudlo, Impermo, Waterlock etc in its
ingredients during the process of mixing. It is used to apply two coats of hot bitumen over thethird surface of the concrete DPC.
1. DPC Material for floors, roofs etc: For greater wall thickness or where DPC is to belaid over large areas such as floors, roofs, etc, the choice is limited to flexible materialswhich provide lesser number of joints like mastic, asphalt, bitumen felts, plastic sheets
etc.
The felts when used should be properly bonded to the surface with bitumen and laid with jointsproperly lapped and sealed.
1. DPC Material for situations where differential thermal movements occur: In parapetwalls and other such situations, materials like mastic, asphalt, bitumen felts and metal
(copper or lead) are recommended. It is important to ensure that the DPC material isflexible so as to avoid any damage or puncture of the material due to differential thermal
movement between the material of the roof and the parapet.
2. DPC material for Cavity Walls: In cavity wall construction, like cavity over the door orwindow should be bridged by flexible material like bitumen felt, strips or lead etc.
General principles to be observed while laying DPC are:
1. The DPC should cover full thickness of walls excluding rendering.2. The mortar bed upon which the DPC is to be laid should be made level, even and free
from projections. Uneven base is likely to cause damage to DPC.
3. When a horizontal DPC is to be continued up a vertical face a cement concrete fillet75mm in radius should be provided at the junction prior to the treatment.
4. Each DPC should be placed in correct relation to other DPC so as to ensure complete andcontinuous barrier to the passage of water from floors, walls or roof.
Figures 1 to 7 explain provision of DPC under different conditions
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Figure 1: Air Drain
Figure 2: DPC Treatment for basement on undrained soils.
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Figure 3: Plan of building showing DPC
Figure 5: Asphalt tanking for basement
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Figure 6: DPC for flooring
FLOORS
The purpose of floor is to provide a level surface capable of supporting the occupants of the
building, furniture, equipment and some time interior wall
The floor must satisfy the following requirements
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Adequate strength and stability Adequate fire resistance Sound proof Damp resistance Thermal insulations
Components of a floor
Sub floor, basecourse or floor base
Floor covering or flooring
Selection of flooring materials
Factor that affect the choice of flooring
Initial cost Appearance Cleanliness Durability Damp resistance Sound insulation Thermal insulation Fire resistance Smoothness Hardness Maintenance
Types of flooring
Mud flooring and muram flooring Brick flooring Flag stone flooring cement concrete flooring Terrazzo flooring Mosaic flooring Tiled flooring Marble flooring timber flooring Asphalt flooring Rubber flooring Linoleum flooring Cork flooring
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Glass flooring Plastic or pvc flooring
Mud flooring and muram flooring
This type of flooring is cheap, hard highly impervious
It is easy to construct and easy to maintain
It has good thermal insulation property due to which it remains cool in summer and warm in
winter
Over a well prepared ground 25 cm thick selected moist earth is spread and it rammed well to
compacted thickness of 15cm
In order to prevent cracks small quantity of chopped straw is mixed
Muram flooring
Muram is a form of disintegrated rock with binding material
To construct such a floor a 15 cm thick layer muram is laid over prepared sub grade over it 2.5cm thick powder layer of muram is spread and rammed
Brick flooring
The sub grade is compacted properly, to the desired leveland 7.5 cm thick layer is spread
Over this a course of brick is laid flat in mortar is built
Such flooring is used in cheap construction, especially where good bricks are available
Flag stone flooring
Flag stone is laminated sand stone available in 2cm to 4cm thickness in the form of stone slab of30X30 cm or 45X45cm and 60X60 cm
This type of works also called paving.
The stones are laid on concrete base the subsoil is properly compacted over which 10 to of limeconcrete or lean cement concrete is laid
Cement concrete flooring
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This is commonly used for residential, commercial even industrial building..
