1) The document provides simplified guidelines for constructing masonry buildings in India's Seismic Zone V to make them earthquake resistant.
2) It outlines essential elements for earthquake safety like using good cement mortar, adding horizontal seismic bands and vertical reinforcement in walls.
3) Seismic bands should be added at various levels like the plinth, lintel and roof levels. Their size and reinforcement depends on the wall length between cross walls.
Prestressed concrete ,post tensioning ,pre tensioning, where normal concrete can not be used and need of more strength is required this type of concrete are used. Metal bars are replaced by the tendoms which are generally used to create tension in concrete. So because of that beam bends in upward direction and when load is applied it come in normal conditon.
Prestressed concrete ,post tensioning ,pre tensioning, where normal concrete can not be used and need of more strength is required this type of concrete are used. Metal bars are replaced by the tendoms which are generally used to create tension in concrete. So because of that beam bends in upward direction and when load is applied it come in normal conditon.
This presentation will give the brief introduction to the specifications, its different types along with link to example of detailed specifications. Specifications of buildings and roads are discussed.
• A retaining wall construction method in which walls are constructed with small gaps between adjacent piles. The size of the space is determined by the nature of the soils.
• الخوازيق الساندة بيتم تنفيذها قبل حفر الموقع لأن وظيفتها سند جوانب الحفر
ولايتم الحفر قبل مرور 28 يوم على تنفيذ آخر خازوق ساند
• وبيتم استخدام الخوازيق البنتونيت فى حالة وجود مياة جوفية بمنسوب أعلى ممنسوب الحفرن
• وبيتم تنفيذ الخوازيق البنتونيت أولا ثم بين كل خازوقين بنتونيت يتم تنفيذ خازوق خرسانى بحيث يتداخل بالخوازيق البنتونيت أثناءالتنفي ولا تأثير انشائي له سواء الاملاء وسند التربة
Detailed specification of an item of work specifies the quantities of materials, proportion of mortar, workmanship, method of preparation & execution and method of measurement.
Detailed specifications of different items of works are prepared separately and describe what the work should be and these shall be executed and constructed.
Assessment of fire damage and structural rectification process.Jude Aruna Gayan
A presentation on the methodology of assessing the fire damage may cause due to an in house fire and method of structural rectification can be adopted to strengthen the structure.
Joints are easy to maintain and are less detrimental than uncontrolled or uneven cracks. Concrete expands & shrinks with variations in moisture and temp. The overall affinity is to shrink and this can cause cracking at an early age. Uneven cracks are unpleasant and difficult to maintain but usually do not affect the integrity of concrete.
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information on types of beams, different methods to calculate beam stress, design for shear, analysis for SRB flexure, design for flexure, Design procedure for doubly reinforced beam,
It is used as a mould for a structure in which fresh concrete is poured only to harden subsequently.
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Building crack,types,causes & its repairingGAUTAMSWALA
This presentation is all about cracks occur in building.It includes all types of cracks,its major causes and repairing techniques and finally a conclusion from which viewers can fully understand
about building cracks.
This presentation will give the brief introduction to the specifications, its different types along with link to example of detailed specifications. Specifications of buildings and roads are discussed.
• A retaining wall construction method in which walls are constructed with small gaps between adjacent piles. The size of the space is determined by the nature of the soils.
• الخوازيق الساندة بيتم تنفيذها قبل حفر الموقع لأن وظيفتها سند جوانب الحفر
ولايتم الحفر قبل مرور 28 يوم على تنفيذ آخر خازوق ساند
• وبيتم استخدام الخوازيق البنتونيت فى حالة وجود مياة جوفية بمنسوب أعلى ممنسوب الحفرن
• وبيتم تنفيذ الخوازيق البنتونيت أولا ثم بين كل خازوقين بنتونيت يتم تنفيذ خازوق خرسانى بحيث يتداخل بالخوازيق البنتونيت أثناءالتنفي ولا تأثير انشائي له سواء الاملاء وسند التربة
Detailed specification of an item of work specifies the quantities of materials, proportion of mortar, workmanship, method of preparation & execution and method of measurement.
Detailed specifications of different items of works are prepared separately and describe what the work should be and these shall be executed and constructed.
Assessment of fire damage and structural rectification process.Jude Aruna Gayan
A presentation on the methodology of assessing the fire damage may cause due to an in house fire and method of structural rectification can be adopted to strengthen the structure.
Joints are easy to maintain and are less detrimental than uncontrolled or uneven cracks. Concrete expands & shrinks with variations in moisture and temp. The overall affinity is to shrink and this can cause cracking at an early age. Uneven cracks are unpleasant and difficult to maintain but usually do not affect the integrity of concrete.
