SlideShare a Scribd company logo

Slipform

•Download as PPTX, PDF•
•
Rahul Razz
Rahul Razz

modern technique of framework

Engineering
1 of 18
PRESENTED BY : RAHUL BHARDWAJ B. ARCH 7TH SEM NIMS SCHOOL OF ARCHITECTURE AND PLANNING
i. process efficiency ii. Safety iii. Sustainability features iv. Consideration i. Introduction ii. Procedure iii. Types of slip form iv. Advantage v. Precautions vi. Application of slip form
INTRODUCTION • Slip form construction, or continuously formed construction, is a construction method in which concrete is poured into a continuously moving form. • Basically, this method involves the continuous placing of concrete in a shallow mould having the same plan as the building to be constructed. This rigid mould, or "slip-form" as it is called, forms the working deck which is jacked slowly upwards at a controlled rate until the required elevation is reached.
INTRODUCTION: •Method of vertically extruding a reinforced concrete section and is suitable for construction of core walls in high-rise structures – lift shafts, stair shafts, towers. •The formwork rises continuously, at a rate of about 300 mm per hour, supporting itself on the core and not relying on support or access from other parts of the building or permanent works. •Allows for the continuous pouring of concrete into walls of a structure and only stops when the full required height of the structure has been reached. •The height of the formwork is designed in such a way that while the top of the formwork is being filled by concrete the lowest layer of concrete poured earlier has already gained an initial set. When the formwork is moved upwards the concrete that is then exposed remains firm. CHEUNG KONG CENTRE 2-SLIPFORMTECHNOLOGY
PROCEDURE : •Assembly can only start once the foundations are in place and the wall starter is in correct alignment. •Slip form shuttering is aligned with the help of yokes. •Horizontal crossbeams connect these yokes. •Hydraulic jacks are attached to these crossbeams for simultaneous upward movement. •Height of the slip form ranges from 1.1 to 1.5 meters. •Yokes and crossbeams also used to support the working platform. •Structure should be rigid and shape maintained at all times. •Make sure there is no lag or else it prevents the structure from free upward movement • It is also possible to reduce wall thicknesses as the construction gains height and arrangements have to be made in the slip form structure that will enable such reduction at regular intervals.
1-VERTICAL SLIP-FORM In vertical slip forming, the concrete form may be surrounded by a platform on which workers stand, placing steel reinforcing rods into the concrete and ensuring a smooth pour. Together, the concrete form and working platform are raised by means of hydraulic jacks. Generally, the slip-form rises at a rate which permits the concrete to harden by the time it emerges from the bottom of the form. TYPES OF SLIP-FORM CONSTRUCTION
2- HORIZONTAL SLIP-FORM In horizontal slip forming for pavement and traffic separation walls, concrete is cast, vibrated, worked, and settled in place while the form itself slowly moves ahead. This method was initially devised and utilized in Interstate Highway construction initiated during the 1950s.
•Slip form methods of construction can also be adapted to horizontal structures and are used for paving, canals, and tunneling. • The technique is more in use for structures that have continuous walls like silos , chimneys, and piers for very tall bridges. • It has also been successfully used for construction of buildings, although this requires the manner of leaving inserts for openings like doors and windows to be decided well in advance, as well as also any necessary inserts to support floor slabs after the walls are constructed. HORIZONTAL SLIP FORM :
3-TAPERED SLIP-FORMING Slip-forming is also used in the construction of conical chimneys, cooling towers, piers and other tall concrete structures involving constant or changing thicknesses in walls, diameters and/or shapes. A form is used with sections which overlap so that one gradually slides over the other. This is commonly done in chimney construction but it is not satisfactory for architectural concrete because the lap shows. While the tapered slip-forming process is similar to that used on the standard slip-forming, it requires greater attention, contractor experience and expertise ensures the success of such projects.