It is moderately cheap quite durable and easy to construct
The floor consist of two components
Base concrete
Topping or wearing surface
The base course ma be 7.5 to 10 cm thick
The topping consist of 1:2:4 cement concrete
Terrazzo flooring
Terrazzo flooring is another type of floor finish that is laid in thin layer over concrete topping
It is very decorative and good wearing properties
Terrazzo is a specially prepare concrete surface containing cement and marble chips in the
proportion to 1:1 1/4 to 1:2
When the surface has set the chips are exposed by grinding operation
Mosaic flooring
Mosaic flooring Is made of small pieces of broken tiles of china glazed or of cement or of marblearranged in different pattern
These pieces are cut to desired shape and sizes
a concrete base is prepare as in the case of concrete flooring over that 5to8 thick lime surkhi
mortar is spread over an area, over this 3mm thick cementing paste is layered and is left to dry
about 4 hours,
,there after small pieces of broken tiles or marble pieces of different colors arranged definite
pattern and hammered in different layers
Tiled flooring
Tiledflooring is constructed from square ,hexagonal or other shapes made up of clay cementconcrete and terrazzo
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These are available In various thickness
Thes are commonly used in residential houses ,schools,hospitals and other public buildings
Over the concrete base a 25 to 30 mm thick layr of lime mortar 1:3 to serve as a bedding
The bedding mortar is allowed to harden for 12 to 24 hours
Neat cement slurry is spread over it and the tiles are laid flat over it
Marble flooring
It is the superior type of flooring used in bathrooms and kitchens of residential building and
hospitals ,sanitorium ,temples etc
After the preparation of base concrete 20 mm thick bed layer of 1:4 cement mix spread under the
area of each individual slabs.
The marble layer is then laid over it and pressed with wooden mallet and leveled
Timber flooring
Timber flooring is used for carpentry halls ,dancing halls auditorium
Etc
These are not commonly usedin India because its costlier
But hilly area where wood is available and temperature drops very low timber flooring is quite
common
The suspended type of wooden floor is supported above the ground
The solid type of wooden floor is fully supported on the ground
SCAFFOLDING
When te higt of wall or column or othet structural member of a building exceeding1.5 m
temporary structures needed to support trhe platforms over which the work man sit and carry o
the work
These temporary structures constructed very close to the wall is in the form of imber o steel
frame work commonly called as scaffoldings
Components of scaffoldings
Ledgers Braces Put logs
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Transoms Boarding Guard rail Toe board
Single scaffolding or brick layer scaffolding Double scaffoldings or masons scaffoldings Cantilever or needle scaffoldings Suspended scaffoldings Trestle scaffolding Steel scaffolding Patented scaffoldings
Single scaffoldings
This consists of a single frame work of standards, legers, put logs etcConstructed parallel to the wall at a distance of about 1.2 meters
The standards are placed at a distance of 2to2.5m interval
Ledger connected with the standards, and are provided at a vertical distance of 1.2to 1.5 m
Put logs or connected with one end on the ledgers and other end at the holes of the wall at aninterval of1.2 to 1.5 m interval
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Double are masons
scaffoldings It is very difficult to put holes in walls to m support putlogs in stone masonry
In the case a strong scaffolding is used consisting of two rows of scaffolding
The first row placed 20 to 30 cm away from the wall the other frame will 1m distance from the
first one
Put logs are the supported on both the supports, rakers and cross braces are provided to make the
scaffolding more strong
It also called as independent scaffoldings
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Cantilever or needle scaffolding
Cantilever supports can be used under following circumctances
Ground is week to support standardsConstruction of the upper part of the wall is to be carried out
It is required to keep the ground near wall free for traffic etc i
It ha s two types
Single Frame
Te standards are supported on series of needle taken out through opening or through holes
Double frame
The needles are projecting beams are strutted inside the floors
Suspended scaffolding
It is the light weight scaffolding used for repair works such as pointing, painting etc
The working platforms are suspended from roofs by means of wire ropes or chains etc
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Trestle scaffolding
Such type of scaffoldings are used for painting and repairing work inside the room up to a height
of 5m
The working platform is supported over the top of movable contrivances such as tripods laddersetc
Steel scaffolding
Steel scaffolding is practically similar to the timber scaffolding, here wooden members are
replaced by steel couplets are fittings
Such scaffolding can be erected and dismantled rapidly
It has a greater strength and greater durability
Patented scaffolding
Many patented scaffolding made of steel are available in the market
Thos scaffoldings are equipped with special couplings frames etc
TRUSSES
