Steel structure frames steel frame have revolutionized modern construction, offering significant improvements over traditional concrete pillars. Their advantages include faster construction times, reduced costs, and superior seismic resistance, which are critical in earthquake-prone regions. This comprehensive guide delves into the essential principles, assessment methods, reinforcement strategies, and construction techniques for steel structure frame reinforcement and reconstruction. It also highlights the expertise and capabilities of , a leading enterprise in steel structure design and installation, to provide useful insights for engineers, architects, and construction professionals.

Ensuring the seismic resilience of steel frame joints is paramount for structural integrity. The core principles demand that the bearing capacity of joints must at least equal or exceed that of the connected structural components. This requires robust anchorage of longitudinal reinforcements within the joints to prevent premature failure. During frequent seismic events, joints should behave elastically to avoid damage, while in rare, severe earthquakes, they must still effectively transfer vertical loads without collapse. Additionally, reinforcement detailing in joints should facilitate ease of construction while meeting these performance criteria. Incorporating these principles helps maintain the overall ductility and robustness of steel frame structures under seismic stresses.

A thorough seismic performance assessment is the foundation for effective reinforcement planning. First, comprehensive data collection involves documenting the building’s location, usage, age, structural type, number of stories, height, and foundation system. Maintenance records, previous reinforcements or modifications, and detailed construction drawings aid in understanding the current state of the structure. Geotechnical reports and completion inspection documents provide valuable context on soil conditions and original construction quality. Secondly, component inspections use methods such as core extraction and rebound tests to evaluate concrete strength in beams and columns. Accurate measurement of stirrup reinforcement height, diameter, and spacing ensures compliance with design standards. Additional checks include assessing the surface carbonization depth, core sample quality, and verifying anchorage lengths and weld quality of steel bars. This meticulous inspection process identifies vulnerabilities and guides targeted reinforcement.

Izindlela zokuphucula zihluka ngokuya ngezinto ezakhiwe nezinkinga ezibhekwayo. Kuma-frame columns, uma ubukhulu bokucindezela buphakeme kakhulu, ukufaka i-carbon fiber fabric kuthuthukisa ukuvalelwa kwangaphandle kanye nekhono lokuguquguquka ngesikhathi sezenzakalo ze-seismic. Enye indlela ihilela ukugcina ikholomu yokuqala ngenkathi uyifaka ngaphakathi kwesakhiwo sesinyathelo, ukufaka i-structural adhesive phakathi kwezendlalelo, nokufaka i-mortar enamandla ukuze kwakhiwe ingxenye ye-composite. Ngakolunye uhlangothi, ukufaka ama-jackets e-reinforced concrete ezindaweni ezikholomuni kungaba usizo, kuye ngamasimo endawo kanye nokwenzeka kokwakha.

Ngokwe-frame beams, ukuxhunywa kwezakhiwo kwepulasitiki zensimbi kusebenza njengendlela ephumelelayo yokuphakamisa i-shear, kulandela ukumboza nge-cement mortar yokuvikela. Iziqhumane ezivertical ezingezona ezakhiwo kufanele zivalwe kusetshenziswa ama-adhesives ezakhiwo afakwe ngengcindezi ukuze kuvinjwe ukonakala. Ukufaka amafabrics e-carbon fiber anjenge-U kumabhakabhaka anganawo amandla afanele okuphakamisa kuthuthukisa kakhulu amandla e-shear. Ukuvikelwa okuphelele kokugqwala kwezakhiwo zensimbi, ukufakwa kokuphakamisa okuqhubekayo, ukufakwa kwe-stirrups ezinjenge-U, nokubopha ngama-pull rods kuthuthukisa ukusebenza kwamabhakabhaka ngaphansi kokulayishwa kwe-seismic.

Column bases require embedding main reinforcements into the base and securely binding them with steel bars, combined with fresh concrete interface agents to ensure bonding. After formwork setup, new concrete is poured, cured, and forms removed to restore foundational strength. Independent foundations can be partially retained and enlarged in dimensions, with concrete poured carefully to avoid damage to original bottom reinforcement. Rust-proofing and fresh interface agents protect the foundation’s longevity.

Izixhumanisi ezakhiwe, ikakhulukazi phakathi kwezinsika zokuqala nezinhlelo ezisha zezimpondo, zidinga ukufaka iziqiniso zezimpondo zesibili ezinsikeni ezikhona ngokulandela ukugcwalisa kwekhonkrithi ukuze kuqinisekiswe amandla okuphuka. Kwamafulethi nezindonga, ukuqiniswa kwefayibha ye-carbon kuthuthukisa amandla okudonsa kwe-slab nokusebenza kokuhlasela. Ukuvikelwa kokugqwala kwezinsimbi ezikhona nokwelashwa kwezindawo ze-carbon fiber ukuze zibe nokumelana nomlilo kubalulekile ukuze kuqinisekiswe ukuqina nokuphepha.

The reinforcement construction workflow encompasses scaffold setup, surface cleaning, positioning of angle steels, welding of flat steel strips, preparation and injection of structural adhesive, and protective cement mortar application. Angle steels are fixed with precise gaps to facilitate efficient adhesive injection and ensure bonding quality. Welding flat strips follows strict design specifications to maintain structural integrity. Sealing edges with structural adhesive while leaving top openings allows air to escape during injection, preventing voids. After external steel installation, timely corrosion protection is conducted to prolong service life. These detailed construction techniques ensure that reinforcement measures achieve their intended seismic and structural performance objectives.

Reinforcement and reconstruction of steel structure frames are vital for enhancing building safety, especially in seismic zones. This guide has provided an in-depth overview of seismic design principles, performance assessment, categorized reinforcement measures, and key construction techniques. The expertise of 山东黄河创业钢结构有限公司, established in 2004 and a certified leader in steel structure fabrication and installation, exemplifies the integration of advanced production lines, technical personnel, and innovative solutions in this field. Their capacity to design, produce, and install a wide range of steel structures for industrial, commercial, and civil applications makes them a trusted partner in steel frame reinforcement projects.

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