ADVANTAGES: •A major cost of concrete structure construction is the required formwork to retain the concrete till it can be safely de-shuttered and be able to support itself and other imposed loads. •The formwork needs to be continually removed to newer locations and then re- erected. •Continuous use of manpower and lifting equipment like cranes. • In the case of slip form building, the formwork is erected only once and remains intact until the entire structure is completed. •Great reduction in the cost of formwork as well as time saving for re-erection. •Cost effective •The reduction in the movement of formwork and workers also leads to far more safe working conditions that also make it a major advantage.
PRECAUTIONS • Concrete is continuously protected against loss of moisture and rapid temperature changes for 7 days • Unhardened concrete is protected from rain and flowing water • Prevent plastic shrinkage • Plastic cracks are filled by injection of epoxy resin.
APPLICATIONS OF SLIP-FORM CONSTRUCTION Slip-form construction is used for tall structures, such as towers, buildings, and dams, as well as horizontal structures, such as roadway barriers. It enables continuous, non-interrupted, cast-in-place joint-less concrete structures which have superior performance characteristics over construction methods using discrete form elements. Slip forming relies on the quick setting properties of concrete, and requires a balance between quick- setting capacity and workability. Capital Gate Tower, Abu Dhabi King Abdul-Aziz Airport Inn Canal, Germany
3-JUMP FORM:  Generally, jump form systems comprise the formwork and working platforms for cleaning/fixing of the formwork, steel fixing and concreting.  Jump form, often described as climbing form. It is suitable for construction of multi-floor vertical concrete elements in high-rise structures, such as shear walls, core walls, lift shafts, stair shafts and bridge pylons.  It is a highly productive system designed to increase speed and efficiency while minimizing labor and time.
PROCESS EFFICIENCY :  Fast construction can be achieved by careful planning of the construction process. Crane availability is critical for normal jump form.  Self-climbing formwork cuts down the requirement for crane time considerably. By allowing the crane to be used for other construction work this may reduce the total number of cranes needed on site.  The formwork is independently supported, so the shear walls and core walls can be completed ahead of the rest of the main building structure. This can help to provide stability to the main structure during its construction and can have the beneficial effect of taking the jump form core off the project critical path.
SAFETY :  Working platforms, guard rails, and ladders are built into the completed units of market- leading formwork systems. Complete wind- shield protection on platform edges is also possible.  Self-climbing formwork systems are provided with integral free-fall braking devices.  The completed formwork assembly is robust and provides a stable working platform.  The reduced use of scaffolding and temporary work platforms results in less congestion on site.  The setting rate of concrete in those parts of the structure supporting the form is critical in determining the rate at which construction can safely proceed.  The repetitive nature of the work means that site operatives can quickly become familiar with health and safety aspects of their job. Formwork suppliers provide materials and resources to help train the labour force.
SUSTAINABILITY FEATURES :  The formwork system is easy to clean and reuse with little formwork waste generated compared to traditional formwork.  Climbing formwork systems offer simplicity, safety and cost effectiveness for certain high-rise building structures.  The repetitive nature of the work, combined with the engineered nature of the formwork, allows fine tuning of the construction operations, which in turn leads to minimal concrete wastage.  Many repeated uses of formwork are possible before maintenance or replacement is needed, the number of uses depending on the quality of the surface finish of concrete specified.
SUMMARY • Slip form construction is a construction method in which concrete is poured into a continuously moving form. • There are two types of slip-forms; vertical and horizontal. • Slip-form construction consumes very less time but requires careful planning of construction process to achieve high production rates. • Due to continuous concrete pouring in slip- form construction it produces better concrete joint less and watertight structures. • Slip form systems require a few but highly skilled workforce. • Slip-forming is also used in the construction of tapered structures involving changing thicknesses in walls, diameters and/or shapes.
REFFERENCE • WIKIPEDIA.ORG • SLIDESHARE.NET • THECONSTRUCTOR.ORG • WWW.CONCRETECENTRE.COM • fac.ksu.edu.sa/sites/default/files/7-_slip-form_construction.pdf

