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Maintenance And Repair Of
Buildings.

Classification: Internal
Use
What is maintenance ?
• It is the work undertaken to restore or improve
every facility in every part of a building , its
services and surroundings to currently accepted
standards and to sustain utility values of the
facility.

Use
Objectives Of Maintenance :
• To preserve in good condition buildings and services.
• When deterioration occurs due to any reason it is
inevitable to restore it to its original standard.
• To make improvements whenever required.
• To sustain utility value.
A good maintenance team has to ensure
1. Safety
2. Efficiency
3. Reliability

Use
Maintenance operations have many facets such as :
1. Condition based
maintenance :
2. Fixed time maintenance :
3. Preventative maintenance :
4. Opportunity maintenance :
5. Day to day maintenance :
6. Shutdown maintenance :
• It is the work initiated after
inspection.
• Activities repeated at
predetermined intervals.
• This is intended to preserve by
preventing failure and
detecting incipient faults.
• Work done as and when
possible within the limits of
operational demand.
• Its involves maintenance that
has to be performed daily.
• Through overhaul and
maintenance after closing.

Use
Maintenance operations have many facets such as :
• Emergency maintenance : Necessitated by unforeseen breakdown
damage or a damage caused by natural calamity like earthquakes,
floods ,etc.

Use
Examples of some common maintenance works in a building are
as follows : -
• Maintenance Survey for water supply and sanitary
system :
In case of water supply and sanitary system , periodic surveys are
necessary to observe how the system is functioning. Normally
inspection should start from the top and proceeded downwards.
Drawings which indicate various services as laid should be obtained
to facilitate survey.

Use
Maintenance of Electrical Installations :
The electrical installation is made safe by getting it installed and
maintained through licensed persons. Its necessary that the
installation is checked periodically and a proper record of such work
is maintained. Recommended periodicity of checking is as follows :
1. Earthing test - Once a year
2. Insulation - Twice a year
3. Polarity - Once in five years.

Use
Maintenance of Elevators
In multistoreyed buildings vertical transportation is an essential
service. The vertical transportation is effected by lifts which could be
of various types such as passenger lifts , goods lifts special lifts in
hospitals , etc. Without adequate vertical transportation the entire
activity in the multistoreyed building would come to a standstill.

Use
Lift maintenance should cover :
1. All mechanical equipments such as sheaves , buffers door closers
, floor selectors , limit switches , door hangers ,etc.
2. Interlocks – mechanical fastenings to the base and latching head
is locked securely when door is closed. The electrical contact
should not get made unless the door is fully closed and locked.
3. Hoist and governor ropes for wear and rust
4. Travelling cables – Make sure that they are properly hung and
outer wrapping is not worn out to avoid short circuit.
5. Rails – Alignment , tightness of all plates brackets.

Use
Maintenance of walls to avoid efflorescence
Efflorescence is caused due to entry of moisture into the brickwork
and soaking it to saturation. Once the moisture has entered it moves
upward due to capillary action; reasons for entry of moisture are-
• Porous nature of structure
• Cracks in the wall
• Existing voids left due to bad workmanship
• Small trees and plants in the wall
• Nonexistence of damp proof course or failure of DPC

Use
EFFECTS OF EFFLORESCENCE
• Dry rot of woodwork
• Disintegration of masonry
• Damage to furniture
• Crumbling of plaster

Use
STEPS TO AVOID EFFLOROSCENCE
Eradication of efflorescence is quite difficult and it is often termed as
cancer of buildings .The first step to check efflorescence is to check
the ingress of moisture in buildings if there is no failure of DPC
efflorescence can be checked easily .
• Step one- ingress of water is checked
• Step two- plaster is removed both inside and outside and is left to dry
• Step three- voids in the wall are filled
• Step four- walls are washed with tamarind water to remove stains
• Step five- walls are replastered with cement mortar not leaner than
1:4 and a water proofing admixtures

Use
What is repair ?
It is defined as the process of restoration of a
broken, damaged, or failed device, equipment, part,
or property to an acceptable operating or usable
condition or state.

Use
Some common types of repairs are as follows :
1. Patching up of defects such as cracks and fall of plaster.
2. Repairing doors, windows, replacement of glass panes.
3. Checking and repairing electric wiring.
4. Checking and repairing gas pipes, water pipes and plumbing
services.
5. Re-building non-structural walls, smoke chimneys, boundary walls,
etc.
6. Re-plastering of walls as required.
7. Rearranging disturbed roofing tiles.
8. Relaying cracked flooring at ground level.
9. Redecoration — whitewashing, painting, etc.

Use
Examples of some common repair works in a building
are as follows : -
REPAIR OF CRACKS IN WALLS
Cracks are signs of distress in structural and non-structural
members caused due to separation of joints , development of
fissures , shearing, separation of members built with different
materials . Cracks may be at different locations like – vertical,
horizontal, inclined ,separation at the roof level just below the
junction of RCC slab and masonry wall , in parapet , at junctions of
RCC columns etc. They may be wide narrow or hairline and can be
of varying depths. They are classified broadly as structural and non
structural cracks; with structural cracks forming due to incorrect
design faulty construction, and non structural cracks forming due to
internal stresses .

Use
DIFFERENT METHODS OF REPAIR OF CRACKS
1. Non structural or surface cracks -They do not require elaborate
measures as they prevail on the surface only. After removal of the
rendering, cracks if observed in masonry are cut v shaped upto a
depth of 12-30 mm and filled with cement mortar 1:4and then the
surface is replastered.

