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Probing the phase composition and surface roughness in the biological response of additively manufactured titanium alloy bioimplants

Probing the phase composition and surface roughness in the biological response of additively manufactured titanium alloy bioimplants
Probing the phase composition and surface roughness in the biological response of additively manufactured titanium alloy bioimplants
Titanium alloys, mainly Ti-6Al-4V, are renowned for their impressive strength-to-weight ratio and stand as some of the most widely used metallic materials for bioimplants. Additive manufacturing introduces a paradigm shift in the short turnaround times for the availability of such implants. The biological performance of these implants is critical to ensure their success and is understood to be affected by a variety of factors, including surface characteristics and phase composition of the material, often determined by the manufacturing approach. The experimental investigation of the difference in biological performance caused by surface roughness and phase compositions resulting from manufacturing methods that involve laser powder bed fusion (LPBF) and hot isostatic pressing (HIP) has been conducted. Surface roughness was found to be the prevailing effect over the reported phase composition difference, with a relatively rougher surface seeming to be better for biological performance in this contribution. Meanwhile, HIP-ed Ti-6Al-4V samples exhibit better cell viability compared to that of the as-built LPBF-ed Ti-6Al-4V samples.
2470-1343
1388-1395
Yang, Lu
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Hou, Yanhao
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Meng, Duo
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Bagasol, Axieh
fa10a14d-b9aa-4376-97f7-b1b818b75461
Wu, Fan
305aac04-1f07-481f-90b9-781a3cb5a0c2
Browne, David J.
c6559397-00ba-4b16-b3ae-99a7720384a2
Dowling, Denis
e610b3da-6a39-458e-82b3-09e89d9faad9
Wang, Weiguang
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Mirihanage, Wajira
fc929099-b7ea-4127-886e-07f4ddc05b42
Yang, Lu
137d4b84-e283-4d52-be57-b9857c9e0ba1
Hou, Yanhao
fb285a4f-8235-429a-9095-31468811802a
Meng, Duo
6753f37f-a536-41f3-bc0f-878c8be30439
Bagasol, Axieh
fa10a14d-b9aa-4376-97f7-b1b818b75461
Wu, Fan
305aac04-1f07-481f-90b9-781a3cb5a0c2
Browne, David J.
c6559397-00ba-4b16-b3ae-99a7720384a2
Dowling, Denis
e610b3da-6a39-458e-82b3-09e89d9faad9
Wang, Weiguang
0cc699c0-e7b3-49d0-8c84-1e9d63f747d8
Mirihanage, Wajira
fc929099-b7ea-4127-886e-07f4ddc05b42

Yang, Lu, Hou, Yanhao, Meng, Duo, Bagasol, Axieh, Wu, Fan, Browne, David J., Dowling, Denis, Wang, Weiguang and Mirihanage, Wajira (2025) Probing the phase composition and surface roughness in the biological response of additively manufactured titanium alloy bioimplants. ACS Omega, 11 (1), 1388-1395. (doi:10.1021/acsomega.5c08853).

Record type: Article

Abstract

Titanium alloys, mainly Ti-6Al-4V, are renowned for their impressive strength-to-weight ratio and stand as some of the most widely used metallic materials for bioimplants. Additive manufacturing introduces a paradigm shift in the short turnaround times for the availability of such implants. The biological performance of these implants is critical to ensure their success and is understood to be affected by a variety of factors, including surface characteristics and phase composition of the material, often determined by the manufacturing approach. The experimental investigation of the difference in biological performance caused by surface roughness and phase compositions resulting from manufacturing methods that involve laser powder bed fusion (LPBF) and hot isostatic pressing (HIP) has been conducted. Surface roughness was found to be the prevailing effect over the reported phase composition difference, with a relatively rougher surface seeming to be better for biological performance in this contribution. Meanwhile, HIP-ed Ti-6Al-4V samples exhibit better cell viability compared to that of the as-built LPBF-ed Ti-6Al-4V samples.

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Accepted/In Press date: 17 December 2025
e-pub ahead of print date: 23 December 2025
Published date: 23 December 2025
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Identifiers

Local EPrints ID: 510854
URI: http://eprints.soton.ac.uk/id/eprint/510854
DOI: doi:10.1021/acsomega.5c08853
ISSN: 2470-1343
PURE UUID: d51a487a-b5ba-4153-a6ff-a157df74c76c
ORCID for Weiguang Wang: ORCID iD orcid.org/0000-0002-8959-329X

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Date deposited: 22 Apr 2026 17:01
Last modified: 23 Apr 2026 02:24

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Contributors

Author: Lu Yang
Author: Yanhao Hou
Author: Duo Meng
Author: Axieh Bagasol
Author: Fan Wu
Author: David J. Browne
Author: Denis Dowling
Author: Weiguang Wang ORCID iD
Author: Wajira Mirihanage

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