Recommended

Types of formwork
Types of formworkTypes of formwork
Types of formworkAglaia Connect
 
Foundations
FoundationsFoundations
FoundationsShanik Aromgottil
 
Slipform construction
Slipform constructionSlipform construction
Slipform constructiontivar rose
 
Prestressed concrete
Prestressed concretePrestressed concrete
Prestressed concreteRajesh Burde
 
PRECAST BUILDING SYSTEM
PRECAST BUILDING SYSTEMPRECAST BUILDING SYSTEM
PRECAST BUILDING SYSTEMSagar Shah
 
Precast concrete construction
Precast concrete constructionPrecast concrete construction
Precast concrete constructionMadan Mohan Jana
 
DEEP FOUNDATION
DEEP FOUNDATIONDEEP FOUNDATION
DEEP FOUNDATIONaframawal
 
Shoring
ShoringShoring
ShoringHarikrishna M.S
 

Recommended

Types of formwork
Types of formworkTypes of formwork
Types of formworkAglaia Connect
 
Foundations
FoundationsFoundations
FoundationsShanik Aromgottil
 
Slipform construction
Slipform constructionSlipform construction
Slipform constructiontivar rose
 
Prestressed concrete
Prestressed concretePrestressed concrete
Prestressed concreteRajesh Burde
 
PRECAST BUILDING SYSTEM
PRECAST BUILDING SYSTEMPRECAST BUILDING SYSTEM
PRECAST BUILDING SYSTEMSagar Shah
 
Precast concrete construction
Precast concrete constructionPrecast concrete construction
Precast concrete constructionMadan Mohan Jana
 
DEEP FOUNDATION
DEEP FOUNDATIONDEEP FOUNDATION
DEEP FOUNDATIONaframawal
 
Shoring
ShoringShoring
ShoringHarikrishna M.S
 
Scaffolding, underepinning and shoring
Scaffolding, underepinning and shoringScaffolding, underepinning and shoring
Scaffolding, underepinning and shoringlaxman singh
 
Raft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatiaRaft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatiakamal bhatia
 
Specifications of buildings
Specifications of buildingsSpecifications of buildings
Specifications of buildingsSimarpreet Singh
 
Underpinning
UnderpinningUnderpinning
UnderpinningKhuzema Olia
 
Prefabrication construction
Prefabrication constructionPrefabrication construction
Prefabrication constructionDivya Vishnoi
 
Design of staircases
Design of staircasesDesign of staircases
Design of staircasesJayvant Choudhary
 
PreCast Construction
PreCast ConstructionPreCast Construction
PreCast ConstructionAbhishek Gupta
 
Joints in concrete
Joints in concreteJoints in concrete
Joints in concreteAglaia Connect
 
Shoring and underpinning
Shoring and underpinningShoring and underpinning
Shoring and underpinningNandhaa Veeramani
 
Compaction of concrete
Compaction of concreteCompaction of concrete
Compaction of concreteMuhammad Hassaan Sajid
 
Retaining wall
Retaining wall Retaining wall
Retaining wall kamariya keyur
 
Basement construction report
Basement construction reportBasement construction report
Basement construction reportANKITAARORA85
 
Damp Proof Course
Damp Proof Course Damp Proof Course
Damp Proof Course Kezar Ali. Shah
 
Prestressed concrete
Prestressed concretePrestressed concrete
Prestressed concreteUdisha15
 
Staircase
StaircaseStaircase
StaircaseJitesh Dhule
 
Precast construction
Precast constructionPrecast construction
Precast constructionDivya Vishnoi
 
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGSADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGSASHOK KUMAR TIWARY
 
Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC) Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC) Simran Aggarwal
 
Retaining walls
Retaining wallsRetaining walls
Retaining wallsPenchala Vineeth
 
Pre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concretePre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concreteRajat Nainwal
 
Lift form slab construction
Lift form slab constructionLift form slab construction
Lift form slab constructiontivar rose
 
MASS CONCRETE
MASS CONCRETEMASS CONCRETE
MASS CONCRETESATISH
 

More Related Content

What's hot

Scaffolding, underepinning and shoring
Scaffolding, underepinning and shoringScaffolding, underepinning and shoring
Scaffolding, underepinning and shoringlaxman singh
 
Raft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatiaRaft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatiakamal bhatia
 
Specifications of buildings
Specifications of buildingsSpecifications of buildings
Specifications of buildingsSimarpreet Singh
 
Underpinning
UnderpinningUnderpinning
UnderpinningKhuzema Olia
 
Prefabrication construction
Prefabrication constructionPrefabrication construction
Prefabrication constructionDivya Vishnoi
 
PreCast Construction
PreCast ConstructionPreCast Construction
PreCast ConstructionAbhishek Gupta
 
Joints in concrete
Joints in concreteJoints in concrete
Joints in concreteAglaia Connect
 
Shoring and underpinning
Shoring and underpinningShoring and underpinning
Shoring and underpinningNandhaa Veeramani
 
Basement construction report
Basement construction reportBasement construction report
Basement construction reportANKITAARORA85
 
Damp Proof Course
Damp Proof Course Damp Proof Course
Damp Proof Course Kezar Ali. Shah
 
Prestressed concrete
Prestressed concretePrestressed concrete
Prestressed concreteUdisha15
 
Precast construction
Precast constructionPrecast construction
Precast constructionDivya Vishnoi
 
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGSADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGSASHOK KUMAR TIWARY
 
Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC) Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC) Simran Aggarwal
 
Pre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concretePre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concreteRajat Nainwal
 

What's hot (20)

Scaffolding, underepinning and shoring
Scaffolding, underepinning and shoringScaffolding, underepinning and shoring
Scaffolding, underepinning and shoring
 
Raft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatiaRaft foundation ppt by kamal bhatia
Raft foundation ppt by kamal bhatia
 
Specifications of buildings
Specifications of buildingsSpecifications of buildings
Specifications of buildings
 
Underpinning
UnderpinningUnderpinning
Underpinning
 
Prefabrication construction
Prefabrication constructionPrefabrication construction
Prefabrication construction
 
Design of staircases
Design of staircasesDesign of staircases
Design of staircases
 
PreCast Construction
PreCast ConstructionPreCast Construction
PreCast Construction
 
Joints in concrete
Joints in concreteJoints in concrete
Joints in concrete
 
Shoring and underpinning
Shoring and underpinningShoring and underpinning
Shoring and underpinning
 
Compaction of concrete
Compaction of concreteCompaction of concrete
Compaction of concrete
 
Retaining wall
Retaining wall Retaining wall
Retaining wall
 
Basement construction report
Basement construction reportBasement construction report
Basement construction report
 
Damp Proof Course
Damp Proof Course Damp Proof Course
Damp Proof Course
 
Prestressed concrete
Prestressed concretePrestressed concrete
Prestressed concrete
 
Staircase
StaircaseStaircase
Staircase
 
Precast construction
Precast constructionPrecast construction
Precast construction
 
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGSADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
ADVANCED TECHNIQUES IN CONSTRUCTIONS IN HIGH RISE BUILDINGS
 
Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC) Reinforced Cement Concrete (RCC)
Reinforced Cement Concrete (RCC)
 
Retaining walls
Retaining wallsRetaining walls
Retaining walls
 
Pre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concretePre cast vs cast-in-situ concrete
Pre cast vs cast-in-situ concrete
 

Viewers also liked

Lift form slab construction
Lift form slab constructionLift form slab construction
Lift form slab constructiontivar rose
 
MASS CONCRETE
MASS CONCRETEMASS CONCRETE
MASS CONCRETESATISH
 
Rmc plant
Rmc plantRmc plant
Rmc plantKp Ahm
 
Slip form Construction Technology
Slip form Construction TechnologySlip form Construction Technology
Slip form Construction TechnologyDarshit
 
Batching plant ppt
Batching plant pptBatching plant ppt
Batching plant pptdip17
 
Pile foundation
Pile foundationPile foundation
Pile foundationShivam Gandhi
 
A POWERPOINT PRESENTAION ON READY-MIX CONCRETE
A POWERPOINT PRESENTAION ON READY-MIX CONCRETEA POWERPOINT PRESENTAION ON READY-MIX CONCRETE
A POWERPOINT PRESENTAION ON READY-MIX CONCRETEkuntansourav
 
Ready mix concrete project ppt
Ready mix concrete project pptReady mix concrete project ppt
Ready mix concrete project pptKailash Hagawane
 

Viewers also liked (9)

Lift form slab construction
Lift form slab constructionLift form slab construction
Lift form slab construction
 
MASS CONCRETE
MASS CONCRETEMASS CONCRETE
MASS CONCRETE
 
Rmc plant
Rmc plantRmc plant
Rmc plant
 
Slip form Construction Technology
Slip form Construction TechnologySlip form Construction Technology
Slip form Construction Technology
 
Batching plant ppt
Batching plant pptBatching plant ppt
Batching plant ppt
 
Pile foundation ppt
Pile foundation pptPile foundation ppt
Pile foundation ppt
 
Pile foundation
Pile foundationPile foundation
Pile foundation
 
A POWERPOINT PRESENTAION ON READY-MIX CONCRETE
A POWERPOINT PRESENTAION ON READY-MIX CONCRETEA POWERPOINT PRESENTAION ON READY-MIX CONCRETE
A POWERPOINT PRESENTAION ON READY-MIX CONCRETE
 
Ready mix concrete project ppt
Ready mix concrete project pptReady mix concrete project ppt
Ready mix concrete project ppt
 

Similar to Slipform

Building construction report
Building construction reportBuilding construction report
Building construction reportAprajeeta Singh
 
Slip formwork for chimney
Slip formwork for chimneySlip formwork for chimney
Slip formwork for chimneyAxay Sharma
 