Trusses are the frame formed by number of straight members connected in the form of triangles
The embers are made by steel angles and they are joined by rivet or welding, these joints arecalled nodes
It is assumed that the external loads act at the nodes only and the members are subjected to onlytension or compression
The compression members are called as struts and the tension members are called as ties
Steel roof trusses are used under the following condition
Large spans are to be covered
Intermediate columns are to be avoided to have an unobstructed working area inside
There is a heavy rain or snow fall
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Types of roof trusses
King post truss
Here t hecommon rafters are supported by wooden frame work called truss under required interval
The frame work consist of a king post, two struts two principal rafters and tie beam
The truss rest on stone bed blocks at either end
The common rafters rest on wooden purlins which in turn are fixed to the principal rafters of thetruss
The king post connect the ridge post and the middle of the tie beam
The struts are connected to the king post at the bottom and the principal rafters at the top
The roofing material is fixed to the common rafters king post truss is used for spans of 5m to 9m
Queen post truss
The frame work consist of two principal rafters ,two queen post one straining sill two struts onetie beam and one straining beam
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The common matters rest on wooden purlins
The staining beam resist the horizontal thrust developed
The struts are connected to the queen post at the bottom and the principal rafters at the top
North light roof truss
North light or saw tooth roof truss is special type of roof trusses suitable for factories engaging inmanufacturing work
North light truss is sawtooth
Actual lighting is taken an advantage during day time by using the north light roof trussesIn this type of trusses vertical drops are provided this drops are covered with glasses so as to
permit light in to the interior
Centering and shuttering
Shuttering is the temporary ancillary construction used as a mould for the structures
In which the concrete is placed and allowed to hardened
These are classified as steel wooden plywood combined woods steel, reinforced concrete andplain concrete
Requirements of shutteringThe material should be cheap and should be suitable for re use several times
It should be practically water proof so that it should not observe water from concrete
It should be strong enough to with stand all loads coming on it
It should be stiff enough so that deflection is minimum
The surface of the formwork should smooth and it should afford easy stripping
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Loads on form work
Live load due to labour etcDead weight of wet concrete
Hydrostatic pressure of the fluid concrete
Impact due t pouring concrete
Shuttering for column
Components
Sheeting or column shutter all around the column
Yokes
Wedges
bolt
Shuttering for beam and slab floor
The slab is continous over the beam
The slab is supported on 2.5 cm thick sheeting laid parallel to the main beam
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form work for stairs
Shuttering of walls
The boarding may be 4 to 5 cm thick for walls up to 3to 4m high
The boards are fixed to 5cmX10cm posts known as struts are soldiers
ROOF FINISHING
Roof finishing accessories include all types of accessory materials that are used to finish a roof.
Flashing, drip edge, and roof drains are all examples of roofing accessories.
Roof finishing accessories are widely available for a range of applications and may be chosen
for functional, aesthetic, or budgetary reasons.
Roofing accessories are largely made from aluminum, steel, copper, or PVC vinyl. They include
a range of products including
Rain gutters and Drains and guards
Flashing or weatherproofing materials
Roof caps Drip edges Ridges and shingles Chimney caps Leader boxes Finials and turrets Weathervanes.
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Rain gutters and Drains and guards
Rain gutters, drains and guards are roof finishing accessories that collect and divert rainwater
away from the roof and building foundation.
These types of roof finishing accessories may also reduce erosion, prevent leaks in the
foundation or basement, reduce water exposure on painted surfaces, and collect water foradditional use.
Rain gutter, drain and guard roof finishing accessories may be available with screens, louvers, or
hoods for additional protection.
Flashing or weatherproofing materials
Roof finishing accessories also include flashing, also known as weatherproofing.
Flashing refers to installing a thin, continuous piece of sheet material to prevent the passage of
water into the structure from a joint or angle.
Flashing roof finishing accessories are commonly used around protruding objects in the roof,
such as chimneys or pipes, to prevent water from reaching seams or joints.
Roof caps, drip edges, ridges and shingles, and chimney caps
Roof caps, drip edges, ridges and shingles, and chimney caps are also common, functional roof
finishing accessories
. Roof caps provide ventilation via the rooftop. They are commonly made from copper or
galvanized steel, and often include an insect screen.
Drip edge roof finishing accessories are useful in stopping water from seeping under a roof
deck, which can prevent frame rot.
