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Presentation by gursharan singh for engineeringcivil.com

This document describes a semester project on pre-engineered steel buildings completed by Gursharan Singh from June to December 2007. It provides background on pre-engineered buildings and discusses their components, applications, advantages over conventional construction, and design optimization work done as part of the project, including varying frame dimensions and loads. The project involved detailed literature review and design of pre-engineered building frames.

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Introduction to the project, presenter details, and time frame for the project.

Introduction of Era Building Systems Ltd. and associated companies within Era Group.

Overview of pre-engineered buildings (PEB), their customizability, and historical context in the USA.

Diverse applications of PEB including industrial buildings, warehouses, stadiums, and more.

Key benefits of PEB like aesthetic appeal, speed of construction, seismic resistance, and cost efficiency.

Description of main frame components including primary members, secondary members, and additional parts.

Discussion of design challenges such as structural planning, load types, and frame configurations.

Standard nomenclature for PEB designs and guidelines for adherence to American and IS codes.

Details on frame optimization, including dimensions, calculations of varying widths, heights, and design steps.

Documentation of site visits, processes involved in erection, and preparation for construction.

Detailed steps involved in the erection process, including checks, material receiving, and sheeting.

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PROJECT SEMESTERPROJECT SEMESTER JUNE-DECEMBER 2007JUNE-DECEMBER 2007 BY GURSHARAN SINGHBY GURSHARAN SINGH 10552021055202
ERA BUILDING SYSTEMS LTD., NOIDA PRE ENGINEERED STEEL BUILDINGS Concept , Design & Construction
ERA GroupERA Group Era Infra Engineering Ltd.Era Infra Engineering Ltd. Era Building System Ltd.Era Building System Ltd. Era E-Zone (India) Ltd.Era E-Zone (India) Ltd. Era Landmarks (India) Ltd.Era Landmarks (India) Ltd.
PRE ENGINEERED BUILDINGSPRE ENGINEERED BUILDINGS  Tailor made building based on 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.
 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 perThe idea was that section should be provided as per B.M.D.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
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… P E BP E B
CONT….CONT…. Industrial BuildingIndustrial Building P E BP E B Parking lotsParking lots Indoor StadiumsIndoor Stadiums Railway StationRailway Station
Aircraft HangarsAircraft Hangars P E BP E B Metro StationMetro Station Wear houseWear house High rise BuildingHigh rise Building
ADVANTAGESADVANTAGES  Aesthetic AppealAesthetic Appeal  Faster CompletionFaster Completion  EconomicalEconomical  Seismic ResistanceSeismic Resistance  Ease of ExpansionEase of Expansion  Maintenance FreeMaintenance Free  Large Clear SpansLarge Clear Spans  Controlled QualityControlled Quality  Hassle FreeHassle Free P E BP E B
 Self weightSelf weight  30% lighter30% lighter  Primary Member isPrimary Member is tapered sectiontapered section  Secondary membersSecondary members are light weight rolledare light weight rolled framed “Z” and “C”framed “Z” and “C” sectionsection  Self weightSelf weight  More heavyMore heavy  Primary members arePrimary members are Hot rolled “I” sectionHot rolled “I” section  Secondary membersSecondary members are “I” or “C” sectionare “I” or “C” section which are heavy inwhich are heavy in weight.weight.