Super Structure Construction.pptx
Super Structure Construction.pptxSuper Structure Construction.pptx
Super Structure Construction.pptxAnanthakumar75
 
Case Study: High Rise Buildings
Case Study: High Rise BuildingsCase Study: High Rise Buildings
Case Study: High Rise BuildingsPrasad Thanthratey
 
Construction Technology
Construction TechnologyConstruction Technology
Construction TechnologySwapnilGorade1
 
Slipform construction
Slipform constructionSlipform construction
Slipform constructionErankajKumar
 
High rise structure
High rise structureHigh rise structure
High rise structureAnuj Singhal
 
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVE
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVEMODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVE
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVEDr K M SONI
 
High rise building design
High rise building design High rise building design
High rise building design Somesh Siddharth
 
High-rise structural systems
High-rise structural systemsHigh-rise structural systems
High-rise structural systemsAkshay Revekar
 
Finalppthighrise 130504010636-phpapp02
Finalppthighrise 130504010636-phpapp02Finalppthighrise 130504010636-phpapp02
Finalppthighrise 130504010636-phpapp02satwik345
 
high rise building
high rise buildinghigh rise building
high rise buildingAditya Sanyal
 
Chapter 5 formwork
Chapter 5 formworkChapter 5 formwork
Chapter 5 formworkKHUSHBU SHAH
 
Chapters-3,4,5.pptx
Chapters-3,4,5.pptxChapters-3,4,5.pptx
Chapters-3,4,5.pptxssuserc0bf9b
 
Speedy construction- FORMS AND MATERIALS
Speedy construction- FORMS AND MATERIALSSpeedy construction- FORMS AND MATERIALS
Speedy construction- FORMS AND MATERIALSSOUMYA KHANDELWAL
 
TALL BUILDINGS
TALL BUILDINGSTALL BUILDINGS
TALL BUILDINGSAbhijit Pal
 
Form-woks-additional.pptx
Form-woks-additional.pptxForm-woks-additional.pptx
Form-woks-additional.pptxssuserc0bf9b
 

Similar to Slipform (20)

Building construction report
Building construction reportBuilding construction report
Building construction report
 
Slip formwork for chimney
Slip formwork for chimneySlip formwork for chimney
Slip formwork for chimney
 
Slip form
Slip formSlip form
Slip form
 
Jump Formwork
Jump FormworkJump Formwork
Jump Formwork
 
JUMP FORM WORK
JUMP FORM WORKJUMP FORM WORK
JUMP FORM WORK
 
Super Structure Construction.pptx
Super Structure Construction.pptxSuper Structure Construction.pptx
Super Structure Construction.pptx
 
Case Study: High Rise Buildings
Case Study: High Rise BuildingsCase Study: High Rise Buildings
Case Study: High Rise Buildings
 
Construction Technology
Construction TechnologyConstruction Technology
Construction Technology
 
Slipform construction
Slipform constructionSlipform construction
Slipform construction
 
High rise structure
High rise structureHigh rise structure
High rise structure
 
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVE
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVEMODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVE
MODERN CONSTRUCTION TECHNOLOGIES IN ENGINEERING PERSPECTIVE
 
High rise building design
High rise building design High rise building design
High rise building design
 
High-rise structural systems
High-rise structural systemsHigh-rise structural systems
High-rise structural systems
 
Finalppthighrise 130504010636-phpapp02
Finalppthighrise 130504010636-phpapp02Finalppthighrise 130504010636-phpapp02
Finalppthighrise 130504010636-phpapp02
 
high rise building
high rise buildinghigh rise building
high rise building
 
Chapter 5 formwork
Chapter 5 formworkChapter 5 formwork
Chapter 5 formwork
 
Chapters-3,4,5.pptx
Chapters-3,4,5.pptxChapters-3,4,5.pptx
Chapters-3,4,5.pptx
 
Speedy construction- FORMS AND MATERIALS
Speedy construction- FORMS AND MATERIALSSpeedy construction- FORMS AND MATERIALS
Speedy construction- FORMS AND MATERIALS
 
TALL BUILDINGS
TALL BUILDINGSTALL BUILDINGS
TALL BUILDINGS
 
Form-woks-additional.pptx
Form-woks-additional.pptxForm-woks-additional.pptx
Form-woks-additional.pptx
 