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construction joint vs expansion joint construction joint vs control joint sidewalk control joint spacing concrete wall control joints expansion joint concrete construction joint concrete concrete joints control joint
monolithic isolation joints isolation joint material isolation joint vs expansion joint isolation joint neo prene insulating joints pipeline isolation joint vs control joint isolation joints in concrete concrete slab isolation joint
construction joint vs expansion joint construction joint vs control joints idewalk control joint spacing concrete wall control joints expansion joint concrete construction joint concrete concrete joints control joint
concrete joint filler
concrete joint filler strips
control joint vs construction joint concrete
concrete control joint filler
concrete slab control joint detail
types of concrete expansion joints
construction joint concrete
control joints in concrete
information on types of beams, different methods to calculate beam stress, design for shear, analysis for SRB flexure, design for flexure, Design procedure for doubly reinforced beam,
It is used as a mould for a structure in which fresh concrete is poured only to harden subsequently.
formwork for concrete slab
beam formwork
steel formwork
doka h20
types of formwork
formwork for concrete
what is formwork in construction
building formwork
plywood disadvantages
advantage plywood
advantages and disadvantages of wood
best plywood for formwork
plywood formwork for concrete
mdf advantages and disadvantages
examples of advantages and disadvantages
advantage steel and construction
advantages of steel
disadvantages of steel structures
examples of advantages and disadvantages
advantages and disadvantages of surveys
wiki advantages and disadvantages
steel formwork design
steel formwork system
Building crack,types,causes & its repairingGAUTAMSWALA
This presentation is all about cracks occur in building.It includes all types of cracks,its major causes and repairing techniques and finally a conclusion from which viewers can fully understand
about building cracks.
The presentation includes difference between repair, retrofitting and rehabilitation. methods of repairs, repair materials, various methods for retrofitting etc.
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technique has been proved to be more accurate and much simpler than other AI tools. In the present study, an attempt has been
made to implement GEP for the development of scour depth prediction model at bridge piers in cohesive sediments using
laboratory data available in literature. The present study reveals that the performance of GEP is better than nonlinear regression
model for the prediction of scour depth at piers in cohesive beds
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1. EARTHQUAKE SAFE CONSTRUCTION OF MASONRY BUILDINGS
Simplified Guideline for All New Buildings in the Seismic Zone V of India
Introduction:
As usual new construction of buildings under IAY, Prime Minister Rojgar Yojana and buildings
under various other National and State schemes get started in the month of May. The Ministry of Home
Affairs is keen that All New Buildings should be made earthquake resistant in the first instant so that we do
not add to the stock of existing unsafe buildings. Since most of the buildings are constructed using brickwork
or, solid hollow concrete blocks with flat roofs, very simple illustrated guidance is provided in the attached
brochure for incorporating the earthquake resistant features suitable for seismic zone V.
Essential Elements for Earthquake Safety1
:
The essential elements required to make a building earthquake safe are as given in Figure 1. Some
additional requirements are detailed in the following paragraphs.
1. GOOD CEMENT MORTAR:
The cement mortar should be used in the ratio of 1 part of cement with 4 parts of sand (1 sack of
cement mixed with 4 equal sacks of sand).
2. HORIZONTAL SEISMIC BANDS:
A seismic band consists of reinforced concrete flat runner through all external and internal
masonry walls at the following levels in the building.
a. at the plinth level of the building
b. at the levels of lintels of doors and windows
c. at the ceiling level of roofs consisting of wooden joists or, prefabricated reinforced concrete beams
or, planks. (Such band will not be necessary if the roof consists of Reinforced Concrete or,
Reinforced Brick slabs cast on the walls covering a minimum of 2/3 of the thickness of the wall.)
The dimensions of the band and the reinforcement inside depend upon the length of the walls
between the perpendicular cross walls. The table below (Table-1) shows the dimensions to be adopted for
the seismic bands and the internal reinforcement details to be provided. The reinforcement and bending
details of seismic bands are given in the Figure-2. Reinforcing bars will be of Fe 415 type [TOR or, High
Yield Strength Deformed, i.e. HYSD bars]
1
The details given here are extracted from IS: 4326-1993 Code of Practice as applicable to buildings with Brick/ Concrete
block walls and R.C. flat slab roofs. Details not given here may be seen in the Code.
1. Lintel Band
2. Roof/ Floor Band
3. Vertical reinforcing bar at corner
4. Door
5. Window
6. Plinth Band
7. Window Sill Bands
Figure – 1: Essential Internal
Elements in Buildings
for Earthquake Safety
Zone V
2
1
2
1
5
4
3
6
7
2
1
7
2. b1
b
1
2
2
2
2
1
33
b
b2
30 40
75
6@150
1
2
30
40
150
6@1501 2
bb
(a) (b)
40
30
(c) (d)
(e) (f)
(a) Section of the Band with 2 longitudinal steel bars
(b) Section of the Band with 4 longitudinal steel bars
(c) Structural Plan at L- type wall junction
(d) Structural Plan at T- type wall junction
(e) 3 Dimensional view of the L - type wall junction
(f) 3 Dimensional view of the T - type wall junction
1. Longitudinal reinforcements
2. Lateral Ties
3. Vertical reinforcement at corners
b, b1, b2 Wall thickness
Figure-2: Reinforcement and Bending Details of Seismic Bands
Table-1: Recommended size and longitudinal steel in Seismic Bands (Zone V)
Buildings of all types i.e., Residential buildings & Public Buildings (Schools, Hospitals,
Meeting Halls, Anganwadis, etc.)
