Architected materials, which are designed and engineered with specific microstructures, hold great promise for healthcare applications. In particular, tensile samples based on architected materials exhibit unique properties that can address key challenges in medical devices and implants. By precisely controlling the architecture at the micro- and nano-scale, these materials can be optimized for high strength-to-weight ratio, tunable stiffness, and enhanced biocompatibility.

DOI Link: 
10.21227/8865-vn62
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[1] Akshansh Mishra, "Graph Architected Lattice Materials based Tensile Samples", IEEE Dataport, 2025. [Online]. Available: http://dx.doi.org/10.21227/8865-vn62. Accessed: Mar. 22, 2025.
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url = {http://dx.doi.org/10.21227/8865-vn62},
author = {Akshansh Mishra },
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title = {Graph Architected Lattice Materials based Tensile Samples},
year = {2025} }
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T1 - Graph Architected Lattice Materials based Tensile Samples
AU - Akshansh Mishra
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Akshansh Mishra. (2025). Graph Architected Lattice Materials based Tensile Samples. IEEE Dataport. http://dx.doi.org/10.21227/8865-vn62
Akshansh Mishra, 2025. Graph Architected Lattice Materials based Tensile Samples. Available at: http://dx.doi.org/10.21227/8865-vn62.
Akshansh Mishra. (2025). "Graph Architected Lattice Materials based Tensile Samples." Web.
1. Akshansh Mishra. Graph Architected Lattice Materials based Tensile Samples [Internet]. IEEE Dataport; 2025. Available from : http://dx.doi.org/10.21227/8865-vn62
Akshansh Mishra. "Graph Architected Lattice Materials based Tensile Samples." doi: 10.21227/8865-vn62