Roof ridge caps and shingles are also used as finishing accessories. Roof shingles are individual,overlapping elements used for water-resistance.
At the roof ridge, there is typically a copper, lead, or plastic cap to ensure water protection.
Ridge vents are also commonly used as roof finishing accessories to provide ventilation to attic
or upper crawlspaces.
Leader boxes, Finials and turrets and Weathervanes.
Finishing accessories can also be decorative.
These accessories include leader boxes, finials and turrets, and weathervanes. Leader box
accessories are used with gutter systems to hide or diminish the sight of leader elbows, and areavailable in a range of decorative styles, shapes, and designs.
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Roof finials and turrets are caps or towers affixed to the highest point of the roof, largely for
decoration. Turrets are often designed to hold clocks or bells.
Similarly, weathervanes are another type of roof finishing accessory often used for decoration atthe highest point of the roof. Weathervanes are not solely used for decoration, however, as they
also point to the direction of the wind. Other, unlisted types of roof finishing accessories may
also be available.
ACOUSTICS
Acoustics is the science of sound ,which deals with origin ,propagation and auditory sensation ofsound and also with design and construction of different building units to set optimum condition
for producing and listenig speech musi etc
FIRE PROTECION
No building material is perfectly fire proof
A wider interpretation of the fire safety may be deemed to cover the following aspects
Fire prevention and reduction of number of out breaks of fire
Spread of fire both internally and externally
Safe existence of any and all occupants in the event of an out breaks of fire
Fire load
Fire load is the amount of heat in kilocalories which is liberated per square meter of floor area ofany combustible parts of the building itself
The fire load is determined by multiplying the weight of all combustible materials by their
calorific value and dividing the floor area under consideration
Grading of building according to fire resistanceThe national building code of India (sp:7-1970) divides building in to the following four types
according to the fire load the building is designed to resist
Type 1 construction all structural components have 4 hours fire resistance
Type 2 construction all structural components have 3 fire resistance
Type 3construction all structural components have 2 hours fire resistance
Type 4 construction all structural components have 1 hour fire resistance
General fire safety requirements for buildings
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All building and particularly building having more than one storey shall be provided withliberally designed and safe fire proof existence
The exist shall be so placed that they are always immediately accessible and each is capable oftaking all the persons on that floor a s alternative escape route
Escape route shall be well ventilated as persons using the escapes are likely to over come from
smoke
Fire proof door shall conform rigidly to the fire safety requirements
Electrical and mechanical lifts while reliable undr normal condition may not always be relied onescape purpose
Lift shafts and stairways invariably serve as flues are tunnels thus increasing the fire byincreased draught
Floors are required to withstand the effect of fire for full period stated for the particular grading
Roofs of the various fire grades of the building shall be designed and constructed to withstand
the effect of fire for the maximum period
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UNIT III
SUB STRUCTURE CONSTRUCTION
Techniques of Box jackingPipe Jacking -under water construction of diaphragm walls and
basement-Tunneling techniquesPiling techniques - well and caisson - sinking cofferdamcable anchoring and grouting-driving diaphragm walls, sheet piles - shoring for deep cuttingwell points -Dewatering and stand by Plant equipment for underground open excavation.
TECHNIQUES OF BOX JACKING
Necessity of this technique
When the increasing demands for various forms of transport infra structure to be constructed in
congested locations or below existing facilities the need to be able to install large structures
without destruction is a growing need.
