International Journal For Multidisciplinary Research

E-ISSN: 2582-2160     Impact Factor: 9.24

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Application of Artificial Intelligence in Predictive Mechanical Design and Optimization

Author(s) Mr. Gaurav Ramesh Kumbhar
Country India
Abstract The integration of artificial intelligence (AI) with simulation-based methods is transforming predictive mechanical design by enabling faster, data-driven, and adaptive decision-making. Traditional approaches like finite element analysis (FEA) and computational fluid dynamics (CFD) are computationally expensive and often limited in handling highly nonlinear or multi-parameter systems. AI, particularly machine learning and deep learning, offers a breakthrough by learning implicit relationships from large datasets to create surrogate models that rapidly evaluate design alternatives at lower costs. Reinforcement learning enables autonomous exploration of design spaces, while evolutionary algorithms and generative design assist in discovering innovative structures and material distributions that meet strength, weight, and efficiency targets.
Reliability is enhanced through uncertainty quantification and probabilistic modelling, which predict design behaviour under varying conditions. Coupled with multi-physics simulations, AI accelerates optimization for aerodynamics, thermal management, fatigue life prediction, and additive manufacturing. Digital twins powered by sensor data further support predictive maintenance by forecasting failures and extending lifecycle performance. Additionally, combining AI with high-performance computing (HPC) enables real-time optimization of complex systems in aerospace, automotive, robotics, and energy sectors.
Future progress lies in hybrid AI-physics models that ensure predictive accuracy while preserving fundamental engineering laws, driving smarter, sustainable, and more reliable designs.
Field Computer > Artificial Intelligence / Simulation / Virtual Reality
Published In Volume 7, Issue 5, September-October 2025
Published On 2025-09-08
DOI https://doi.org/10.36948/ijfmr.2025.v07i05.55499
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E-ISSN 2582-2160
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