#Structural Engineering Reels

A little structural engineering lesson! Jettying is where upper level walls are shifted out beyond the area of the floor below. Beams supporting these walls have to be cantilevered out past the lower level walls. When a structure utilizes jettying - a negative bending moment is created which causes the beam to bend upwards. The positive bending moment from regular floor load is counteracted by the negative moment from the wall supported at the end of the cantilever. This can drastically reduce the depth of beams needed for floor framing! (Yes I know this is technically not a propped cantilever - it’s more like a cantilever with a back span!) #lego #structuralengineering #brickgineer

You’re structural engineer looking to up skill. What are the most important tools you should learn? Understanding the latest software and programming languages may be helpful, but the true backbone of structural engineering lies in mastering the fundamentals. For those looking to deepen their expertise, focusing on the foundational knowledge of how structures behave at various levels is crucial. Reading influential textbooks in structural engineering can provide this foundational knowledge. Additionally, learning advanced analysis methods such as nonlinear pushover and time-history analysis, along with design philosophies like displacement-based and performance-based design, can significantly enhance your ability to develop solutions that are not only effective but also resilient. #engineering #civilengineering #structuralengineering #earthquakeengineering #seismicdesign #performancebaseddesign #structuraldesign #steeldesign #concretedesign #revitstructure #etabs #sap2000 #steelstructures #steelstructure #concretestructures #highrisestructures #tallbuildings #professionalengineer #structuralengineering #structuraldesign #structuralanalysis #sustainability #professionaldevelopment

© Copyright Pro-Level Civil Engineering. All Rights Reserved. 4 important rules when designing a Concrete Torsion-Exposed Beam: When a slab is subjected to loading, the resulting force generates a moment on the beam, manifesting as torsion. This torsional force induces diagonal tensile stresses across the entire peripheral zone. To effectively counteract these stresses, follow these 4 roles: 1. Strategically place longitudinal reinforcement along the entire perimeter of the beam. 2. Equip stirrups with a double hook for optimal effectiveness. 3. Securely anchor rebars from the slab in the beam, either through a double bend or a traditional one-piece design. 4. Design beams under torsion with a larger width due to high shear strength requirements. #structuralengineering #concretedesign #civil #construction #design

The Backbone of the Mountain: Building a Reinforced Slope Stabilization Wall! ⛰️🔒 ​Witness heavy-duty civil engineering in action! This video shows the intense construction of a reinforced concrete grid wall—a critical structure built to stabilize a steep, exposed slope, often near major infrastructure like highways or large buildings. This isn't just cosmetic; it's a vital safety measure against landslides and soil erosion. ​Precision and Strength in Every Bar ​This complex structure requires meticulous planning and powerful materials: ​The Steel Skeleton (0:00 - 0:12): The crew is busy assembling the dense rebar (reinforcement bar) cage directly against the natural slope. Notice the intricate pattern: ​Vertical Columns and Horizontal Beams: These form a sturdy, interconnected grid pattern. The steel is tied together tightly to form a massive cage. ​Slope Anchors: The vertical columns are driven deep into the stable ground beneath, anchoring the entire structure to the hillside. ​The Purpose of the Grid: When concrete is poured into this cage (a process that follows later), it creates a robust, segmented retaining structure. This grid allows water to drain naturally through the exposed gaps, preventing hydrostatic pressure buildup behind the wall—a common cause of retaining wall failure. ​Safety and Scale: Workers in high-visibility gear are seen scrambling over the steep rebar structure, highlighting the challenging and skilled nature of the work. The sheer scale, with the hills stretching into the background and the crane visible in the distance, underscores the massive effort involved in large-scale infrastructure stability. ​This construction is the definition of geotechnical necessity, securing the mountain's face against the forces of nature to ensure long-term stability. ​Can you spot the pre-installed wire mesh at the top, a final line of defense against smaller falling debris? Tell us what you see! 👇 ​#SlopeStabilization #RetainingWall #CivilEngineering #Rebar #ConstructionSafety #Geotechnical #Infrastructure #HeavyConstruction #SkilledTrades

The industrial frame structure and the essential design parameters involved in its construction. #steel #steelstructure #steelstructures #steelframing #steelstructurebuilding #civilengineering #structure #structuralengineering #construction#reinforcement #rc #reinforcedconcrete #building #formwork #engineer #engineerproblems #steelframe #steelstructure #engineering #reinforcement

Nature is powerful, but engineering is SMARTER 🧠 CivilEngineering #Architecture #Construction #StructuralEngineering #infrastructure

When architect and civil engineering comes together 🫡.. . Skyscraper. Building. Architecture. Architect. Construction. . #architecture #architect #civilengineering #civil #construction #building #skyscraper #SkylineViews #interior #exterior #design #creative #concrete

