Why this course?

Description

This comprehensive course provides in-depth knowledge of Mivan Shuttering Technology, a modern formwork system extensively used in the construction of high-rise buildings and RCC structures. Designed for civil engineers, site engineers, and professionals involved in construction management, this course covers every aspect of Mivan Shuttering, from its basic principles to advanced estimation and practical applications in large-scale projects like G+45 buildings.

Module 1: Introduction to Mivan Shuttering Technology

Overview of Mivan Shuttering and its Applications in RCC Structures
Mivan shuttering is a formwork system that uses pre-fabricated aluminum panels to create concrete structures. This module provides a detailed introduction to the Mivan formwork system, explaining its components, setup process, and applications in reinforced concrete structures (RCC). You will learn how Mivan shuttering is used for various structural elements, such as walls, columns, slabs, and beams, which are crucial in high-rise construction.

Key Advantages of Mivan Shuttering in High-Rise Buildings (G+45)
Mivan formwork is known for its speed and cost-effectiveness, especially in high-rise buildings. This section will explore how Mivan shuttering helps achieve faster construction timelines, better concrete finishes, and reduced labor costs, making it the preferred choice for G+45 buildings. You will also understand how this technology minimizes the need for skilled labor and improves structural quality.

Types of RCC Structures Suitable for Mivan Shuttering
This module examines the types of RCC structures most compatible with Mivan formwork, including walls, columns, slabs, and beams in high-rise buildings. Understanding which structures benefit most from Mivan’s modular, reusable design will help you plan its application in your projects.

Understanding Components of Mivan Formwork
In this section, we break down the key components of Mivan formwork: panels, beams, props, pins, wedges, and spacers. Each component’s role is explained in detail, providing you with a strong foundation in Mivan system operations. You will learn how each part works together to form a sturdy, secure, and efficient shuttering setup.

Industry Standards and Codes Related to Mivan Shuttering
Adhering to industry standards and codes is critical when implementing Mivan shuttering. This section will cover relevant construction codes and best practices that ensure the system’s safe and effective use. You will gain insights into international standards for formwork, safety protocols, and quality assurance that govern the application of Mivan formwork in construction.

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Module 2: Understanding RCC Structural Components

Overview of Key RCC Components
This module delves into the critical RCC components that Mivan shuttering is used to form. Topics covered include:

• Foundations (Raft, Pile Caps): The foundations of a high-rise building form the critical base. Mivan is often used to create raft foundations and pile caps in large buildings.
• Columns: Learn about the importance of column formwork and how Mivan panels are used to create vertical, load-bearing structures.
• Shear Walls: Understand how shear walls, which resist lateral forces, are formed using Mivan shuttering.
• Slabs and Beams: Mivan is commonly used for horizontal structures such as slabs and beams. Learn how formwork is used to create these essential elements of a building.
• Staircases and Lift Cores: Explore how Mivan technology is applied to form both staircases and lift cores, which are vital for high-rise buildings.

Mivan Shuttering Requirements for Each Structural Element
This section goes into the specifics of the shuttering requirements for each of the RCC components listed above. You will learn the exact panel types, props, and other components needed for each structure.

Compatibility of Mivan with Structural Designs and Drawings
Mivan shuttering can be adapted to fit different architectural designs. Here, you will understand how Mivan system components are integrated with structural drawings and designs to ensure compatibility with various building shapes and sizes.

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Module 3: Reading Structural and Formwork Drawings

How to Interpret RCC and Mivan Shuttering Drawings
A fundamental skill in construction is the ability to read and interpret formwork drawings. This module teaches you how to read both RCC and Mivan shuttering drawings, enabling you to understand the setup, components, and overall plan for implementing Mivan formwork in a construction project.

Identifying Mivan Components in Drawings (Panels, Corner Panels, Wall Panels)
This section will focus on identifying specific Mivan components in formwork drawings, such as corner panels, wall panels, and the arrangement of formwork. Understanding these elements will ensure proper assembly and alignment during the construction process.

Quantifying Shuttering Area from Drawings
Learn the method for calculating the shuttering area from construction drawings. Accurate quantification is crucial for material estimation and cost control. You’ll practice how to extract dimensions, compute the area, and assess the total number of panels required.

Understanding Construction Sequencing for Mivan Formwork
In this section, you’ll learn how Mivan formwork is sequentially set up for different floors and structural components. You will understand how to sequence construction efficiently to avoid delays, reduce rework, and maintain a steady flow of materials and labor.