Internal
length of
wall Size of the band No. of Bars Dia (mm)
5 m or, less 10 cm x wall width 2 10
6 m 10 cm x wall width 2 12
7 m 15 cm x wall width 4 10
8 m 15 cm x wall width 4 12
3. VERTICAL REINFORCEMENT IN THE BRICK WALLS:
For earthquake safety in seismic zone V reinforcing bars have to be embedded in brick masonry at
the corners of all the rooms and the side of the door openings. Window openings larger than 60 cm in
width will also need such reinforcing bars (Figure – 4). The diameter of the bar depends upon the
number of storeys in the building. The recommendations are given in Table-2.
Providing the vertical bars in the brickwork and concrete blocks requires special techniques which
could be easily learnt by the supervising engineers and masons will need to be trained.
31
2
3
1
2
3. These vertical bars have to be started from the foundation concrete, will pass through all seismic
bands where they will be tied to the band reinforcements using binding wire and embedded to the ceiling
band/roof slab as the case may be using a 300 mm 90° bend. Sometimes the vertical bars will not be
made in one full length. In that case the extension of the vertical reinforcement bars are required, an
overlap of minimum of 50 times the bar diameter should be provided. The two overlapped reinforcement
bars should be tied together by using the binding wires.
1
1
1
1/2
1/2
1/2
1/2
3/4
1/2
3/4
1/2
1/21/21/21/21/2
1/2
1/2
1/2
1/4
1/4
11 1/21/2
(a) (b)
33
3 3
3/4
3/4
a & b : Alternate courses in one brick wall
1 : One brick length
½ : Half brick length
¼ : Quarter of a brick length
¾ : Three quarters of a brick length
3 : Vertical reinforcement bars with Concrete/ mortar filling in
pocket of M20 grade (1:1½:3 nominal mix)
Figure-3: Typical Details of Providing Vertical Steel
Bars in Brick Masonry
Table-2: Recommended size of vertical
steel in Seismic Bands (Zone V)
Buildings of all types i.e., Residential
buildings & Public Buildings * (Schools,
Hospitals, Meeting Halls, Anganwadis, etc.)
No. of
storeys
Floor Dia of Single
HYSD(TOR) Bar at
corners of room (mm)
One - 12
Top 12
Two
Bottom 16
Top 12
Middle 16Three
Bottom 16
* Building of four storey not permitted in Zone V.
Table-3: Recommended joint details with the vertical reinforcement at corner for masonry walls
using different kind of materials
Type of
Joint
Corner reinforcement in
case of Brick Masonry
Corner reinforcement in
case of Solid Concrete Block
Masonry
Corner reinforcement in case of
Hollow Concrete Block Masonry
(see the hole and slit made)
L- Joint
T- Joint
4. B
WELL COMPACTED SOIL
2 T
P.C.C 1:4:8
2 TOR 12
125
150
<125
1.5 T
T
100Plinth Band
Floor Finish
<
Ground Level
T - 230 for Brick Work
200 for Block Work
Plinth Level
150
Well compacted Sand
Masonry in C.M.1:6
Masonry in C.M.1:4
6mm DIA. @150 c/c
(a) Sectional Elevation of Door
(b) Sectional Elevation of Window
(c) Section 2-2
Figure-4: Typical Details of Providing Vertical Steel Bars around doors/windows
4. VERTICAL REINFORCEMENT AT JAMBS OF OPENINGS:
All door and window openings wider than 600 mm will have vertical reinforcement in jambs as
shown in Figure-4.
5. FOUNDATION
Foundation width 'B' should
be decided by the load coming
on the foundation and the
bearing capacity. Masonry width
may be reduced by ½ times T in
every step of 150 mm height.
NOTE:
In sandy soils with high water
table within 8 m depth below
ground level, which may get
liquefied during earthquake of
MSK intensity VIII to IX, pile
foundation need to be used in
consultation with the Structural/
Geotechnical Engineer.
National Disaster Management Division,
Ministry of Home Affairs, North Block, New Delhi, India
Tel: 91 11 2309 3178; Tel/Fax: 2309 4019; Fax: 91 11 2309 3750;E-mail: ndmindia@nic.in; dsdm@nic.in; Website: www.ndmindia.nic.in
P r e p a r e d b y :
Professor Anand S. Arya and Jnananjan Panda
Tel: 91 11 5539 6386; Email: anand.s.arya@undp.org, jnananjan.panda@undp.org
Figure-5: Foundation Detail with
Plinth Band in Brick or,
Concrete Block Masonry
Prepared under the GoI – UNDP Disaster Risk Management Programme