Recently uploaded

Introduction-To-Agricultural-Surveillance-Rover.pptx
Introduction-To-Agricultural-Surveillance-Rover.pptxIntroduction-To-Agricultural-Surveillance-Rover.pptx
Introduction-To-Agricultural-Surveillance-Rover.pptxk795866
 
Electronically Controlled suspensions system .pdf
Electronically Controlled suspensions system .pdfElectronically Controlled suspensions system .pdf
Electronically Controlled suspensions system .pdfme23b1001
 
Internship report on mechanical engineering
Internship report on mechanical engineeringInternship report on mechanical engineering
Internship report on mechanical engineeringmalavadedarshan25
 
Concrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxConcrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxKartikeyaDwivedi3
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.eptoze12
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)dollysharma2066
 
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube ExchangerAnamika Sarkar
 
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptx
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptxDecoding Kotlin - Your guide to solving the mysterious in Kotlin.pptx
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptxJoĂŁo Esperancinha
 
Introduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHIntroduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHC Sai Kiran
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptSAURABHKUMAR892774
 
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...srsj9000
 
Effects of rheological properties on mixing
Effects of rheological properties on mixingEffects of rheological properties on mixing
Effects of rheological properties on mixingviprabot1
 
complete construction, environmental and economics information of biomass com...
complete construction, environmental and economics information of biomass com...complete construction, environmental and economics information of biomass com...
complete construction, environmental and economics information of biomass com...asadnawaz62
 
Risk Assessment For Installation of Drainage Pipes.pdf
Risk Assessment For Installation of Drainage Pipes.pdfRisk Assessment For Installation of Drainage Pipes.pdf
Risk Assessment For Installation of Drainage Pipes.pdfROCENODodongVILLACER
 
What are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxWhat are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxwendy cai
 
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)Dr SOUNDIRARAJ N
 
main PPT.pptx of girls hostel security using rfid
main PPT.pptx of girls hostel security using rfidmain PPT.pptx of girls hostel security using rfid
main PPT.pptx of girls hostel security using rfidNikhilNagaraju
 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVRajaP95
 

Recently uploaded (20)

Introduction-To-Agricultural-Surveillance-Rover.pptx
Introduction-To-Agricultural-Surveillance-Rover.pptxIntroduction-To-Agricultural-Surveillance-Rover.pptx
Introduction-To-Agricultural-Surveillance-Rover.pptx
 
Electronically Controlled suspensions system .pdf
Electronically Controlled suspensions system .pdfElectronically Controlled suspensions system .pdf
Electronically Controlled suspensions system .pdf
 
Internship report on mechanical engineering
Internship report on mechanical engineeringInternship report on mechanical engineering
Internship report on mechanical engineering
 
Concrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptxConcrete Mix Design - IS 10262-2019 - .pptx
Concrete Mix Design - IS 10262-2019 - .pptx
 
young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Serviceyoung call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
young call girls in Rajiv Chowk🔝 9953056974 🔝 Delhi escort Service
 
Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.Oxy acetylene welding presentation note.
Oxy acetylene welding presentation note.
 
young call girls in Green Park🔝 9953056974 🔝 escort Service
young call girls in Green Park🔝 9953056974 🔝 escort Serviceyoung call girls in Green Park🔝 9953056974 🔝 escort Service
young call girls in Green Park🔝 9953056974 🔝 escort Service
 
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
Call Us ≽ 8377877756 ≼ Call Girls In Shastri Nagar (Delhi)
 
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube ExchangerStudy on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube Exchanger
Study on Air-Water & Water-Water Heat Exchange in a Finned ďťżTube Exchanger
 
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptx
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptxDecoding Kotlin - Your guide to solving the mysterious in Kotlin.pptx
Decoding Kotlin - Your guide to solving the mysterious in Kotlin.pptx
 
Introduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECHIntroduction to Machine Learning Unit-3 for II MECH
Introduction to Machine Learning Unit-3 for II MECH
 
Arduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.pptArduino_CSE ece ppt for working and principal of arduino.ppt
Arduino_CSE ece ppt for working and principal of arduino.ppt
 
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...
Gfe Mayur Vihar Call Girls Service WhatsApp -> 9999965857 Available 24x7 ^ De...
 
Effects of rheological properties on mixing
Effects of rheological properties on mixingEffects of rheological properties on mixing
Effects of rheological properties on mixing
 
complete construction, environmental and economics information of biomass com...
complete construction, environmental and economics information of biomass com...complete construction, environmental and economics information of biomass com...
complete construction, environmental and economics information of biomass com...
 