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Module 4: Estimation of Foundation Shuttering Components

Materials Required for Foundation Shuttering
This module covers the specific materials needed for foundation formwork, such as panels, props, and tie rods. You will learn how to estimate these materials for both raft foundations and pile caps in your project.

Step-by-Step Calculation for Foundation Components

• Raft Foundation Shuttering Area: Learn how to calculate the area of formwork required for raft foundations.
• Pile Cap Shuttering Requirements: Estimate the material required for forming pile caps using Mivan formwork.

Estimation of Supporting Elements: Props, Tie Rods, and Plywood Interfaces
Understand how to estimate supporting components like props (vertical support), tie rods (lateral support), and plywood interfaces used in foundation formwork.

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Module 5: Estimation of Vertical Components (Columns, Walls, Shear Walls)

Panel Requirements for Columns, Walls, and Shear Walls
Learn how to calculate the panel requirements for forming vertical structures such as columns, walls, and shear walls. This module includes practical exercises for accurate estimation based on your project specifications.

Calculating Shuttering Area and Volume for Vertical Elements
This section will help you calculate the shuttering area and volume required for the formwork of vertical elements. You’ll gain a deep understanding of the geometry and material needs for these key structures.

Estimating Accessories Like Corner Angles, Pins, Wedges, and Spacers
Learn about the accessories necessary for assembling and securing the formwork, such as corner angles, pins, wedges, and spacers.

Material Optimization Techniques for Repeated Use of Panels
Explore how to optimize material usage by reusing panels and other components across multiple floors. You will also learn how to reduce wastage and improve the cost-effectiveness of your project.

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Module 6: Estimation of Horizontal Components (Slabs and Beams)

Mivan Shuttering for Slabs and Beams
This module focuses on the estimation of slab and beam formwork. Learn how to calculate the number of panels needed for both horizontal elements (slabs) and structural beams in the building.

• Slab Formwork Panel Requirements
• Beam Side and Bottom Formwork

Estimation of Slab Props, Beam Props, and Scaffolding Materials
Understand how to estimate the number of slab props, beam props, and scaffolding materials required to support the formwork. Proper estimation ensures safety and material efficiency.

Calculation of Material Wastage and Allowances
Learn how to calculate wastage allowances for Mivan formwork materials. This will help you account for material loss due to handling, damages, and repetitive use.

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Module 7: Estimation of Staircase and Lift Core Shuttering

Mivan Shuttering Design and Materials for Staircases
Learn how Mivan is used to form stairs, including stringers, treads, and risers. Special attention is given to angled or curved staircases and the special panels required for them.

Lift Core Estimation
This section explores the estimation of formwork for the lift core, including the wall panels and corner supports required for this critical vertical element in high-rise buildings.

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Module 8: Estimation of Roof and Parapet Shuttering

Shuttering Requirements for Roof Slab and Beams
Learn how to estimate formwork for the roof slab and beams, including material quantities and shuttering panel requirements.

Mivan Shuttering Components for Parapet Walls
This module focuses on the formwork components used for parapet walls, covering the necessary panels, props, and corner supports.

Safety and Material Considerations for High-Altitude Shuttering
Explore safety protocols and material handling for working at high altitudes in large buildings.

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Module 9: Costing, Rate Analysis, and Budgeting

Rate Analysis for Mivan Shuttering Materials
Learn how to conduct rate analysis for materials like panels, props, and tie rods, understanding how to calculate the cost of materials for various structural elements.

Labor Cost Estimation for Installation and Dismantling
Estimate the labor costs involved in installing and dismantling the formwork system for each section of the building.

Budgeting for a Full G+45 Project
This module teaches you how to create a comprehensive budget for a G+45 high-rise building, covering material procurement, panel maintenance, scrap value, and overall project costing.

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Module 10: Practical Case Studies and Optimization Techniques

Case Study of a G+45 High-Rise Building Using Mivan Shuttering
In this module, you will explore a real-world case study of a G+45 building project using Mivan formwork. Understand the challenges, solutions, and the benefits realized in the construction process.

Material Optimization Strategies for Reducing Costs
Learn how to optimize material usage and reduce wastage, ensuring that the formwork system is cost-effective and efficient.

Sustainability in Mivan Shuttering: Reuse and Recycling
Explore the sustainability benefits of Mivan formwork, focusing on reuse and recycling of materials, reducing environmental impact and project costs.

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