The jacking of large boxes to create an underpass below a railway track or road without
destruction
For around 30 years this box jacking techniques has found wide use Europe and India
Types of structures under jacking
Box jacking
Arch jacking
Pipe jacking
OPERATONSThe box shaped tunnel structures are pre fabricated units which are pushed into soil by hydraulic
jack
Soil is excavated at the advancing face by manual means or by excavators
To avoid settlements of over laying roads or rail track soil is excavated after it enters the cutting
heads
Excavation ahead of the cutting is avoided the cutting head is moved forward in small
increments to avoid any having of the road or rail track
In addition to that, without stabilizing the soil, the box technique would cause the super structure
to settle the threatening structure failure so the ground ahead of tunnel boxes needed to be frozen
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PIPE JACKING
In tunnels of damages above 2m men and machines worked the tunnel phase exacting andproviding soil support to the excavator soil by erecting the lining. The tunnel diameter becomes
small it becomes difficult for workers to carry out soil excavation of in erect the tunnel lining
system with in the tunnel shield
For diameter in the range of 0.5m to 1.5m it is more efficient to excavate the soil by drilling
systems controlled from a shaft or a pit to push the tunnel lining segment from the shaft or pit
these techniques are often referred to us pipe jacking or micro tunneling techniques andequipments
Pipe jacking refers to a technique in which a man in a sitting or crouch position, users epic and
shovels to excavate tunnel face and the pipe is jacked forward from a shaft using hydraulicjacking system
Horizontal auguring refers to a similar technique in which the man is replaced by a horizontalcontinuous flight helical auger
INSTALATION
The pipe sections are moved forward by hydraulic jacking and the miniature TBM derive itsreaction from these section
Pipe segments of length 1 to 3 diameters 0.5 to 2m can be jacked into the soil using reaction
from the concrete wall erected at the rior of jacking pit.
DIAPHRAGM WALL
In structural engineering, a diaphragmis a structural system used to transfer lateral loads toshear walls or frames primarily through in-plane shear stress
. These lateral loads are usually wind and earthquake loads, but other lateral loads such as lateral
earth pressure or hydrostatic pressure can also be resisted by diaphragm action.
The diaphragm of a structure often does double duty as the floor system or roof system in a
building or the deck of abridge, which simultaneously supports gravity loads.
Diaphragms are usually constructed of plywood or oriented stand board in timber construction;
Metal deck or composite metal deck in steel construction; or concrete slab in concrete
construction.
The two primary types of diaphragm are flexible and rigid. Flexible diaphragms resist lateral
forces depending on the tributary area, irrespective of the flexibility of the members that they are
transferring force to
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. On the other hand, rigid diaphragms transfer load to frames or shear walls depending on their
flexibility and their location in the structure.
Parts of a diaphragm include:
the membrane, used as a shear panel to carry in-plane shear
the drag strut member, used to transfer the load to the shear walls or frames The chord, used to resist the tension and compression forces that develop in the
diaphragm, since the membrane is usually incapable of handling these loads alone.
TUNNELING
Process of making tunnels in order to reduce distance of travel or traffic congestion for highway
and railway is called tunneling
Tunneling is important for the following purpose
o Time saving and reduction in fuelo Avoid unwanted traffic congestiono Maintain a proper speedo Avoid tiredness of travelo Avoid unwanted accidentso To avoid deforestation and death of animal while crossingo To avoid land slide in hilly regiono To avoid the long route around the mountaino
To reduce the length of highway and railway and it may be economicalo To have flatter gradient that is essential to maintain the speed of the vehicle
Tunneling types depending upon the shapes
Poly centric
Horse shoe
Size of the tunnel
It depends upon the number of track and the width and length of the mountain
Alignment of tunneling
o Identify the shortest routeo Height of mountain should be lesso Mark the points on the mountaino Transfer the tunnel inside the mountain by making of required depth
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The hammer is connected to the rope by a hook
When it is lifted up after reaching a particular height it is dropped down
Single acting hammer
Hammer is lifted by stream and dropped then it will fell down in the top of the pile by
gravitational force
Double acting hammer
It is the same as that of single acting but here both the lifting and dropping is done by steam
engine
Diesel hammer
The process of lifting and dropping is done by diesel engine
Vibrators
If the soil condition is loose ,then using some vibrators the pile is inserted
SHEET PILES
It is the type of pile that is made of concrete, steel or wood
The thickness of the pile is very less when compared to the length and width of the pile
To prevent the entry water in construction the sheet piles are used, this is also used to separate
the vertical member of the building
The piles are inserted by some machine the depth of the piles can be increased by proper joints in
successive installment
Functions
To enclose the site or part to prevent escape of loose soil
To retain the sides of trenches or excavation
To construct retaining wall in the marine structures
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To prevent seepage below the dams or hydraulic structures to construct coastal defense work
To protect the foundation from scouring action of nearby river
Concrete sheet piles
Reinforced precast unit having the width of 50 to 60 cm and thickness 2to 6cm and the depth can
be increased by further installment
Timber sheet piles
it is used only for temporary works ,the width of the pile varies from 225to 280 cm the thickness
shall not be less than 50mm
DEWATERING
DEFINITION
When water table exists at a shallow depth below ground surface, it is essential to lower the
water so as to carry out construction of foundation, basement, and metro tunnels etc.This is
achieved by pumping out water from multiple wells installed at the site. The process is called asdewatering.