Use
2. Very heavy cracks – If there are very heavy cracks all over the
external load bearing wall along with signs of settlement, the wall is
considered beyond repair and needs replacement. The load carried
by the wall is supported on props , the old wall is demolished part by
part and then rebuilt either in brickwork or suitable RCC framework.

Use
3. RCC band (crack arrestor) – an active crack in progress may be
arrested by providing an RCC band along the line of crack. RCC
band helps in checking further cracking and provide adequate
strengthened sections for brickwork. The brickwork has to be
opened on either side of the crack upto a depth of 100 to 150mm or
one third the thickness of the wall ; the exposed surface is
roughened and cleaned , the reinforcement mesh is placed and
filled with good concrete . The procedure is repeated on both sides
of the wall

Use
3. Cracks over arch openings – In old buildings we can see cracks over
arch openings . It indicates that the arch has reached the limit of
its load transfer mechanism. If the cracks are not severe they are
repaired by driving metallic wedges from below.
4. Stitching – stitching is done to repair cracks of brickwork.
5. Cracks observed at junctions of two different materials RCC
columns and masonry walls
a. RCC columns and masonry wall - cracks appear due to difference
in thermal coefficients of the two materials and can be
prevented by inserting GI butterfly ties between RCC column and
brickwork. The ties are provided at alternate layers of
brickwork.
b. In buildings having this problem and water entering from the
crack and causing dampness of thewall , the external plaster on
the outer face 100mm on either side of the crack may be taken
out and replastered after fixing chicken wire mesh over the crack.
In all cases of junctions rendering should be one after fixing
chicken wire mesh.

Use
REPAIR OF PLASTERING WORKS
DEFECTS WHICH OCCUR IN PLASTERING WORKS-
• Blistering- this occurs due local relative expansion of the finishing
coat
• Bond failure or loss of adhesion – this causes hollow patches ,
flaking of top coats , bulging or peeling of areas.
• Cracking – caused due to structural movement , exposure to direct
sun or shrinkage

Use
Crazing – caused due to tensile stress
Efflorescence – caused due to presence of salts in masonry which dissolve
in moisture entering in it
Irregularity of surface - caused due to faulty workmanship.
Recurrent surface dampness – due to presence of deliquescent salts in
sands used in plastering

Use
CRACKS IN RENDERING AND PLASTER ALONGWITH
REMEDIAL MEASURES
1. Shrinkage cracks – shrinkage cracks in rendering plaster occur after
the first dry spell . They may occur due to lack of bond with the
masonry surface and is identified by tapping the affected surface which
would produce a hollow sound. Crack due to sulphate action occur
after 2 to 3 years from construction. Remedial measure would be to
remove the plaster and renewing it after raking the joints 10 mm deep.

Use
2. Cracks around door frames – this type of cracks occur due to shrinkage
of wooden frames or due to loose fixing of door frames . Loose fixing
causes vibration of frame and cracks develop at the junction . Cracks
may also develop when the timber of the frame is not properly
seasoned. As a preventative measure the timber should be properly
seasoned and the frame should be rigidly fixed. As a remedial measure
the junction of frame and masonry should be concealed by architraves.

Use
REPAIR OF CRACKS IN RCC MEMBER OF A STRUCTURE
NATURE AND TYPE OF CRACKS
• Random cracks in structure exposed to weather –these cracks occur
after many years of construction maybe 15to 20 years ; they are
likely to be caused due to shrinkage from carbonation of concrete.
• Straight cracks in columns, beams and slabs – these cracks are
parallel to reinforcement along with spalling of cover . Exposure of
reinforcement may occur at places
• Straight cracks in RCC sun shades and balconies – these cracks are
straight and along the length occurring at intervals of 3 to 5 metres
• They are due to shrinkage along with thermal action
• Straight cracks in RCC slabs of long open verandahs – these cracks
may occur at intervals of 6 to 8 metres parallel to the reinforcement.
They are caused due to shrinkage and thermal contraction. These
cracks are wider in winters

Use
INSPECTION OF THE CRACKS
Close inspection of the cracks is necessary to ascertain the nature of
the damage. This may be done by sophisticated instruments or by
visual comparing.
Cracks are defined according to the width of separation :
Fine – width less than 0.1mm
Thin – width 0.1 to 0.3 mm
Medium – width 0.3 to 0.7 mm
Wide – width 0.7 to 2.0 mm
Very wide – width >2.0 mm

Use
REPAIRS FOR STRENGTHENING OF RCC STRUCTURAL
MEMBERS
1. Cracks in the RCC member – when we see cracks due to excessive bending
moment , the load causing the cracks is released as far as possible and the
member is strengthened by adding reinforcing steel with proper key and
bonding with the old member is done.
2. Cracks due to shear – these cracks are at 45 deg. To the axis of the member
and are corrected by adding diagonal shear reinforcement in the form of
stitching dowels
3. Cracks at support or at midspan bottom – they occur due to insufficient steel
or insufficient provision of displacement of steel. They are corrected by
addition of steel as required. The ends of the added steel are bent and inserted
in the member by drilling.

Use
4. Pressure grouting - this method is used when the concrete has
become porous but has not decayed. To check this, holes are drilled
in the member as per requirement and cement slurry and/or
chemicals are grouted under pressure and forced in the holes.

Use
5. Cracks in foundation due to settlement – these when detected is
often beyond repair , the foundation has to be redesigned with a
wider base and/or the foundation has to be taken on soil having
adequate bearing capacity. Cement slurry grouting is often used to
increase the bearing capacity of soil.
6.Load relieving techniques – the member can be prestressed
externally by placing prestressing wires on both sides and then
inducing tension.

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