Strength through defects: a novel Bayesian approach for the optimization of architected materials
Strength through defects: a novel Bayesian approach for the optimization of architected materials
We use a previously unexplored Bayesian optimization framework, "evolutionary Monte Carlo sampling,"to systematically design the arrangement of defects in an architected microlattice to maximize its strain energy density before undergoing catastrophic failure. Our algorithm searches a design space with billions of 4 × 4 × 5 3D lattices, yet it finds the global optimum with only 250 cost function evaluations. Our optimum has a normalized strain energy density 12,464 times greater than its commonly studied defect-free counterpart. Traditional optimization is inefficient for this microlattice because (i) the design space has discrete, qualitative parameter states as input variables, (ii) the cost function is computationally expensive, and (iii) the design space is large. Our proposed framework is useful for architected materials and for many optimization problems in science and elucidates how defects can enhance the mechanical performance of architected materials.
Vangelatos, Zacharias
25af838c-8994-4ae3-9eea-146dde025bb9
Sheikh, Haris Moazam
631e12be-9394-41fd-8e90-6ab416df0d76
Marcus, Philip S.
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Grigoropoulos, Costas P.
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Lopez, Victor Z.
a4e16f1e-e720-4c15-85ae-2abaaa9a9e0b
Flamourakis, George
997a9b82-41ec-44ab-8abd-3fc14329b19f
Farsari, Maria
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8 October 2021
Vangelatos, Zacharias
25af838c-8994-4ae3-9eea-146dde025bb9
Sheikh, Haris Moazam
631e12be-9394-41fd-8e90-6ab416df0d76
Marcus, Philip S.
71925db3-fc73-4df3-93ea-fecc0bd6412b
Grigoropoulos, Costas P.
917b5685-51cf-44f6-ae60-6c7ca5821af9
Lopez, Victor Z.
a4e16f1e-e720-4c15-85ae-2abaaa9a9e0b
Flamourakis, George
997a9b82-41ec-44ab-8abd-3fc14329b19f
Farsari, Maria
12483c07-22dc-49c8-ae9b-7689e8b42915
Vangelatos, Zacharias, Sheikh, Haris Moazam, Marcus, Philip S., Grigoropoulos, Costas P., Lopez, Victor Z., Flamourakis, George and Farsari, Maria
(2021)
Strength through defects: a novel Bayesian approach for the optimization of architected materials.
Science Advances, 7 (41), [abk2218].
(doi:10.1126/sciadv.abk2218).
Abstract
We use a previously unexplored Bayesian optimization framework, "evolutionary Monte Carlo sampling,"to systematically design the arrangement of defects in an architected microlattice to maximize its strain energy density before undergoing catastrophic failure. Our algorithm searches a design space with billions of 4 × 4 × 5 3D lattices, yet it finds the global optimum with only 250 cost function evaluations. Our optimum has a normalized strain energy density 12,464 times greater than its commonly studied defect-free counterpart. Traditional optimization is inefficient for this microlattice because (i) the design space has discrete, qualitative parameter states as input variables, (ii) the cost function is computationally expensive, and (iii) the design space is large. Our proposed framework is useful for architected materials and for many optimization problems in science and elucidates how defects can enhance the mechanical performance of architected materials.
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sciadv.abk2218
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Accepted/In Press date: 17 August 2021
Published date: 8 October 2021
Identifiers
Local EPrints ID: 493431
URI: http://eprints.soton.ac.uk/id/eprint/493431
ISSN: 2375-2548
PURE UUID: 6cc05657-5a0c-4a08-9f97-dd657275d020
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Date deposited: 03 Sep 2024 16:32
Last modified: 04 Sep 2024 02:10
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Author:
Zacharias Vangelatos
Author:
Haris Moazam Sheikh
Author:
Philip S. Marcus
Author:
Costas P. Grigoropoulos
Author:
Victor Z. Lopez
Author:
George Flamourakis
Author:
Maria Farsari
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