Fracture toughness characteristics of additively manufactured Ti–6Al–4V lattices
Fracture toughness characteristics of additively manufactured Ti–6Al–4V lattices
Metallic lattice structures are well known for having high specific elastic moduli and strength. However, very little is understood about their resistance to fracture. In this work Ti–6Al–4V lattice structures are additively manufactured by selective laser melting and their fracture toughness characteristics are investigated. Resistance to fracture was determined under Mode-I loading at static rates using an extended compact tension (EC(T)) specimen, modified to contain lattice cells. The lattices consist of octet cells with a 3.5 mm edge length and relative densities ranging from 25% to 56%. Toughness is shown to increase by a power law with relative density and this trend was also obtained with finite element models. A new functional grading optimisation methodology is also presented for increasing fracture toughness. The size optimisation results in a functionally graded lattice whereby lattice truss diameters become the design variables. After size optimisation, initiation fracture toughness increases by up to 37%.
Daynes, Stephen
fb4db665-f7d7-45bf-8169-71cfecabd78d
Lifton, Joseph
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Lu, Wen Feng
adc614af-e9e9-41a5-8383-a65dc126443e
Wei, Jun
97e9dc80-1469-4a51-9272-7d204a02b6c5
17 November 2020
Daynes, Stephen
fb4db665-f7d7-45bf-8169-71cfecabd78d
Lifton, Joseph
9be501ec-2742-4ab6-8a5a-996c5b7c23ae
Lu, Wen Feng
adc614af-e9e9-41a5-8383-a65dc126443e
Wei, Jun
97e9dc80-1469-4a51-9272-7d204a02b6c5
Daynes, Stephen, Lifton, Joseph, Lu, Wen Feng and Wei, Jun
(2020)
Fracture toughness characteristics of additively manufactured Ti–6Al–4V lattices.
European Journal of Mechanics - A/Solids, 86, [104170].
(doi:10.1016/j.euromechsol.2020.104170).
Abstract
Metallic lattice structures are well known for having high specific elastic moduli and strength. However, very little is understood about their resistance to fracture. In this work Ti–6Al–4V lattice structures are additively manufactured by selective laser melting and their fracture toughness characteristics are investigated. Resistance to fracture was determined under Mode-I loading at static rates using an extended compact tension (EC(T)) specimen, modified to contain lattice cells. The lattices consist of octet cells with a 3.5 mm edge length and relative densities ranging from 25% to 56%. Toughness is shown to increase by a power law with relative density and this trend was also obtained with finite element models. A new functional grading optimisation methodology is also presented for increasing fracture toughness. The size optimisation results in a functionally graded lattice whereby lattice truss diameters become the design variables. After size optimisation, initiation fracture toughness increases by up to 37%.
This record has no associated files available for download.
More information
Accepted/In Press date: 30 October 2020
e-pub ahead of print date: 4 November 2020
Published date: 17 November 2020
Identifiers
Local EPrints ID: 499578
URI: http://eprints.soton.ac.uk/id/eprint/499578
ISSN: 0997-7538
PURE UUID: 691c1823-ebac-4e24-8d96-16623e086a46
Catalogue record
Date deposited: 27 Mar 2025 17:33
Last modified: 28 Mar 2025 03:15
Export record
Altmetrics
Contributors
Author:
Stephen Daynes
Author:
Joseph Lifton
Author:
Wen Feng Lu
Author:
Jun Wei
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics