High-Entropy Alloys 1st Edition

Discover the cutting edge of alloy design with High-Entropy Alloys, 1st Edition by Ghulam Yasin, Muhammad Abubaker Khan, Mohamed Afifi, Tuan Anh Nguyen, and Yong Zhang. This authoritative volume introduces the transformative concept of high-entropy alloys (HEAs) and maps their rapid rise from curiosity to cornerstone of modern materials science.

Packed with clear explanations and up-to-date research, the book explains thermodynamic principles, phase formation, microstructure evolution, mechanical behavior, corrosion resistance, and processing routes—covering conventional metallurgy, thermomechanical treatments, and advanced techniques like additive manufacturing. Readers will find practical insights into alloy design strategies, computational modeling, and property optimization for structural, aerospace, and energy applications.

Whether you’re a graduate student, academic researcher, or practicing materials engineer, this text translates complex theory into actionable knowledge. Case studies and comparative analyses highlight real-world performance across environments and industries, making it especially useful for teams working in R&D hubs across Asia, Europe, and North America.

Engaging and rigorously referenced, High-Entropy Alloys is both a classroom-ready textbook and a hands-on reference for alloy development projects. It equips you to evaluate HEAs for lightweight structures, high-temperature service, wear-resistant components, and next-generation devices.

Add this essential resource to your library and stay at the forefront of alloy innovation. Perfect for university courses, lab groups, and engineering departments aiming to harness the unique properties of HEAs for global industrial challenges.

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