Jayanth Shetty’s Post

BRICK WALL FOUNDATION DETAIL 9" and 4 1/2" Brick wall foundations are typically strip foundations, running continuously along the wall's length to transfer the building's load to the ground. . Foundations are dug into trenches to reach stable soil, as surface soil usually lacks sufficient load-bearing capacity. Architects provide foundation plans to indicate trench locations, marked on-site using the centerline method. . Trench size depends on wall thickness and soil strength. The trench base is compacted, followed by a 6-8 inch cement concrete layer for stability. This layer is cured for strength. Stepped brick courses are added to evenly distribute the building's load across the foundation. . Brick courses of dimensions 27" , 22 1/2" , 18" , 13 1/2" , 9" are laid (Each course is typically laid double, making the thickness of each step 6 inches, or it can be laid singly 3 inches, depending on various load factors). Pros and Cons of Brick Wall Strip Foundations -------- 🟡 Pros - Cost-effective and simple to construct. - Distributes load evenly and ensures durability. 🔴 Cons: - Limited to light loads; unsuitable for heavy buildings. - Requires stable soil and proper waterproofing. - Time-consuming and labor-intensive to build. Note: These are typical details. Construction techniques may vary depending on various factors. . Got any tips or tricks for building strong foundations? Let us know in the comments! . Need expert design guidance for your next project? 🏠🏢 Let’s collaborate to create innovative architecture and interiors that suit your style. , FoundationDesign #ConstructionTips Architecture BuildingStrong #StripFoundation StructuralDesign #ConstructionExperts BuildingBasics #LoadBearing ArchitecturalSolutions #DesignAndBuild FoundationWork #ArchitecturalPlanning

PT Slab benefits: #1 ARCHITECTURAL FLEXIBILITY WITH SPACE AND FORM Conventional concrete slabs require a specific level of thickness to maintain their strength and serviceability. However, with post-tensioned concrete, you can build thinner and longer slabs without compromising structural serviceability and strength. The fewer columns give greater flexibility in floor plans and layouts, especially in office and residential buildings. PT allows you to design longer unsupported spans that are strong with thinner floors. This makes post-tensioning an ideal technique for creating concrete slabs for expansive structures such as parking garages, auditoriums, roofs, bridges, and customized architectural designs. Since post-tensioned concrete can be profiled for longer spans, curved floors, and irregular grids, it is ideal for creating extended cantilevered slabs for exquisitely designed balconies and other futuristic architectural features. Post-tensioned slabs can create sleek and exceptional designs since they give way to dynamic and alluring contours. They allow architects and engineers to express creativity in building plans without compromising quality, strength, and stability. In simple terms, PT concrete elements deliver outstanding and efficient architectural features, offering infinite possibilities for structural designs. PT flat plates with unbonded tendons allow for random placement of columns supporting the floor slab. This provides tremendous flexibility for architectural designs. #pt

Exploring the Crucial Interconnected Roles of Structural Elements in Building Design: From Foundation to Roof 🏗️💡 From the foundation to the roof, every structural component in a building plays a vital role in ensuring stability, safety, and performance. Let's delve into the essential responsibilities of each element: 🏠 Foundation: - Bears Loads: The foundation supports the entire building by directly bearing its weight. - Distributes Weight: It evenly distributes the loads onto the soil to prevent settlement or failure. 🏗️ Columns: - Handles Vertical Loads: Columns carry vertical loads from beams, floors, and the roof. - Transfers to Foundation: They transmit these loads to the foundation for further distribution to the soil. 🔩 Beams: - Supports Slabs and Floors: Beams uphold the weight of slabs, floors, and other elements. - Transfers Loads: They transfer these loads to columns, which then send them to the foundation. 🏗️ Slabs: - Takes on Loads: Slabs receive loads from floors and roofs. - Transfers to Beams/Columns: They transfer these loads to the supporting beams and columns. 🌀 Staircase: - Handles Vertical/Horizontal Loads: Staircases support both vertical and horizontal loads. - Transmits Loads: They pass these loads to adjacent floors, columns, and the foundation. 🏢 Floors: - Supports Occupants: They bear the weight of occupants, furniture, and equipment. - Transfers Loads: Floors transfer these loads to beams, columns, and the foundation. 🏠 Roof: - Supports Various Loads: Roofs carry dead loads, rain, snow, wind, and equipment loads. - Transfers Loads: They transfer these loads to columns and walls, which then transmit them to the foundation. Understanding these roles ensures that structures are not just visually appealing but also robust, resilient, and capable of withstanding different forces. Note: I apologize if I inadvertently shared copyrighted content without proper attribution. Please DM me for Credit or removal. #Structure #Building #Design #Construction #Foundation #CivilEngineering #Sitework 🏗️🏢

