Is there any need to insulate precast concrete homes?
@masterconstruction19892 ай бұрын
Good luck 👍
@rajuprasanna2362 ай бұрын
Hi sir I would like to know the cost to set up the precast plant in Hyderabad
@Buildworlds2 ай бұрын
What about programs which help my as Engineer and about applications in real work
@N3omega3 ай бұрын
All I see is Her2 and terrorist
@stevenpollard36703 ай бұрын
Stealing our power and not paying for it more like it
@schumi9xwdc3 ай бұрын
Trust but verify everything
@christaylor98953 ай бұрын
Is there any bagged mixture or actual recipe? This really didn't give much info if anyone wanted to actually create heat-resistant concrete.
@MojiSHM4 ай бұрын
Very nice.
@TheTanyo4 ай бұрын
Who can build me a house on that?
@benitoclawson37435 ай бұрын
"Promo sm"
@engr.viliag.37506 ай бұрын
Details of how to make a precast, like what size of rebars to be used, spacing and mixture. Thanks
@elainebenipayo6413Ай бұрын
@civilex
@sreejithagv81356 ай бұрын
What aggregates were used and what are the additives that can be added to make concrete fire resistant ?
@civilexir6 ай бұрын
To enhance concrete fire resistance, incorporate lightweight aggregates like expanded clay or vermiculite, along with high-melting-point aggregates. Additives such as polypropylene or steel fibers, fly ash, silica fume, calcined clays, and water-reducing admixtures improve fire resistance by reinforcing the matrix and reducing water content.
@justinw17656 ай бұрын
@@civilexir Polypropylene has a very low melting point, how would that work in these? Chopped carbon or basalt fibers would be a lot better.
@mikemiller12337 ай бұрын
You didn't prove any properties of the concrete.
@cly26787 ай бұрын
What machines/equipments are able to test the heat resistance of concrete?
@civilexir7 ай бұрын
Equipment for testing concrete heat resistance includes Differential Scanning Calorimetry and Thermogravimetric Analysis for thermal analysis, Cone Calorimeters for fire performance assessment, furnaces or ovens for controlled temperature exposure, Thermal Conductivity Measurement Apparatus for assessing thermal conductivity, and Non-Destructive Testing techniques (ultrasonic testing, infrared thermography) for damage-free evaluation. High-Temperature Rheometers study rheological properties.
@cly26787 ай бұрын
@@civilexir Thank you!
@mye-mail30988 ай бұрын
Very nice video 👏👏👏
@civilexir8 ай бұрын
Thank you 🙏
@ec_988 ай бұрын
Hello, I would like to talk to you about a hotel and the speciality of this hotel is that you can both walk and cycle without leaving the hotel.
@hasanmorshed49268 ай бұрын
I want to setup a precast concrete panels and elements manufacturing plant. How can I get help?
@civilexir8 ай бұрын
Setting up a precast concrete manufacturing plant requires careful planning and a combination of various resources. Here’s a step-by-step guide to help you get started: 1. Research and Planning: Market Research: Understand the demand for precast concrete panels and elements in your region. Identify potential clients, competitors, and market trends. Business Plan: Create a detailed business plan outlining your objectives, target market, financial projections, and operational strategies. 2. Legal and Regulatory Requirements: Permits and Licenses: Research and obtain the necessary permits and licenses required to operate a manufacturing plant in your area. Compliance: Ensure compliance with local building codes, environmental regulations, and safety standards. 3. Location and Infrastructure: Site Selection: Choose a suitable location with access to transportation, utilities, and a large enough area for manufacturing and storage. Facility Setup: Construct or lease a building that meets your production requirements, including space for casting beds, curing areas, storage, and administrative offices. 4. Equipment and Machinery: Precast Manufacturing Equipment: Invest in high-quality machinery for concrete mixing, casting, molding, curing, and handling. Consider both new and used equipment based on your budget. Quality Control Systems: Implement systems to ensure the quality and consistency of your products. 5. Raw Materials and Suppliers: Raw Materials: Source high-quality aggregates, cement, additives, and other materials necessary for producing precast elements. Supplier Relationships: Establish relationships with reliable suppliers to ensure a steady and consistent supply of materials. 6. Skilled Workforce: Recruitment: Hire skilled workers with experience in concrete production, quality control, machine operation, and management. Training: Provide necessary training programs to ensure safety, quality, and efficiency in operations. 7. Marketing and Sales: Brand Development: Create a strong brand identity and marketing strategy to promote your products. Networking: Build relationships with contractors, architects, developers, and other potential clients to generate sales leads. 8. Financial Management: Budgeting: Develop a comprehensive budget covering startup costs, operational expenses, and contingencies. Financing: Explore funding options such as loans, investors, or grants to support your initial investment. 9. Start Production and Monitor Operations: Start Production: Begin manufacturing precast concrete panels and elements according to your business plan and market demands. Continuous Improvement: Regularly evaluate and improve your processes for efficiency, quality, and cost-effectiveness. 10. Seek Expert Advice and Assistance: Consult Professionals: Consider hiring consultants or experts in the precast concrete industry for guidance on specific aspects of your business. Industry Associations: Join industry associations or networks to gain insights, access resources, and stay updated on industry trends. Launching a precast concrete manufacturing plant requires dedication, strategic planning, and a strong understanding of the industry. Seeking guidance from experienced professionals and continuously adapting to market demands are key factors for success.