Risk Assessment For Installation of Drainage Pipes.pdf
Risk Assessment For Installation of Drainage Pipes.pdfRisk Assessment For Installation of Drainage Pipes.pdf
Risk Assessment For Installation of Drainage Pipes.pdf
 
What are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptxWhat are the advantages and disadvantages of membrane structures.pptx
What are the advantages and disadvantages of membrane structures.pptx
 
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
UNIT III ANALOG ELECTRONICS (BASIC ELECTRONICS)
 
main PPT.pptx of girls hostel security using rfid
main PPT.pptx of girls hostel security using rfidmain PPT.pptx of girls hostel security using rfid
main PPT.pptx of girls hostel security using rfid
 
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IVHARMONY IN THE NATURE AND EXISTENCE - Unit-IV
HARMONY IN THE NATURE AND EXISTENCE - Unit-IV
 

Slipform

  • 1. PRESENTED BY : RAHUL BHARDWAJ B. ARCH 7TH SEM NIMS SCHOOL OF ARCHITECTURE AND PLANNING
  • 2. i. process efficiency ii. Safety iii. Sustainability features iv. Consideration i. Introduction ii. Procedure iii. Types of slip form iv. Advantage v. Precautions vi. Application of slip form
  • 3. INTRODUCTION • Slip form construction, or continuously formed construction, is a construction method in which concrete is poured into a continuously moving form. • Basically, this method involves the continuous placing of concrete in a shallow mould having the same plan as the building to be constructed. This rigid mould, or "slip-form" as it is called, forms the working deck which is jacked slowly upwards at a controlled rate until the required elevation is reached.
  • 4. INTRODUCTION: •Method of vertically extruding a reinforced concrete section and is suitable for construction of core walls in high-rise structures – lift shafts, stair shafts, towers. •The formwork rises continuously, at a rate of about 300 mm per hour, supporting itself on the core and not relying on support or access from other parts of the building or permanent works. •Allows for the continuous pouring of concrete into walls of a structure and only stops when the full required height of the structure has been reached. •The height of the formwork is designed in such a way that while the top of the formwork is being filled by concrete the lowest layer of concrete poured earlier has already gained an initial set. When the formwork is moved upwards the concrete that is then exposed remains firm. CHEUNG KONG CENTRE 2-SLIPFORMTECHNOLOGY
  • 5. PROCEDURE : •Assembly can only start once the foundations are in place and the wall starter is in correct alignment. •Slip form shuttering is aligned with the help of yokes. •Horizontal crossbeams connect these yokes. •Hydraulic jacks are attached to these crossbeams for simultaneous upward movement. •Height of the slip form ranges from 1.1 to 1.5 meters. •Yokes and crossbeams also used to support the working platform. •Structure should be rigid and shape maintained at all times. •Make sure there is no lag or else it prevents the structure from free upward movement • It is also possible to reduce wall thicknesses as the construction gains height and arrangements have to be made in the slip form structure that will enable such reduction at regular intervals.
  • 6. 1-VERTICAL SLIP-FORM In vertical slip forming, the concrete form may be surrounded by a platform on which workers stand, placing steel reinforcing rods into the concrete and ensuring a smooth pour. Together, the concrete form and working platform are raised by means of hydraulic jacks. Generally, the slip-form rises at a rate which permits the concrete to harden by the time it emerges from the bottom of the form. TYPES OF SLIP-FORM CONSTRUCTION
  • 7. 2- HORIZONTAL SLIP-FORM In horizontal slip forming for pavement and traffic separation walls, concrete is cast, vibrated, worked, and settled in place while the form itself slowly moves ahead. This method was initially devised and utilized in Interstate Highway construction initiated during the 1950s.
  • 8. •Slip form methods of construction can also be adapted to horizontal structures and are used for paving, canals, and tunneling. • The technique is more in use for structures that have continuous walls like silos , chimneys, and piers for very tall bridges. • It has also been successfully used for construction of buildings, although this requires the manner of leaving inserts for openings like doors and windows to be decided well in advance, as well as also any necessary inserts to support floor slabs after the walls are constructed. HORIZONTAL SLIP FORM :
  • 9. 3-TAPERED SLIP-FORMING Slip-forming is also used in the construction of conical chimneys, cooling towers, piers and other tall concrete structures involving constant or changing thicknesses in walls, diameters and/or shapes. A form is used with sections which overlap so that one gradually slides over the other. This is commonly done in chimney construction but it is not satisfactory for architectural concrete because the lap shows. While the tapered slip-forming process is similar to that used on the standard slip-forming, it requires greater attention, contractor experience and expertise ensures the success of such projects.
