Column is a structural element that transmits, through compression, the weight of the structure above to other structural elements below. In other words, a column is a compression member. #civil #roadconstruction #Pakistan #concrete #civilengineering
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Explore Suspension Bridge & its Components 🌉 It is a type of bridge in which the deck (the load-bearing portion) is hung below suspension cables on vertical suspenders. Here are the components of suspension bridge: 1. Main Cables: Running along the top, these cables are now made of thousands of steel wires, often exceeding 10,000 per cable, making them incredibly strong. 2. Suspender Cables: Thinner than the main cables, these steel cables suspend the deck, ensuring stability. 3. Deck: The travel surface for vehicles and pedestrians, composed of multiple steel trusses. 4. Towers: These support the cables in a perfect parabolic shape, providing maximum strength. 5. Anchors: Located at the bridge ends, these secure the main cables, made from rock or reinforced concrete. Follow Civil Engineers Diary for more informative content. Download Powerplay - Free Construction Management App 📲 https://lnkd.in/d8ienskJ Request Free Demo - https://bit.ly/3OAmg35 #ConstructionTech #Powerplay #Construction #ProjectManagement #ConstructionManagement #SuspensionBridge #CivilEngineer #Civil #CivilEngineering
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3 X Top Voice - Civil Engineering & Construction Management | Construction Engineer | vincivilworld.com
"Anchoring Strength: Building Resilience Beneath the Surface" A soil/rock anchor is a structural device used in civil engineering and construction to provide stability and support to various structures, including retaining walls, slopes, and foundations. It consists of a steel rod or cable that is inserted into the ground or rock and secured with grout or other anchoring materials. The anchor's purpose is to resist lateral or vertical forces, preventing structures from shifting or collapsing due to soil or rock movement. Soil/rock anchors are crucial in stabilizing structures in areas prone to landslides, erosion, or seismic activity. They are also employed in securing offshore platforms and towers. Their effectiveness lies in their ability to distribute loads and withstand tension, ensuring the safety and longevity of diverse engineering projects. Video rights : Rembco #rockdrilling #rockanchor #engineering #civilengineering #construction #civilconstruction #mechanicalengineering #geotechnicalengineering #engenhariacivil #engenharia
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This could be the new future of concrete
Who said concrete has little tensile strength? his team has created a new type of cementitious material, combining UHPC, carbon fiber and carbon reinforcement mesh. The video shows the amazing results that have been achieved. As can be seen, a load of approximately 150 kg, dynamic, was applied on a 1 m long test strip with a thickness of 16 mm over a width of 0.1 m. The "beam" thus created has a section of only 16 cm2 and was able to withstand the load without cracks appearing. It is a truly extraordinary result that opens up the possibility of previously unimaginable applications. Follow me to get all the latest in civil engineering✨ #CivilEngineering #Construction
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"Anchoring Strength: Building Resilience Beneath the Surface" A soil/rock anchor is a structural device used in civil engineering and construction to provide stability and support to various structures, including retaining walls, slopes, and foundations. It consists of a steel rod or cable that is inserted into the ground or rock and secured with grout or other anchoring materials. The anchor's purpose is to resist lateral or vertical forces, preventing structures from shifting or collapsing due to soil or rock movement. Soil/rock anchors are crucial in stabilizing structures in areas prone to landslides, erosion, or seismic activity. They are also employed in securing offshore platforms and towers. Their effectiveness lies in their ability to distribute loads and withstand tension, ensuring the safety and longevity of diverse engineering projects. Video rights : Rembco #rockdrilling #rockanchor #engineering #civilengineering #construction #civilconstruction #mechanicalengineering #geotechnicalengineering #engenhariacivil #engenharia
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Full Work Rights,Structural Engineer, 3 years experience as Assistant Project Engineer.
Stabilizing structures using Soil/ Rock Anchoring method.
"Anchoring Strength: Building Resilience Beneath the Surface" A soil/rock anchor is a structural device used in civil engineering and construction to provide stability and support to various structures, including retaining walls, slopes, and foundations. It consists of a steel rod or cable that is inserted into the ground or rock and secured with grout or other anchoring materials. The anchor's purpose is to resist lateral or vertical forces, preventing structures from shifting or collapsing due to soil or rock movement. Soil/rock anchors are crucial in stabilizing structures in areas prone to landslides, erosion, or seismic activity. They are also employed in securing offshore platforms and towers. Their effectiveness lies in their ability to distribute loads and withstand tension, ensuring the safety and longevity of diverse engineering projects. Video rights : Rembco #rockdrilling #rockanchor #engineering #civilengineering #construction #civilconstruction #mechanicalengineering #geotechnicalengineering #engenhariacivil #engenharia
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🚀MOTIVE Original Content Series #26 Efficient Calculation of Inertia for Cracked Concrete Sections 📓Dealing with the structural analysis of concrete sections is essential for civil engineers. Calculating the moment of inertia for these sections is necessary when we perform service stress checks for flexure and deflection checks. In this series, detailed information will be provided on the following topics: ✔️The Calculation Process for the Moment of Inertia ✔️Application in Practical Scenarios ✔️The Corresponding Excel Sheet To explore the Full article, Visit our Website: https://hubs.ly/Q02Gkm1K0 Curious about the MOTIVATOR, Seungwoo Lee, Ph.D., P.E., S.E.? https://hubs.ly/Q02Gklsx0 #Concrete #StructuralEngineering #MOTIVE
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These are Components of typical Suspension Bridge 🌉. ⏺️These Components are: 🔸Towers 🔸Suspender 🔸Anchorage 🔸Deck 🔸Stiffening Girder 🔸Main Suspension Cable 🔸Foundation for Towers #BridgeEngineering #StructuralEngineering #Bridge #Civil
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Reinforcement steel mesh was welded by automatic electrical resistance welding machines conformance to standard AS-NZS 4761-2001. The material of reinforcement steel mesh is 250N, 500N, 500L, 300E, 500E. Reinforcement steel mesh is very poupular in civil engineering and construction. It always used on road subgrade, building foundation, tunnel support and reinforced,mine and coal reinforced and support, bridge construction etc. #QualityAssurance #Reliability
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Reinforcement steel mesh was welded by automatic electrical resistance welding machines conformance to standard AS-NZS 4761-2001. The material of reinforcement steel mesh is 250N, 500N, 500L, 300E, 500E. Reinforcement steel mesh is very poupular in civil engineering and construction. It always used on road subgrade, building foundation, tunnel support and reinforced,mine and coal reinforced and support, bridge construction etc. #QualityAssurance #Reliability
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how can we replace the BEARING in Bridges which in watercourse ?? Its complex process because we cant put scaffolding so I will let you enjoy with that video ------------------------------------------------------------------------- Iam Mina Boules Bridge Structure Engineer and I try to help civil engineers to learn more about bridges 🥹❤️🙏🏻 #bridges #construction #modeling #deck_section #composite_section #emirates