 Delivery – average 6 to 8Delivery – average 6 to 8 weeksweeks  Foundation-simpleFoundation-simple design, easy to constructdesign, easy to construct & light wt.& light wt.  Erection cost and time-Erection cost and time- accurately knownaccurately known  Erection process is easy,Erection process is easy, fast, step by stepfast, step by step  Delivery- average 20 to 26Delivery- average 20 to 26 weeksweeks  Foundation- expensive,Foundation- expensive, heavy foundationheavy foundation required.required.  Erection cost and time-Erection cost and time- 20% more than PEB20% more than PEB  Erection process is slowErection process is slow and extensive field laborand extensive field labor is required.is required.
 Seismic Resistance- lowSeismic Resistance- low weight flexible framesweight flexible frames offer higher resistance tooffer higher resistance to seismic forcesseismic forces  Overall price -30%lowerOverall price -30%lower  architecture-achieved atarchitecture-achieved at low castlow cast  Seismic Resistance- rigidSeismic Resistance- rigid heavy weight structuresheavy weight structures do not perform well indo not perform well in seismic zonesseismic zones  Overall price - HigherOverall price - Higher Price per square meter.Price per square meter.  Architecture- achieved atArchitecture- achieved at higher costhigher cost
COMPONENTSCOMPONENTS  Main FrameMain Frame  Primary MembersPrimary Members  ColumnsColumns  RaftersRafters  SecondarySecondary MembersMembers  PurlinsPurlins  GirtsGirts P E BP E B  SheetingSheeting  RoofRoof  WallWall  Fascias etcFascias etc  AccessoriesAccessories  VentilatorsVentilators  Sky LightsSky Lights  Misc.Misc.
OTHER MAJOR COMPONENTS OF PEB CRANE BRACKETS & BEAMS MEZZANINE FLOORS STRUCTURAL PARTIONS FASCIAS CANOPIES
Work doneWork done  DetailDetail Literatrue studyLiteratrue study  Optimaztion of frameOptimaztion of frame  J-286, Thermax Limited at VadodaraJ-286, Thermax Limited at Vadodara  J-327, Sub Station L & T SuratJ-327, Sub Station L & T Surat  J-275-302 Hazira, SuratJ-275-302 Hazira, Surat  J-273 L & T Talegaon, Pune.J-273 L & T Talegaon, Pune.  Plant VisitPlant Visit  Site VisitSite Visit
DESIGN ISSUESDESIGN ISSUES  STRUCTURAL PLANNINGSTRUCTURAL PLANNING  FRAME CONFIGURATIONSFRAME CONFIGURATIONS  TYPES OF LOADS & ASSESSMENTTYPES OF LOADS & ASSESSMENT  END CONDITIONSEND CONDITIONS  CRANESCRANES  MEZANINESMEZANINES  LOAD COMBINATIONSLOAD COMBINATIONS
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.
Load 1 SSCS = SINGLE SLOPE CLEAR SPAN. Load 1 X Y Z SSMS-1= SINGLE SLOPE MULTI-SPAN WITH 1 INTERMEDIATE COLUMN
GUIDELINES FOR PEB DESIGN AT PROPOSAL STAGE  ALL DESIGNS SHALL BE AS PER MBMA AMERICAN STANDARDS UNLESS CLIENT SPECIFIES AS PER IS CODE  LIVE LOAD AS PER AMERICAN CODE = 0.57 KN/M^2  AND AS PER IS CODE = 0.75 KN/M^2. (REDUCTION IN LIVE LOAD TO BE INCORPORATED FOR BUILDINGS HAVING HIGHER SLOPES)  AS PER AMERICAN CODE :HORIZONTAL DEFLECTION = L/180 & VERTICAL DEFLECTION=Eh/100 FOR MAIN FRAMES.  WIND TERRAIN CATEGORY 3 IS TO BE SELECTED UNLESS MORE DATA IS AVAILABLE.
CONTD……  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).  GENERALLY BUILDINGS ARE TO BE DESIGNED AS PINNED EXCEPT FOR BUILDING SPAN >30M OR CRANE CAPACITY OF MORE THAN 5 TONS OR HEIGHT GREATER THAN 9 M  STANDARD PURLIN LAPS SHOULD BE 385 mm
Optimisation of frameOptimisation of frame  Basic FrameBasic Frame • Width of the frame = 20 mWidth of the frame = 20 m • Height of the frame = 6 mHeight of the frame = 6 m • Length of the frame = 70 mLength of the frame = 70 m • Bay spacing l = 7 mBay spacing l = 7 m • Slop of roof i= 1:10Slop of roof i= 1:10 • Wind speed v = 43 m/sWind speed v = 43 m/s • Seismic zone = 4Seismic zone = 4
