CONSTRUCTION TECHNIQUES

Modular construction requires optimal material management to limit waste and reduce costs. The use of technologies such as BIM and recycled materials helps maximize material efficiency. The economic and environmental benefits of reducing waste are significant for the modular industry.

Meticulous logistical planning is essential for maximizing efficiency of lifting processes by considering project needs, site, and human and material resources. The integration of advanced technologies such as smart sensors and augmented reality enhances precision and reduces risks. Case studies show successful applications and promising future prospects with AI, robotization, and 5G networks.

Factory modular construction allows for significant savings through resource centralization, time savings, and better stock management. It also ensures better quality with strict controls and the use of advanced technologies. Finally, this method reduces waste and environmental impact by optimizing material use and incorporating sustainable practices.

The integration of public services in modular foundations presents numerous challenges, particularly in terms of compatibility with existing networks and compliance with local standards. Advanced technologies like BIM and quick-connection systems facilitate this integration. Innovative solutions include the pre-integrated approach and the use of new materials to improve reliability and durability.

Concrete slabs provide a solid base but require curing time and are inflexible. Piles are suitable for unstable terrains but can be costly and noisy. Elevated foundations are suited to uneven land, provide good ventilation, but can be costly to install.

Initial design and planning involve engineers and architects collaborating on detailed plans and material selection. Factory production transforms raw materials into subassemblies through automation and strict quality control. Final assembly and rigorous checks ensure modules meet standards before shipment.

Integrated heating and cooling systems optimize thermal comfort and energy efficiency in buildings. This includes technologies like geothermal energy, heat pumps, and CMV. These systems enable significant energy savings and improve indoor air quality.

Module assembly on a site involves several crucial steps, from reception and inspection to precise positioning and anchoring, and finally to ultimate adjustments and compliance checks. Each step requires meticulous coordination between various teams and particular attention to detail. The quality and safety of the modular building depend on the rigor applied throughout the process.

Handling modules on a construction site requires various lifting equipment, including cranes, forklifts, and hoists and winches. Each type of device offers specific features tailored to precise tasks, making them essential for different operational needs. This review highlights the advantages, disadvantages, and particularities of using this equipment to ensure the success of construction projects.

Logistical planning is essential to optimize costs and ensure safety when transporting large modules. Adhering to safety and regulatory standards is crucial to protect workers and ensure the integrity of the modules. Innovative strategies, such as the use of simulation software and drones, help overcome logistical challenges.