In seismic regions, the design and construction of earthquake-resistant buildings are paramount to mitigating structural damage and safeguarding human lives. The case study analyses several methods used to develop earthquake-resistant structures, emphasizing how well they reduce seismic hazards. The study evaluates structural dynamics, material properties, and architectural considerations that contribute to enhancing seismic performance. Important methodologies include a comparative analysis of different structural systems such as base isolation, damping systems, and reinforced concrete frames structures. Through a series of case examples from earthquake prone regions globally, the study examines real-world applications of these techniques and their outcomes during seismic events.

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Design of G+4 Storey Building with Base Isolation Techniques

  • Sayali Dharne,
  • Shila kamble,
  • Vinayak Patil,
  • Akansha mohite,
  • Rahaul Phad,
  • Praveen Rathod

摘要

In seismic regions, the design and construction of earthquake-resistant buildings are paramount to mitigating structural damage and safeguarding human lives. The case study analyses several methods used to develop earthquake-resistant structures, emphasizing how well they reduce seismic hazards. The study evaluates structural dynamics, material properties, and architectural considerations that contribute to enhancing seismic performance. Important methodologies include a comparative analysis of different structural systems such as base isolation, damping systems, and reinforced concrete frames structures. Through a series of case examples from earthquake prone regions globally, the study examines real-world applications of these techniques and their outcomes during seismic events.