  • 10. ADVANTAGES: •A major cost of concrete structure construction is the required formwork to retain the concrete till it can be safely de-shuttered and be able to support itself and other imposed loads. •The formwork needs to be continually removed to newer locations and then re- erected. •Continuous use of manpower and lifting equipment like cranes. • In the case of slip form building, the formwork is erected only once and remains intact until the entire structure is completed. •Great reduction in the cost of formwork as well as time saving for re-erection. •Cost effective •The reduction in the movement of formwork and workers also leads to far more safe working conditions that also make it a major advantage.
  • 11. PRECAUTIONS • Concrete is continuously protected against loss of moisture and rapid temperature changes for 7 days • Unhardened concrete is protected from rain and flowing water • Prevent plastic shrinkage • Plastic cracks are filled by injection of epoxy resin.
  • 12. APPLICATIONS OF SLIP-FORM CONSTRUCTION Slip-form construction is used for tall structures, such as towers, buildings, and dams, as well as horizontal structures, such as roadway barriers. It enables continuous, non-interrupted, cast-in-place joint-less concrete structures which have superior performance characteristics over construction methods using discrete form elements. Slip forming relies on the quick setting properties of concrete, and requires a balance between quick- setting capacity and workability. Capital Gate Tower, Abu Dhabi King Abdul-Aziz Airport Inn Canal, Germany
  • 13. 3-JUMP FORM:  Generally, jump form systems comprise the formwork and working platforms for cleaning/fixing of the formwork, steel fixing and concreting.  Jump form, often described as climbing form. It is suitable for construction of multi-floor vertical concrete elements in high-rise structures, such as shear walls, core walls, lift shafts, stair shafts and bridge pylons.  It is a highly productive system designed to increase speed and efficiency while minimizing labor and time.
  • 14. PROCESS EFFICIENCY :  Fast construction can be achieved by careful planning of the construction process. Crane availability is critical for normal jump form.  Self-climbing formwork cuts down the requirement for crane time considerably. By allowing the crane to be used for other construction work this may reduce the total number of cranes needed on site.  The formwork is independently supported, so the shear walls and core walls can be completed ahead of the rest of the main building structure. This can help to provide stability to the main structure during its construction and can have the beneficial effect of taking the jump form core off the project critical path.
  • 15. SAFETY :  Working platforms, guard rails, and ladders are built into the completed units of market- leading formwork systems. Complete wind- shield protection on platform edges is also possible.  Self-climbing formwork systems are provided with integral free-fall braking devices.  The completed formwork assembly is robust and provides a stable working platform.  The reduced use of scaffolding and temporary work platforms results in less congestion on site.  The setting rate of concrete in those parts of the structure supporting the form is critical in determining the rate at which construction can safely proceed.  The repetitive nature of the work means that site operatives can quickly become familiar with health and safety aspects of their job. Formwork suppliers provide materials and resources to help train the labour force.
  • 16. SUSTAINABILITY FEATURES :  The formwork system is easy to clean and reuse with little formwork waste generated compared to traditional formwork.  Climbing formwork systems offer simplicity, safety and cost effectiveness for certain high-rise building structures.  The repetitive nature of the work, combined with the engineered nature of the formwork, allows fine tuning of the construction operations, which in turn leads to minimal concrete wastage.  Many repeated uses of formwork are possible before maintenance or replacement is needed, the number of uses depending on the quality of the surface finish of concrete specified.
  • 17. SUMMARY • Slip form construction is a construction method in which concrete is poured into a continuously moving form. • There are two types of slip-forms; vertical and horizontal. • Slip-form construction consumes very less time but requires careful planning of construction process to achieve high production rates. • Due to continuous concrete pouring in slip- form construction it produces better concrete joint less and watertight structures. • Slip form systems require a few but highly skilled workforce. • Slip-forming is also used in the construction of tapered structures involving changing thicknesses in walls, diameters and/or shapes.
  • 18. REFFERENCE • WIKIPEDIA.ORG • SLIDESHARE.NET • THECONSTRUCTOR.ORG • WWW.CONCRETECENTRE.COM • fac.ksu.edu.sa/sites/default/files/7-_slip-form_construction.pdf