Varying of Width of FrameVarying of Width of Frame Only Primary Frame Design Purline 250 X 2.5 mm2 Spacing-1.5 7.67 kg/m Design Girt 200X1.75 mm2 Spacing-1.5 6.09 kg/m
Varying Height and widthVarying Height and width Design Purline 250 X 2.5 mm2 Spacing-1.5 7.67 kg/m Spacing-1.5 Design Girt 250X2.0 mm2 Spacing-1.5 6.09 kg/m Spacing-1.5 Only Primary Frame
Varying Bay length with HeightVarying Bay length with Height Heigth-6 Heigth-8 Heigth-9 Purline Girt Purline Girt Purline Girt 6 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 7 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 8 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 9 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 10 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 Total weight of Frame, Purline and Girt
Varying bay length with widthVarying bay length with width Heigth-6 Heigth-8 Heigth-9 Purline Girt Purline Girt Purline Girt 6 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 7 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 8 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 9 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 10 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 Total weight of Frame, Purline and Girt
Varying wind speed with widthVarying wind speed with widthwind Width-20m Width-35 speed Purline Girt Purline Girt 33 Z 200 X 1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200 X 1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 39 Z 200 X 2.0 Spacing-1.5 Z 200X2.0 Spacing-1.5 Z 200 X 2.0 Spacing-1.5 Z 200X2.0 Spacing-1.5 43 Z 250 X 2 Spacing-1.5 Z 250X2.0 Spacing-1.4 Z 250 X 2 Spacing-1.5 Z 250X2.0 Spacing-1.4 47 Z 250 X 2.5 Spacing-1.5 Z 250X2.0 Spacing-1.45 Z 250 X 2.5 Spacing-1.5 Z 250X2.0 Spacing-1.45 50 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 55 C 250 X 2.5 Spacing-1.35 C 250 X 2.5 Spacing-1.5 C 250 X 2.5 Spacing-1.35 C 250 X 2.5 Spacing-1.5 Total weight of Frame, Purline and Girt
Steps of DesignSteps of Design  Wind load calculationWind load calculation  Purline DesignPurline Design  Girt DesignGirt Design  Design of Main FrameDesign of Main Frame  Base PlateBase Plate  Anchor Bolt design for Moment ConditionAnchor Bolt design for Moment Condition  Anchor Bolt design for Shear ConditionAnchor Bolt design for Shear Condition  Gable column designGable column design  Design of connection plateDesign of connection plate  Cranes DesignCranes Design
J-268 Thermax LimitedJ-268 Thermax Limited VadodaraVadodara
Full PlanFull Plan
Plan of Phase 1Plan of Phase 1
Frame X-sectionFrame X-section
Wind load calculationWind load calculation
PURLIN
Base plate
Plant visit at Pant Nagar
PROCESSESPROCESSES PEB BUILT UP LINE COLD FORM LINE SHEETING PRIMARY MEMBERS CKD C & Z PURLINS LINE HR SECTIONS & MISCELLANEOUS PARTS ROOF & WALL SHEETING GUTTER, FLASHINGS, TRIMS, ETC CKD CKD CKD ACCESSORIES SHIPMENT P E BP E B
Site visit at PANT NAGAR
ERECTION SYSTEMERECTION SYSTEM  UNDERSTANDING THE ENGINEERINGUNDERSTANDING THE ENGINEERING DOCUMENTS.DOCUMENTS. 1.1. Anchor Bolt Setting PlanAnchor Bolt Setting Plan 2.2. Cross sectionCross section 3.3. Roof framing planRoof framing plan 4.4. Roof sheeting & framingRoof sheeting & framing 5.5. Sidewall sheeting & framingSidewall sheeting & framing 6.6. Other drawingsOther drawings 7.7. Bill of materialsBill of materials
CONTD…CONTD…  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
CONTD….CONTD…. Sheeting & TrimmingSheeting & Trimming  Sheeting preparationSheeting preparation  Sheeting the wallsSheeting the walls  Sheeting the roofsSheeting the roofs  Miscellaneous trimmingsMiscellaneous trimmings  FasciaFascia
Presentation by gursharan singh for engineeringcivil.com
Presentation by gursharan singh for engineeringcivil.com