@learnistan50179 ай бұрын
I want to know about the quality inspection of pre cast concrete as quality Control Inspector
@civilexir9 ай бұрын
Inspecting precast concrete involves various stages to ensure quality. Here's an overview of the process: 1- Incoming Materials Inspection: Verify the quality of raw materials like aggregates, cement, additives, and reinforcements. Check for proper storage conditions, expiration dates, and consistency with specifications. 2- Mold Preparation: Ensure that molds are clean, in good condition, and properly lubricated to prevent concrete adherence. 3- Concrete Mixing: Monitor the concrete mixing process, ensuring correct proportions of materials, proper mixing time, and consistency. Conduct slump tests to check workability. 4- Pouring and Compaction: Inspect the pouring process to ensure no segregation or air pockets. Use vibrating equipment to compact the concrete evenly. 5- Curing: Monitor curing conditions (temperature, humidity) to ensure proper strength development. Improper curing can significantly affect the concrete's strength and durability. 6- Demolding: Check for any damages or imperfections as the precast concrete is removed from the molds. Surface irregularities, cracks, or other defects need to be documented and addressed. 7- Dimensional Accuracy: Measure the dimensions of the precast elements to ensure they match the specified tolerances. 8- Visual Inspection: Perform a visual inspection for any visible defects like honeycombing, surface blemishes, or discoloration. 9- Non-Destructive Testing (NDT): Use methods like ultrasonic testing, radiography, or rebound hammer tests to assess internal integrity and strength without damaging the concrete. 10- Documentation: Maintain detailed records of inspection results, including any defects found, corrective actions taken, and compliance with standards or specifications. 11- Quality Control Testing: Conduct various tests as required by standards, such as compression tests, flexural tests, and durability tests, to ensure the concrete meets specified strength and durability requirements. 12- Final Inspection: Once all inspections and tests are completed, verify that the precast elements meet all quality standards and are ready for shipment or installation. As a Quality Control Inspector, attention to detail, knowledge of industry standards, and the ability to communicate effectively with production teams are crucial for ensuring the quality of precast concrete elements. Regular training and staying updated on advancements in testing methods and materials can further enhance your inspection process.
@vineetbhati10189 ай бұрын
Precast concrete is earthquake resistance
@civilexir9 ай бұрын
Yes, precast concrete can offer good earthquake resistance. The durability and strength of precast concrete elements make them a popular choice for buildings in seismic regions. These structures can be engineered to withstand seismic forces by using reinforcement, special connections and designs that allow flexibility and dissipate seismic energy.
@HasanKhater9 ай бұрын
It is not informative, just a broad description of a short column without any useful tips.
@mantojsingh23410 ай бұрын
Greta video! I’ve always been a big supporter of having more roundabouts than traffic lights, so I hope to see more of them in cities
@civilexir10 ай бұрын
Thank you. I hope so as well. 😉
@aymansolimanmosallam815710 ай бұрын
Info is not totally accurate
@AbDullAHMoHAAmeD9 ай бұрын
Explain please?
@tarunyadav980710 ай бұрын
how we joint the precasted members what are the different types of joint in these structures
@civilexir10 ай бұрын
There are several types of joints used to connect precast members and the choice of joint depends on the specific structural requirements, design, and construction methods. Here are some common types of joints used in precast concrete structures: Dowel Joints, Grouted Joints, Epoxy Joints, Lap Joints, Corbel Joints, Pocket Joints and etc.
@tarunyadav980710 ай бұрын
@@civilexir sir in a hise rise building which joint is preferred
@civilexir10 ай бұрын
@@tarunyadav9807 In high-rise buildings, the choice of joint type for connecting precast concrete members depends on various factors, including structural requirements, design considerations, construction methods, and local building codes. Each type of joint has its advantages and disadvantages, and the selection of the preferred joint type should be made after a thorough engineering and architectural analysis. Here are some considerations for joint types in high-rise buildings: Dowel Joints: Dowel joints are commonly used in high-rise buildings, especially for vertical connections where load transfer and stability are critical. They provide excellent structural continuity between precast concrete columns and beams. Dowel joints help distribute loads effectively and ensure the structural integrity of the building. Welded Joints: Welded joints can be used for connections that require high structural integrity and load-carrying capacity. Welding provides a strong and durable connection but requires skilled labor and may not be suitable for all types of precast members. Bolted Joints: Bolted joints are often used for connecting precast members in high-rise buildings. They offer ease of installation and allow for future disassembly or modification if necessary. High-strength bolts and proper detailing are essential for the reliability of bolted connections. Grouted Joints: Grouted joints can be used in high-rise buildings to achieve structural continuity between precast elements. Grout provides monolithic connections and helps distribute loads effectively. It is commonly used in shear walls and core walls of high-rise structures. Moment-Resisting Joints: In high-rise buildings, moment-resisting joints may be required to resist lateral forces, such as wind and seismic loads. These joints are designed to provide enhanced structural stability and may involve a combination of welding, bolting, and grouting to ensure that the connections can resist bending moments. Adhesive Joints: Adhesive joints are often used for architectural elements or cladding in high-rise buildings. They provide a clean and aesthetically pleasing connection but may not be suitable for primary structural connections.
