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Abstract Bounds on the mechanical properties provide fundamental guidelines for finding materials or structures with extreme mechanical performance. However, the bounds on some important mechanical properties, such as Young's modulus and tensile strength, still remain unknown, while the search for target extreme materials from infinite potential materials of element combinations across the periodic table is challenging. It has long been questioned: have we approached the bounds on these mechanical properties? Is there a material that is stiffer or harder than diamond? To determine the bounds on the mechanical properties and to find materials or structures with extreme mechanical performance, the key is to understand and quantify the structure-property relationship. In the past decades, many attempts and achievements have been made to model the structure-property relationship, including empirical/semiempirical formulas and first-principles calculations, while these approaches often suffer from limitations in terms of accuracy, efficiency, universality, or interpretability. With the accumulation of knowledge and data, knowledge and data‐driven understanding and modeling of structure-property relationships have shown immense potential. Under the knowledge and data‐driven framework, recent studies have developed powerful theories of structure-property relationships. Based on these structure-property relationships, the material properties can be predicted from the structures, and conversely, the structures can be designed for target material properties. Consequently, the bounds on some important mechanical properties have been determined, and numerous materials or structures with mechanical properties close to the theoretical bounds have been designed and fabricated. Our work provides an overview of the recent progress in these explorations of the bounds on the mechanical properties. First, we present the advances in knowledge and data‐driven approaches for understanding and modeling of structure-property relationships. Then, we review the determined bounds on the mechanical properties and discovered materials or structures with extreme mechanical performance based on the knowledge and data-driven approaches. Finally, the challenges, opportunities, and some future directions are discussed.
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Received: 26 October 2023
Published: 11 April 2024
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2024, Vol. 45 
