Abstract
Constructing plastic hinges and the way of their distribution and failure mechanism can play an important role on seismic structures design. Mechanism type affect frame sensitivity toward secondary effects, total and local ductility, energy absorption and structure resistance before damage, general instability and destruction. Failure mechanism of moment frames under earthquake effect could be mentioned as three general types (first, second and third). The first type resulted from constructing hinges in beams and columns in the first few -story up, the second one resulted from constructing hinges in beams and columns of few upper -story and the third type including mechanism of one middle floor. Failure mechanism of general type is a special mode of the second type mechanism in which, plastic hinges locating at the two ends of beams and the first floor columns near the connection to the foundation. Based on researches, this type of mechanism shows the most amount of energy absorption against earth quack. Knee bracing frame is appropriate as an energy dissipation system composed of ductility and lateral stiffness which has good performance against lateral loads specially earthquake. In this paper, forming plastic hinges of components and the base shear of different steel systems and comparing them with knee bracing lateral load system in three, five and seven -story frames using regulations of FEMA356 and ATC-40.
Highlights
Analyzed frames including moment frames, normal frames with chevron bracing, knee bracing, x bracing in three levels which are 3--story, 5--story and 7--story and three and five 5-meter -bay have been evaluated. -story height of all models has considered 3 meters
Structures are designed according to the UBC97, 6th code is used for gravity loading and 2800 code for lateral loading
Considering results, three--story, three --bay with knee bracing under the load pattern of the first mode has 17% decrease compared to the uniform load pattern; three--story, five--bay under modulus load pattern has 10% decrease compared to the uniform load pattern which shows the more number of knee component, the more will be the energy absorption and the less will be the base shear
Summary
Analyzed frames including moment frames, normal frames with chevron bracing, knee bracing, x bracing in three levels which are 3--story, 5--story and 7--story and three and five 5-meter -bay have been evaluated. -story height of all models has considered 3 meters. Considering results, three--story, three --bay with knee bracing under the load pattern of the first mode has 17% decrease compared to the uniform load pattern; three--story, five--bay under modulus load pattern has 10% decrease compared to the uniform load pattern which shows the more number of knee component, the more will be the energy absorption and the less will be the base shear.
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