Metaheuristics-Based Materials Optimization

Capture the forefront of computational materials design with Metaheuristics-Based Materials Optimization, authored by Harbinder Singh, Shailendra Rajput, and Abhishek Sharma. This authoritative text draws readers into a practical, research-driven approach to solving complex materials problems using modern metaheuristic strategies.

Begin with a clear view of why metaheuristics matter: real-world materials challenges—from alloy development to composite design—demand flexible, scalable optimization techniques. The authors present intuitive explanations of core metaheuristic methods and their advantages over traditional deterministic approaches, making the subject accessible without sacrificing rigor.

Explore in-depth discussions of contemporary algorithms and workflows, illustrated through realistic examples and comparative analyses. The book balances theory with application: algorithm selection, parameter tuning, objective formulation, and multi-objective trade-offs are all demystified. Emphasis on reproducible practices and performance evaluation equips researchers and engineers to implement solutions across laboratory and industrial settings.

Designed for graduate students, R&D engineers, and materials scientists worldwide, this volume is particularly relevant to professionals in manufacturing, aerospace, energy, and electronics sectors seeking to accelerate materials discovery and optimization. With contributions from recognized authors in computational materials research, the text bridges academic insight and industry-ready techniques.

Whether you’re building simulation pipelines, improving material properties, or teaching advanced optimization, this book is a practical companion for advancing your work. Secure your copy of Metaheuristics-Based Materials Optimization by Harbinder Singh, Shailendra Rajput, and Abhishek Sharma today and transform how your team approaches materials design and optimization.

Note: eBooks do not include supplementary materials such as CDs, access codes, etc.