3. PRE ENGINEERED BUILDINGSPRE ENGINEERED BUILDINGS
The buildings are design as per
client’s requirement & actual
design calculations using tapered
sections.
A combination of built up section,
hot rolled section, cold formed
elements and profiled sheets
Designing and casting is done in
factory
Building components are brought
to site
Then fixed/jointed at the site
All connections are bolted.
4. Steel was very expensive item in USASteel was very expensive item in USA
The concept of PEB originate from here.The concept of PEB originate from here.
The idea was that section should be provided as per B.M.D.The idea was that section should be provided as per B.M.D.
This lead to the saving in steel and development of PEBThis lead to the saving in steel and development of PEB
concept.concept.
BRIEF HISTORYBRIEF HISTORY
5. APPLICATIONSAPPLICATIONS
Industrial BuildingsIndustrial Buildings
WarehousesWarehouses
Commercial ComplexesCommercial Complexes
ShowroomsShowrooms
OfficesOffices
SchoolsSchools
Indoor StadiumsIndoor Stadiums
Outdoor Stadiums with canopiesOutdoor Stadiums with canopies
Gas StationsGas Stations
Metro Stations, Bus Terminals, Parking LotsMetro Stations, Bus Terminals, Parking Lots
Primary Health Centers, Angan wadi’sPrimary Health Centers, Angan wadi’s
And many more…And many more…
9. Self weightSelf weight
30% lighter30% lighter
Delivery – average 6 to 8Delivery – average 6 to 8
weeksweeks
Foundation-simple design,Foundation-simple design,
easy to construct & light wt.easy to construct & light wt.
Erection cost and time-Erection cost and time-
accurately knownaccurately known
Erection process is easy, fast,Erection process is easy, fast,
step by stepstep by step
Self weightSelf weight
More heavyMore heavy
Delivery- average 20 to 26Delivery- average 20 to 26
weeksweeks
heavy foundation required.heavy foundation required.
Erection cost and time- 20%Erection cost and time- 20%
more than PEBmore than PEB
Erection process is slow andErection process is slow and
extensive field labor isextensive field labor is
required.required.
10. Seismic Resistance- lowSeismic Resistance- low
weight flexible frames offerweight flexible frames offer
higher resistance to seismichigher resistance to seismic
forcesforces
Overall price -30%lowerOverall price -30%lower
architecture-achieved at lowarchitecture-achieved at low
castcast
Seismic Resistance- rigidSeismic Resistance- rigid
heavy weight structures doheavy weight structures do
not perform well in seismicnot perform well in seismic
zoneszones
Overall price - Higher PriceOverall price - Higher Price
per square meter.per square meter.
Architecture- achieved atArchitecture- achieved at
higher costhigher cost
14. Load 1
X
Y
Z
PRE-ENGINEERED BUILDINGS NOMENCLATURE –PRE-ENGINEERED BUILDINGS NOMENCLATURE –
STANDARD FRAMING SYSTEMSSTANDARD FRAMING SYSTEMS
TCCS = TAPERED COLUMN CLEAR SPAN
Load 1
X
Y
Z
TCMS-1 TAPERED COLUMN MULTI-SPAN WITH 1 INTERMEDIATE COLUMN.
15. Load 1
SSCS = SINGLE SLOPE CLEAR SPAN.
Load 1
X
Y
Z
SSMS-1= SINGLE SLOPE MULTI-SPAN WITH 1 INTERMEDIATE COLUMN
16. GUIDELINES FOR PEB DESIGN AT
PROPOSAL STAGE
All Designs Shall Be As Per MBMA [Metal Building
Manufacturer Association] &Client Specifies As Per Is
Code.
Live load as Per American Code = 0.57 KN/M2
and as
Per IS Code = 0.75 KN/M2
. (Reduction in live load to be
incorporated for buildings having higher slopes)
In American Design , Wind Coefficients To Be Followed
As Given In MBMA.
In Is Design, Internal & External Building Wind
Coefficients As Per Is -875 (Part-3).
17. design codes generally used:design codes generally used:
AISC : American institute of steel construction manualAISC : American institute of steel construction manual
AISI : American iron and steel institute specificationsAISI : American iron and steel institute specifications
MBMA : Metal building manufacturer’s codeMBMA : Metal building manufacturer’s code
ANSI : American national standards instituteANSI : American national standards institute
specificationsspecifications
ASCE : American society of civil engineersASCE : American society of civil engineers
UBC : Uniform building codeUBC : Uniform building code
IS: Indian standarIS: Indian standardsds
20. ERECTION SYSTEMERECTION SYSTEM
Understanding The Engineering Documents.Understanding The Engineering Documents.
1. Anchor Bolt Setting Plan1. Anchor Bolt Setting Plan
2. Cross section2. Cross section
3. Roof framing plan3. Roof framing plan
4. Roof sheeting & framing4. Roof sheeting & framing
5. Sidewall sheeting & framing5. Sidewall sheeting & framing
6. Other drawings6. Other drawings
7. Bill of materials7. Bill of materials
21. Preparation for ErectionPreparation for Erection
1.1. Pre Erection checksPre Erection checks
2.2. Receiving Materials at siteReceiving Materials at site
3.3. Unloading ContainersUnloading Containers
Erection of the FramingErection of the Framing
1.1. Preparation of the First BayPreparation of the First Bay
2.2. Main framesMain frames
3.3. Mezzanine floorsMezzanine floors
4.4. Crane BeamsCrane Beams
22. Sheeting & TrimmingSheeting & Trimming
Sheeting preparationSheeting preparation
Sheeting the wallsSheeting the walls
Sheeting the roofsSheeting the roofs
Miscellaneous trimmingsMiscellaneous trimmings
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