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Presentation by gursharan singh for engineeringcivil.com

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    PROJECT SEMESTERPROJECT SEMESTER JUNE-DECEMBER2007JUNE-DECEMBER 2007 BY GURSHARAN SINGHBY GURSHARAN SINGH 10552021055202
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    ERA BUILDING SYSTEMSLTD., NOIDA PRE ENGINEERED STEEL BUILDINGS Concept , Design & Construction
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    ERA GroupERA Group EraInfra Engineering Ltd.Era Infra Engineering Ltd. Era Building System Ltd.Era Building System Ltd. Era E-Zone (India) Ltd.Era E-Zone (India) Ltd. Era Landmarks (India) Ltd.Era Landmarks (India) Ltd.
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    PRE ENGINEERED BUILDINGSPREENGINEERED BUILDINGS  Tailor made building based on 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.
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     Steel wasvery 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 perThe idea was that section should be provided as per B.M.D.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
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    APPLICATIONSAPPLICATIONS  Industrial BuildingsIndustrialBuildings  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… P E BP E B
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    CONT….CONT…. Industrial BuildingIndustrial Building PE BP E B Parking lotsParking lots Indoor StadiumsIndoor Stadiums Railway StationRailway Station
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    Aircraft HangarsAircraft Hangars PE BP E B Metro StationMetro Station Wear houseWear house High rise BuildingHigh rise Building
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    ADVANTAGESADVANTAGES  Aesthetic AppealAestheticAppeal  Faster CompletionFaster Completion  EconomicalEconomical  Seismic ResistanceSeismic Resistance  Ease of ExpansionEase of Expansion  Maintenance FreeMaintenance Free  Large Clear SpansLarge Clear Spans  Controlled QualityControlled Quality  Hassle FreeHassle Free P E BP E B
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     Self weightSelfweight  30% lighter30% lighter  Primary Member isPrimary Member is tapered sectiontapered section  Secondary membersSecondary members are light weight rolledare light weight rolled framed “Z” and “C”framed “Z” and “C” sectionsection  Self weightSelf weight  More heavyMore heavy  Primary members arePrimary members are Hot rolled “I” sectionHot rolled “I” section  Secondary membersSecondary members are “I” or “C” sectionare “I” or “C” section which are heavy inwhich are heavy in weight.weight.
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     Delivery –average 6 to 8Delivery – average 6 to 8 weeksweeks  Foundation-simpleFoundation-simple design, easy to constructdesign, easy to construct & light wt.& light wt.  Erection cost and time-Erection cost and time- accurately knownaccurately known  Erection process is easy,Erection process is easy, fast, step by stepfast, step by step  Delivery- average 20 to 26Delivery- average 20 to 26 weeksweeks  Foundation- expensive,Foundation- expensive, heavy foundationheavy foundation required.required.  Erection cost and time-Erection cost and time- 20% more than PEB20% more than PEB  Erection process is slowErection process is slow and extensive field laborand extensive field labor is required.is required.
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     Seismic Resistance-lowSeismic Resistance- low weight flexible framesweight flexible frames offer higher resistance tooffer higher resistance to seismic forcesseismic forces  Overall price -30%lowerOverall price -30%lower  architecture-achieved atarchitecture-achieved at low castlow cast  Seismic Resistance- rigidSeismic Resistance- rigid heavy weight structuresheavy weight structures do not perform well indo not perform well in seismic zonesseismic zones  Overall price - HigherOverall price - Higher Price per square meter.Price per square meter.  Architecture- achieved atArchitecture- achieved at higher costhigher cost