🏗️ The Art of Structural Strength: Steel Building Assembly 🏗️ Ever wonder how those massive industrial warehouses or hangars go up so fast? It’s all about the precision of Steel Structures. 🔩 This animation perfectly captures the step-by-step assembly process of a portal frame building. Unlike traditional concrete, steel structures offer unmatched speed, flexibility, and sustainability. 🔑 Key Assembly Stages: Foundation & Base Plates: It starts with anchor bolts embedded in concrete to ensure the columns are rock-solid. Primary Framing: Heavy-duty H-sections or I-beams are bolted together to form the main columns and rafters (the "skeleton"). Bracing for Stability: Notice the X-shaped cross-bracing? That’s what helps the building resist wind loads and seismic forces. Purlins & Girts: The secondary framing is added to support the roof and wall cladding. Why Steel? ✅ Efficiency: Most parts are pre-fabricated in a factory and simply bolted on-site. ✅ Durability: Resistant to pests, mold, and fire. ✅ Clear Span: Allows for large open spaces without the need for many interior columns. Modern engineering turns complex construction into a giant, high-tech LEGO set. Whether it’s a logistics hub, a factory, or a commercial space, steel remains the backbone of our built environment. 🌆 #CivilEngineering #Construction #SteelStructures #PEB #Architecture #EngineeringAnimation #StructuralDesign

Do you prefer working on-site or in the office?🏗️🏢 In my case I think that balancing between the two make our job one of the beautiful’s ones. Slab Reinforcement works of a 2 residential building block, separated by seismic joint. We are finalizing the reinforcement of the slab before casting. ▶️ Subscribe on my Youtube channel, to learn more, link in Bio. And follow me for more. 📘Join our Broadcast Channel and community, link in Bio. Credit: ©️ @engineer_ye #Yengineer #ye #engineerye #megaconstruction #columns #concretestructures #civilengineering #design #engineering #ingegneriacivile #ingegneria #ingegneriastrutturale #civil_engineer #engineers #geotechnicalengineering #siteengineer #construction_site #construction #rebar #structuralengineering #building #engineerlife #concreteconstruction #civilengineering

🟦 انواع سقف در سازه اسکلت بتنی 🔹 انتخاب نوع سقف در سازه‌های بتن‌آرمه تأثیر مستقیم بر وزن مرده، رفتار لرزه‌ای، سرعت اجرا و هزینه نهایی پروژه دارد. از رایج‌ترین سیستم‌ها می‌توان به موارد زیر اشاره کرد: ▪️ دال بتنی توپر ▪️ سقف تیرچه بلوک ▪️ دال وافل (دوطرفه) ▪️ سقف یوبوت / کوبیاکس (مجوف) ▪️ دال پس‌تنیده (Post-Tension) ▪️ عرشه فولادی با بتن (کامپوزیت روی اسکلت بتنی خاص) انتخاب بهینه هر سیستم نیازمند بررسی دهانه، بارگذاری، محدودیت ارتفاع، سرعت اجرا و ملاحظات اقتصادی است. — — — 🟦 Types of Slabs in Reinforced Concrete Structures 🔹 Slab selection directly affects dead load, seismic performance, construction speed, and project cost. Common systems include: ▪️ Solid Concrete Slab ▪️ Joist Block Slab ▪️ Waffle Slab (Two-way) ▪️ Voided Slab (U-Boot / Cobiax) ▪️ Post-Tensioned Slab ▪️ Composite Deck with Concrete (in special RC frames) Proper selection requires evaluating span length, loading, height limits, execution speed, and cost efficiency. 📣 شما بیشتر با کدوم سیستم سقف کار کردین؟ تجربه اجرایی‌تون رو به اشتراک بذارین. #ConcreteStructure #SlabSystems #StructuralEngineering #ConstructionMethods #CivilEngineering

A 31-story building with a height of 124 meters, designed with a dual system of steel moment frames and concrete shear walls. The main design challenge for this structure was the wind load, which governed the design compared to seismic loads. This structure was nonlinearly modeled by @BeProEngineer, and its nonlinear performance was verified within the framework of performance-based design. #CivilEngineering #StructuralEngineering #EarthquakeEngineering #SeismicDesign #StructuralDesign #StructuralModeling #SteelDesign #ConcreteDesign #RevitStructure #ETABS #SAP2000 #ETABSCourse #ETABSTutorials #ETABSLearning #SteelStructures #ConcreteStructures #TallBuildings #TallBuilding #performancebaseddesign

What normal people see VS What Civil Engineer see 🔥 Source : @structural_learning_ #construction #projectconstruction #civilengineer #civilengineering #engineer #engineering