@eduardodaquiljr963710 ай бұрын
what is the maximum temperature it can withstand?
@civilexir10 ай бұрын
up to 1400 degrees celsius
@sushiltripathy793011 ай бұрын
Sir thumb rule ke hisabse column heavy hona chahiye ya plinth beam
@mattd568111 ай бұрын
Thx for this! Can the luff be extended fully horizontal like the flat tops? Also, I wish the vid was longer haha.
@civilexir11 ай бұрын
Thanks for watching my video. Unlike the regular tower cranes that have a straight, horizontal arm, luffing jib tower cranes have a jib that can angle up or down. This luffing angle helps a lot when working in tight or busy construction spots.
@hjnurlaila455811 ай бұрын
I like natural garden❤
@abdwall391011 ай бұрын
جيد شكرا
@chroma092 Жыл бұрын
good one
@civilexir Жыл бұрын
Thank you 🙂
@suryatapadas9006 Жыл бұрын
Sir suggest some civil engineering courses one can pursue masters on that now a days requires AI knowledge as well.
@civilexir Жыл бұрын
Sure! Explore AI-integrated civil engineering masters like Structural Engineering, Transportation with Smart Mobility, and Environmental Engineering for a cutting-edge skill set
@CivilEngineering-jf1qx Жыл бұрын
الله يوفقك انت جيد وممتاز للغاية
@civilexir Жыл бұрын
🙏
@CivilEngineering-jf1qx Жыл бұрын
ماشاء الله
@CivilEngineering-jf1qx Жыл бұрын
حبيت قناتك وحبيتك انت انا طالب مهندس مدنية في المستوى الاول
@CivilEngineering-jf1qx Жыл бұрын
ماشاء الله شكرا لك على مجهودك
@civilexir Жыл бұрын
Thank you for your kind words. Good luck
@mutesasiratonny7455 Жыл бұрын
How do I get this software
@civilexir Жыл бұрын
Thank you for watching our video! To get the BIM software, you should identify the specific BIM software you want to use. There are various BIM software options available, such as Autodesk Revit, ArchiCAD, Bentley MicroStation, and more. Choose the one that best fits your needs and project requirements.
@mutesasiratonny7455 Жыл бұрын
Archicad
@CivilEngineering-jf1qx Жыл бұрын
ابداع ومفيد شكرا لك
@civilexir Жыл бұрын
شكرا لك على كلماتك الرقيقة!
@kennyomega8937 Жыл бұрын
Thank you😊
@civilexir Жыл бұрын
You're welcome! 😊
@tyran22eyran88 Жыл бұрын
Will AI replace civil Engineer?
@civilexir Жыл бұрын
It is unlikely that AI will completely replace civil engineers in the foreseeable future. Civil engineering involves a wide range of tasks that require human expertise and decision-making.
@tyran22eyran88 Жыл бұрын
Okay sir..Thanks for replying
@Knittogetherr Жыл бұрын
great👌👌👏👏
@civilexir Жыл бұрын
thank you
@PRAMODKUMAR-zq5mi Жыл бұрын
Nice information sir 👍
@civilexir Жыл бұрын
Thank you so much for your kind words! I'm glad you found the information helpful. If you have any questions or need further clarification on anything in the video, feel free to ask. Your support means a lot to me! 😊
@hamidusadiquechifado8827 Жыл бұрын
Great
@civilexir Жыл бұрын
Thank you so much for your kind words! 🙌 I'm thrilled that you found it great! Stay tuned for more exciting content on my channel.
@prashantshrivastav8561 Жыл бұрын
Nice videos.....keep it up
@civilexir Жыл бұрын
Thank you!
@gerritbearda154 Жыл бұрын
Only f the data is online. How many engineers will publish their work online? Who is responsible for the AI outcomes? Who signs the AI generated design, structural engineering, etc. off and takes any claims for failure? All grandiose but like many engineers, designers, architects, civil engineers, etc. we wont be publishing anything online for an AI algorithm to plunder our work. Customers pay good money for our integrity, our experience, our designs, our engineering competence, our quality control, etc. Not going to give it away for free so that some lazy AI using "engineer" to certify a building using our calculations. Dream on.
@albertiwong Жыл бұрын
how will CLT hold up in a wild fire, when no one comes to put out the fire for days comparing to brick contruction.
@civilexir Жыл бұрын
Wood-based construction materials like CLT are generally more vulnerable to fire than brick or concrete construction. However, builders can take steps to make their structures more resilient to wildfires, such as using fire-resistant coatings on wood-based construction materials or installing fire-resistant glazing in windows.