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    COMPONENTSCOMPONENTS  Main FrameMainFrame  Primary MembersPrimary Members  ColumnsColumns  RaftersRafters  SecondarySecondary MembersMembers  PurlinsPurlins  GirtsGirts P E BP E B  SheetingSheeting  RoofRoof  WallWall  Fascias etcFascias etc  AccessoriesAccessories  VentilatorsVentilators  Sky LightsSky Lights  Misc.Misc.
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    OTHER MAJOR COMPONENTSOF PEB CRANE BRACKETS & BEAMS MEZZANINE FLOORS STRUCTURAL PARTIONS FASCIAS CANOPIES
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    Work doneWork done DetailDetail Literatrue studyLiteratrue study  Optimaztion of frameOptimaztion of frame  J-286, Thermax Limited at VadodaraJ-286, Thermax Limited at Vadodara  J-327, Sub Station L & T SuratJ-327, Sub Station L & T Surat  J-275-302 Hazira, SuratJ-275-302 Hazira, Surat  J-273 L & T Talegaon, Pune.J-273 L & T Talegaon, Pune.  Plant VisitPlant Visit  Site VisitSite Visit
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    DESIGN ISSUESDESIGN ISSUES STRUCTURAL PLANNINGSTRUCTURAL PLANNING  FRAME CONFIGURATIONSFRAME CONFIGURATIONS  TYPES OF LOADS & ASSESSMENTTYPES OF LOADS & ASSESSMENT  END CONDITIONSEND CONDITIONS  CRANESCRANES  MEZANINESMEZANINES  LOAD COMBINATIONSLOAD COMBINATIONS
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    Load 1 X Y Z PRE-ENGINEERED BUILDINGSNOMENCLATURE –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.
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    Load 1 SSCS =SINGLE SLOPE CLEAR SPAN. Load 1 X Y Z SSMS-1= SINGLE SLOPE MULTI-SPAN WITH 1 INTERMEDIATE COLUMN
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    GUIDELINES FOR PEBDESIGN AT PROPOSAL STAGE  ALL DESIGNS SHALL BE AS PER MBMA AMERICAN STANDARDS UNLESS CLIENT SPECIFIES AS PER IS CODE  LIVE LOAD AS PER AMERICAN CODE = 0.57 KN/M^2  AND AS PER IS CODE = 0.75 KN/M^2. (REDUCTION IN LIVE LOAD TO BE INCORPORATED FOR BUILDINGS HAVING HIGHER SLOPES)  AS PER AMERICAN CODE :HORIZONTAL DEFLECTION = L/180 & VERTICAL DEFLECTION=Eh/100 FOR MAIN FRAMES.  WIND TERRAIN CATEGORY 3 IS TO BE SELECTED UNLESS MORE DATA IS AVAILABLE.
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    CONTD……  IN AMERICANDESIGN , WIND COEFFICIENTS TO BE FOLLOWED AS GIVEN IN MBMA.  IN IS DESIGN, INTERNAL & EXTERNAL BUILDING WIND COEFFICIENTS AS PER IS -875 (PART-3).  GENERALLY BUILDINGS ARE TO BE DESIGNED AS PINNED EXCEPT FOR BUILDING SPAN >30M OR CRANE CAPACITY OF MORE THAN 5 TONS OR HEIGHT GREATER THAN 9 M  STANDARD PURLIN LAPS SHOULD BE 385 mm
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    Optimisation of frameOptimisationof frame  Basic FrameBasic Frame • Width of the frame = 20 mWidth of the frame = 20 m • Height of the frame = 6 mHeight of the frame = 6 m • Length of the frame = 70 mLength of the frame = 70 m • Bay spacing l = 7 mBay spacing l = 7 m • Slop of roof i= 1:10Slop of roof i= 1:10 • Wind speed v = 43 m/sWind speed v = 43 m/s • Seismic zone = 4Seismic zone = 4
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    Varying of Widthof FrameVarying of Width of Frame Only Primary Frame Design Purline 250 X 2.5 mm2 Spacing-1.5 7.67 kg/m Design Girt 200X1.75 mm2 Spacing-1.5 6.09 kg/m
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    Varying Height andwidthVarying Height and width Design Purline 250 X 2.5 mm2 Spacing-1.5 7.67 kg/m Spacing-1.5 Design Girt 250X2.0 mm2 Spacing-1.5 6.09 kg/m Spacing-1.5 Only Primary Frame