Types of dewatering method
Dewatering can be done by adopting one of the following four strategiesDewatering of soil by temporary lowering of water table using wells and pumps prior excavation
as depleted in figure
Allowing water to reap into excavation area, collecting it in sumps and pumping it out. Before
that adequate steps have to be taken to support the soil on sides of the excavated area, to prevent
washing away of fines and have sufficient space for the work area.
Making the soil around excavated zone impermeable by technique such as grouting are freezing
so that inflow of water is stop are minimized.
INSTALATION TECHNIQUE
Sufficient size and capacity of dewatering system is necessary to lower and maintain groundwater table and to allow material to be excavated in a reasonable dry condition.
Excavation slopes to be stabilized where sheeting is not required
Dewatering system is to be operated continuously until backfill work has been completed.
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Then, the structure to be constructed at the excavated area has to be finished
The complete stand by have to be available for immediate operation as may be required, toadequately maintain dewatering on continuous basis and in the event that all or any other part of
the system may become inadequate or fail
The water removed from the excavation to be disposed in such a manner as will not endangerportions of work under construction or completed.
For dewatering purpose, well points deep well, caissons and tunnels are used.
WELL POINTSDEWATERING
When construction operation have to be excited below the ground water table level. Dewatering
of soil can be done by the following methods
Collecting water in sumps and pumping it out.
Installing well points small or deep wells and pumping out ground water
Using special technique in fine grained soils such as vaccum dewatering and electro-osmosis
WELL POINTSTo pump out the ground water small sized wells called well points are used for a more dry
working area the two methods used most often for lowering water table below the excavation
level are the well point method and the deep well method.
WELL POINT METHOD
:This is economical and useful for lowering the water table by 15m or less.
Incase of well point method or deep well method it is based on the fact that removal of water by
continuous pumping from a well causes the water table level to become depressed and result in
the formation of draw down.
When a series of wells are placed close to each other, the overall effect is lowering of the water
table level.
Well points, being smaller, are easy to install.
Well points, can lower the water table by only 6.7m because the pump, is located at the groundsurface and connected to group of well points through a pipe, cannot lift water from greater
depth.
Beyond 7m, multistage well points are used.
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DEEP WELL METHOD
This method is useful for lowering the water table by more than 15m.
Deep wells have larger diameter more depth and greater spacing.
The pump is located at the bottom of well and hence can pump out water from greater depth.
Deep wells become more economical if more points are required.
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UNIT IV
SUPER STRUCTURE CONSTRUCTION
Launching girders, bridge decks, off shore platformsspecial forms for shells - techniques for
heavy decksin-situ pre-stressing in high rise structures, Material handling - erecting lightweight components on tall structures - Support structure for heavy Equipment and conveyorsErection of articulated structures, braced domes and space decks.
BRIDGE DECKS
The principal function of a bridge deck is to provide support to local vertical loads (from
highway traffic, railway or pedestrians) and transmit these loads to the primary superstructure ofthe bridge, Figure 1(1). As a result of its function, the deck will be continuous along the bridge
span and (apart from some railway bridges) continuous across the span. As a result of this
continuity, it will act as a plate (isotropic or orthotropic depending on construction) to support
cal patch
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Continuity ensures that whether or not it has been designed to do so, it will participate in the
overall structural action of the superstructure.
The overall structural actions may include:
Contributing to the top flange of the longitudinal girders, Figure 1(2).
Contributing to the top flange of cross girders at supports and, where present in twingirder and cross girder structures, throughout the span, Figure 1(3).
Stabilising longitudinal and cross girders, Figure 1(4).
Acting as a diaphragm to transmit horizontal loads to supports, Figure 1(5).
Providing a means of distribution of vertical load between longitudinal girders, Figure 1(6).
It may be necessary to take account of these combined actions when verifying the design of the
deck. This is most likely to be the case when there are significant stresses from the overall
structural actions in the same direction as the maximum bending moments from local deckactions, e.g. in structures with cross girders where the direction of maximum momen