Mechanical engineering design and manufacturing processes are fundamental to the development and production of innovative products across various industries. Over the years, advancements in these fields have significantly improved efficiency, precision, and sustainability, driving economic growth and technological progress. Modern design techniques leverage powerful tools such as Computer-Aided Design (CAD) software, finite element analysis (FEA), and digital simulation, enabling engineers to optimize complex designs with higher accuracy. On the manufacturing side, automation, Industry 4.0, additive manufacturing (3D printing), and artificial intelligence (AI) have emerged as transformative trends, revolutionizing production systems and minimizing resource wastage. Automation and robotics have enhanced productivity and quality control, while Industry 4.0 integrates cyber-physical systems, real-time data analytics, and IoT technologies to create smart factories. Additive manufacturing has introduced flexibility in prototyping and customized production, whereas AI and machine learning algorithms are being employed for predictive maintenance, process optimization, and intelligent decision-making.This review aims to provide a comprehensive analysis of these advancements and emerging trends, exploring their applications, benefits, and challenges in the context of mechanical engineering design and manufacturing. The paper highlights the role of sustainable practices, the integration of advanced materials, and the increasing reliance on digital technologies such as digital twins and augmented reality. By examining current developments and identifying future opportunities, this study seeks to offer valuable insights for researchers, engineers, and industry stakeholders to navigate the evolving landscape of mechanical engineering design and manufacturing processes effectively.
Olodu et al. (Mon,) studied this question.