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    Varying Bay lengthwith HeightVarying Bay length with Height Heigth-6 Heigth-8 Heigth-9 Purline Girt Purline Girt Purline Girt 6 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 7 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 8 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 9 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 10 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 Total weight of Frame, Purline and Girt
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    Varying bay lengthwith widthVarying bay length with width Heigth-6 Heigth-8 Heigth-9 Purline Girt Purline Girt Purline Girt 6 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 7 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 Z 250X 2.0 Spacing-1.5 Z 250X1.75 Spacing-1.35 8 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 9 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 C250 X 2.5 Spacing-1.4 C 250 X 2.5 Spacing-1.35 10 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 C 250 X 2.5 Spacing-1.0 Total weight of Frame, Purline and Girt
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    Varying wind speedwith widthVarying wind speed with widthwind Width-20m Width-35 speed Purline Girt Purline Girt 33 Z 200 X 1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 Z 200 X 1.75 Spacing-1.5 Z 200X1.75 Spacing-1.5 39 Z 200 X 2.0 Spacing-1.5 Z 200X2.0 Spacing-1.5 Z 200 X 2.0 Spacing-1.5 Z 200X2.0 Spacing-1.5 43 Z 250 X 2 Spacing-1.5 Z 250X2.0 Spacing-1.4 Z 250 X 2 Spacing-1.5 Z 250X2.0 Spacing-1.4 47 Z 250 X 2.5 Spacing-1.5 Z 250X2.0 Spacing-1.45 Z 250 X 2.5 Spacing-1.5 Z 250X2.0 Spacing-1.45 50 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 Z 250 X 2.5 Spacing-1.5 55 C 250 X 2.5 Spacing-1.35 C 250 X 2.5 Spacing-1.5 C 250 X 2.5 Spacing-1.35 C 250 X 2.5 Spacing-1.5 Total weight of Frame, Purline and Girt
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    Steps of DesignStepsof Design  Wind load calculationWind load calculation  Purline DesignPurline Design  Girt DesignGirt Design  Design of Main FrameDesign of Main Frame  Base PlateBase Plate  Anchor Bolt design for Moment ConditionAnchor Bolt design for Moment Condition  Anchor Bolt design for Shear ConditionAnchor Bolt design for Shear Condition  Gable column designGable column design  Design of connection plateDesign of connection plate  Cranes DesignCranes Design
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    J-268 Thermax LimitedJ-268Thermax Limited VadodaraVadodara
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    Plan of Phase1Plan of Phase 1
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    Wind load calculationWindload calculation
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    PROCESSESPROCESSES PEB BUILT UP LINECOLD FORM LINE SHEETING PRIMARY MEMBERS CKD C & Z PURLINS LINE HR SECTIONS & MISCELLANEOUS PARTS ROOF & WALL SHEETING GUTTER, FLASHINGS, TRIMS, ETC CKD CKD CKD ACCESSORIES SHIPMENT P E BP E B
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    ERECTION SYSTEMERECTION SYSTEM UNDERSTANDING THE ENGINEERINGUNDERSTANDING THE ENGINEERING DOCUMENTS.DOCUMENTS. 1.1. Anchor Bolt Setting PlanAnchor Bolt Setting Plan 2.2. Cross sectionCross section 3.3. Roof framing planRoof framing plan 4.4. Roof sheeting & framingRoof sheeting & framing 5.5. Sidewall sheeting & framingSidewall sheeting & framing 6.6. Other drawingsOther drawings 7.7. Bill of materialsBill of materials
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    CONTD…CONTD…  Preparation forErectionPreparation 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
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    CONTD….CONTD…. Sheeting & TrimmingSheeting& Trimming  Sheeting preparationSheeting preparation  Sheeting the wallsSheeting the walls  Sheeting the roofsSheeting the roofs  Miscellaneous trimmingsMiscellaneous trimmings  FasciaFascia