Building renovation is a good option and & smart choice and can be more economical also than building a new building. To become an expert in building renovation, we should be masters in :- 1. A technical understanding of structural engineering, 2. An eye to detail, 3. The skill to capture site requirements, 4. An understanding of the scheme and load path of an existing building. Types of work that can be done to existing buildings include:- Structural and technical restoration, Maintenance, Exterior work, Carpentry, Plumbing, Drywall, Flooring, Light fixtures, Alteration, Fit-out, Restoration, Remediation, Change of use, Deconstruction, and Demolition. #industrial #industrialdesign #architecture #architectural #design #designdeinteriores #build #building #construction #constructioncivil #civilengineering #building #buildings #buildingdesign #buildingmaterials #corporate #interiordesign #interiordecor #industries #haryana #industrialarchitectural #projectmanagement #civilengineering #peb #construction #officeinteriors #design #architectural #corporatedesign #warehouses #factories #industries #sheds

12) Core wall self/auto climbing system. MEP , steel, façade clearance is very important. Visuals . Once you read carefully then a construction delivery professionals will understand the correct sequence and purpose. (12 of 100) #constructionlife #constructionsite #constructionmanagement #interior #architect #technology

Building renovation is a good option and & smart choice and can be more economical also than building a new building. To become an expert in building renovation, one should be masters in :- 1. A technical understanding of structural engineering, 2. An eye to detail, 3. The skill to capture site requirements, 4. An understanding of the scheme and load path of an existing building. Types of work that can be done to existing buildings include:- Structural and technical restoration, Maintenance, Exterior work, Carpentry, Plumbing, Drywall, Flooring, Light fixtures, Alteration, Fit-out, Restoration, Remediation, Change of use, Deconstruction, and Demolition. #industrial #industrialdesign #architecture #architectural #design #designdeinteriores #build #building #construction #constructioncivil #civilengineering #building #buildings #buildingdesign #buildingmaterials #corporate #interiordesign #interiordecor #industries #haryana #industrialarchitectural #projectmanagement #civilengineering #peb #construction #officeinteriors #design #architectural #corporatedesign #warehouses #factories #industries #sheds

Ever wondered what holds up the walls in your home or office building? It’s the humble yet essential wall stud! 🏠🔨 Wall studs are vertical framing members that form the backbone of your walls, providing support for the entire structure. But there’s more to them than meets the eye. Let’s dive into the basics: 1. Material Matters: Wall studs are typically made of wood or metal. Wood studs, often constructed from 2x4 or 2x6 lumber, are common in residential construction due to their affordability and ease of installation. Metal studs, made from steel, are prevalent in commercial buildings for their strength and fire resistance. 2. Spacing and Placement: Studs are spaced at regular intervals along the wall, usually 16 or 24 inches apart. This spacing ensures structural stability and provides adequate support for drywall or other wall finishes. The placement of studs also factors in window and door openings, corners, and any structural requirements dictated by building codes. 3. Load-Bearing Support: Wall studs not only support the weight of the structure above but also transfer loads, such as wind and seismic forces, to the foundation. Properly spaced and installed studs are crucial for maintaining the integrity and safety of the building. 4.Insulation and Wiring: Studs create cavities within the wall where insulation can be installed, helping to regulate temperature and improve energy efficiency. Additionally, electrical wiring and plumbing pipes are often routed through these cavities, making studs integral to the building’s infrastructure. 5. Variations and Alternatives: While traditional wood and metal studs are prevalent, there are alternative materials and techniques gaining popularity, such as insulated concrete forms (ICFs) and structural insulated panels (SIPs). These modern solutions offer enhanced insulation properties and faster construction times. Understanding wall studs and their role in structural framing is fundamental for architects, engineers, contractors, and anyone involved in the construction industry. By mastering these basics, we can build safer, more efficient, and more sustainable buildings for generations to come. 💪🏗️ For More Info, visit us: www.vortexbim.in #Construction #BuildingDesign #StructuralEngineering #Architecture #BuildingMaterials #architecturalphotography #architects #architecturestudent #architecturedetail #architecture_hunter #architecture_best #architecture_view #architecture_minimal

Metal Building Design: Simple Tips for Cost-Effective Layouts Architects and engineers often ask us how to design metal buildings for the best efficiency at the lowest cost. Today's metal buildings are customizable. But, some proven design principles can save you money. In this article from a few years back, I break down the key considerations—like dimensions, roof slopes, and frame layouts—that help keep costs in check without sacrificing quality or functionality. Let’s talk about how thoughtful design can make your next metal building project a success!

Waffle Slab: Strength and Aesthetics in Construction A waffle slab is a reinforced concrete slab system with a grid-like pattern of ribs on its underside, resembling a waffle. This unique design enhances structural efficiency, making it ideal for large spans in commercial and industrial buildings. The ribs reduce the slab's weight while maintaining strength, enabling it to support heavy loads with minimal material use. Waffle slabs are often used in parking structures, airports, and malls due to their ability to span large areas without the need for numerous columns. They also allow for creative ceiling aesthetics, as the exposed grid pattern adds architectural appeal. Efficient, durable, and visually striking, waffle slabs combine engineering innovation with design versatility, making them a popular choice in modern construction. For more details : https://lnkd.in/g9pkFEHH #waffleslab #concrete #construction #civilengineering #civilconstruction #engenharia #engenhariacivil #engenheiro #engenheirocivil #ingeniero #ingenierocivil

Au vif de notre choix de développement des coffrages spéciaux. Un post qui résume tout à propos des planchers réticulés.