Biomimetic Lattice Structures Design and Manufacturing for High Stress, Deformation, and Energy Absorption Performance.

additive manufacturing; biomimetic materials; computational modeling; energy absorption; hierarchical lattices; lattice structures; mechanical optimization; multi-scale experimental validation; smart materials; topology optimization; Computational modelling; Energy; Experimental validations; Hierarchical lattice; Multi-scales; Structure design; Topology optimisation; Biotechnology; Bioengineering; Biomaterials; Biochemistry; Biomedical Engineering; Molecular Medicine

Abstract :

[en] Lattice structures emerged as a revolutionary class of materials with significant applications in aerospace, biomedical engineering, and mechanical design due to their exceptional strength-to-weight ratio, energy absorption properties, and structural efficiency. This review systematically examines recent advancements in lattice structures, with a focus on their classification, mechanical behavior, and optimization methodologies. Stress distribution, deformation capacity, energy absorption, and computational modeling challenges are critically analyzed, highlighting the impact of manufacturing defects on structural integrity. The review explores the latest progress in hybrid additive manufacturing, hierarchical lattice structures, modeling and simulation, and smart adaptive materials, emphasizing their potential for self-healing and real-time monitoring applications. Furthermore, key research gaps are identified, including the need for improved predictive computational models using artificial intelligence, scalable manufacturing techniques, and multi-functional lattice systems integrating thermal, acoustic, and impact resistance properties. Future directions emphasize cost-effective material development, sustainability considerations, and enhanced experimental validation across multiple length scales. This work provides a comprehensive foundation for future research aimed at optimizing biomimetic lattice structures for enhanced mechanical performance, scalability, and industrial applicability.

Disciplines :

Mechanical engineering

Author, co-author :

Tuninetti, Victor ; Université de Liège - ULiège > Département ArGEnCo ; Department of Mechanical Engineering, Universidad de La Frontera, Temuco 4811230, Chile

Narayan, Sunny ; Department of Mechanics and Advanced Materials, Campus Monterrey, School of Engineering and Sciences, Tecnológico de Monterrey, Av. Eugenio Garza Sada 2501 Sur, Tecnológico, Monterrey 64849, Mexico

Ríos, Ignacio; Master Program in Engineering Sciences, Faculty of Engineering, Universidad de La Frontera, Temuco 4811230, Chile

Menacer, Brahim ; Laboratoire des Systèmes Complexe (LSC), Ecole Supérieure en Génie Electrique et Energétique ESGEE Oran, Chemin Vicinal N9, Oran 31000, Algeria

Valle, Rodrigo ; Facultad de Arquitectura, Construcción y Medio Ambiente, Universidad Autónoma de Chile, Talca 3460000, Chile

Al-Lehaibi, Moaz ; Mechanical Engineering Department, College of Engineering and Architecture, Umm Al-Qura University, P.O. Box 5555, Makkah 24382, Saudi Arabia

Kaisan, Muhammad Usman ; Industrial Finishing and Sustainable Manufacturing Lab, Department of Mechanical Engineering, Ahmadu Bello University, Zaria 810107, Nigeria

Samuel, Joseph ; Department of Mechanical Engineering, Baze University, Abuja 900108, Nigeria

Oñate, Angelo ; Department of Materials Engineering (DIMAT), Faculty of Engineering, Universidad de Concepción, Concepción 4070138, Chile

Pincheira, Gonzalo ; Department of Industrial Technologies, Faculty of Engineering, University of Talca, Camino a Los Niches Km 1, Curicó 3344158, Chile

More authors (3 more)

Language :

English

Title :

Biomimetic Lattice Structures Design and Manufacturing for High Stress, Deformation, and Energy Absorption Performance.

Publication date :

12 July 2025

Journal title :

Biomimetics

eISSN :

2313-7673

Publisher :

Multidisciplinary Digital Publishing Institute (MDPI), Switzerland

Volume :

Issue :

Pages :

458

Peer reviewed :

Peer Reviewed verified by ORBi

Additional URL :

https://www.mdpi.com/2313-7673/10/7/458/pdf

Available on ORBi :

since 11 March 2026

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