CONSYSTEX PTY LTD’s Post

These stripping corners are the best and can be used with any other panel system as you can see here

Building a bridge is a complex process that involves several key steps. Here’s a general overview of the main phases: 𝟭͟-͟𝗙͟𝗼͟𝘂͟𝗻͟𝗱͟𝗮͟𝘁͟𝗶͟𝗼͟𝗻͟ 𝗖͟𝗼͟𝗻͟𝘀͟𝘁͟𝗿͟𝘂͟𝗰͟𝘁͟𝗶͟𝗼͟𝗻͟:͟ -𝗦𝗶𝘁𝗲 𝗣𝗿𝗲𝗽𝗮𝗿𝗮𝘁𝗶𝗼𝗻: Clear and level the construction area. -𝗙𝗼𝘂𝗻𝗱𝗮𝘁𝗶𝗼𝗻 𝗪𝗼𝗿𝗸: Construct the foundations or piers that will support the bridge. 𝟮͟-͟𝗦͟𝘂͟𝗯͟𝘀͟𝘁͟𝗿͟𝘂͟𝗰͟𝘁͟𝘂͟𝗿͟𝗲͟ 𝗖͟𝗼͟𝗻͟𝘀͟𝘁͟𝗿͟𝘂͟𝗰͟𝘁͟𝗶͟𝗼͟𝗻͟:͟ -͟𝗣𝗶𝗲𝗿𝘀 𝗮𝗻𝗱 𝗦𝘂𝗽𝗽𝗼𝗿𝘁𝘀: Install piers and other supports that will hold up the bridge. 𝟯͟-͟𝗦͟𝘂͟𝗽͟𝗲͟𝗿͟𝘀͟𝘁͟𝗿͟𝘂͟𝗰͟𝘁͟𝘂͟𝗿͟𝗲͟ 𝗖͟𝗼͟𝗻͟𝘀͟𝘁͟𝗿͟𝘂͟𝗰͟𝘁͟𝗶͟𝗼͟𝗻͟:͟ 𝗕𝗲𝗮𝗺 𝗣𝗹𝗮𝗰𝗲𝗺𝗲𝗻𝘁: Install horizontal beams across the supports. 𝗗𝗲𝗰𝗸 𝗖𝗼𝗻𝘀𝘁𝗿𝘂𝗰𝘁𝗶𝗼𝗻: Build the bridge deck and any additional structural elements. Video Credit: Technoflicks #CivilEngineering #Bridges #BridgeConstruction #PostTension #BoxSection #Concrete #Prestressing #Tendons #EndAnchorage

Easy and complex at the same time 👏

Fast and effective solution for Sheer walls in all concrete frames.

In construction, beams are essential structural elements that support loads and transfer them to other parts of a structure. Here are some common types of beams: 1.Simply Supported Beam: Supported at both ends, typically with one end resting on a pin and the other on a roller. It's the most basic type of beam. 2.Cantilever Beam: Fixed at one end and free at the other. This type extends beyond its support and is used in structures like balconies and overhangs. 3.Continuous Beam: Supported by more than two supports, creating a continuous span over multiple supports, which helps in distributing loads more evenly. 4.Overhanging Beam: Extends beyond one or both supports, with one or both ends projecting beyond its supports. 5.Fixed Beam: Rigidly fixed at both ends, preventing rotation and allowing the beam to resist bending moments more effectively.

Well isn't this fun? I love archaic construction. Good old plaster and lathe. #3m #firestop #firestopping #firesafety #lifesafety #continuingeducation #constructioneducation #construction #buildinginnovation #buildbetter #buildsmart #passivefireprotection #codeenforcement #buildingcodes #firemarshal #buildinginspections #contractoreducation #constructionmaterials #buildingmaterials #kcmo #inspectors #codesinspectors #firemashals

Bracing systems play a crucial role in ensuring the stability and support of steel structures against various lateral loads such as wind, earthquakes, and snow. Understanding the different types of bracing systems is essential for ensuring the structural integrity of buildings. V-bracing, inverted V-bracing, diagonal bracing, X-bracing, and K-bracing are some of the most common types of bracing systems used in steel structures. Each type offers unique benefits and is used in different structural configurations. V-bracing, for example, is a cost-effective solution that provides stability against horizontal loads in both directions. On the other hand, inverted V-bracing is ideal for buildings with sloping roofs, while diagonal bracing offers excellent stability and stiffness in multi-story buildings. X-bracing is commonly used in buildings with rectangular or square plans, providing stability against horizontal loads. K-bracing, a variation of X-bracing, is used in buildings with irregular shapes where X-bracing may not be feasible. By understanding the various types of bracing systems and their applications, engineers can design structures that are not only structurally sound but also efficient and cost-effective. It's important to consider the specific requirements of the building and choose the appropriate bracing system accordingly. Remember, building with strong bracing systems is key to ensuring the safety and durability of steel structures. 🏗️💪 #engineeringwithcatalin #steelstructures #bracingsystems #structuralengineering #buildingdesign #safetyfirst #stabilityiskey #neverstoplearning #ingineriecucatalin

Large Moment - Reinforcement Ratio ρ> 2% Moderate Moment - Reinforcement Ratio ρ< 2% Detailing of concrete frame corners subjected to opening moment according to Eurocode 2. For approximately equal depths of column and beam , reinforcement should be provided as a loop in the corner region or as two overlapping U bars in combination with inclined links as shown in video. For large opening moments a diagonal bar and links to prevent splitting should be considered. #civilengineering #structuralengineering #concretedesign #concrete #reinforcement #construction #arhitecture