DESIGN OF SLIDING LEVER MECHANISM FOR REDUCING EARTHQUAKE ACCELERATION IN BUILDINGs USING ABAQUS
This project presents the design and simulation of a sliding lever mechanism aimed at reducing earthquake-induced acceleration in buildings. Using ABAQUS finite element analysis (FEA), the mechanism is modeled and analyzed to evaluate its effectiveness in dissipating seismic energy and minimizing structural vibrations. The study demonstrates how the sliding lever concept can enhance building stability, improve safety, and provide an innovative approach to seismic control in civil engineering applications.
$ 150
Discuss on WhatsApp
Send an EmailAccess to Original Files
Our packages include comprehensive design documentation, detailed analysis reports, and essential files, all readily available for download. This collection ensures that you have everything needed to replicate the project or adapt it to fit your specific needs.
Project Customization
If you’d like to improve or modify our featured project to better suit your requirements, we offer customization services. This includes adjusting design parameters, adding extra analyses, or creating variations tailored to your industry or application.
Tutoring & Consultation
Receive expert guidance on complex engineering concepts through comprehensive tutorials and live sessions, designed to help you understand and apply these subjects effectively. Our expert-led tutorials provide a clear, step-by-step guide to complex engineering concepts.