Mark Battley

1.3k total citations
63 papers, 967 citations indexed

About

Mark Battley is a scholar working on Mechanical Engineering, Computational Mechanics and Mechanics of Materials. According to data from OpenAlex, Mark Battley has authored 63 papers receiving a total of 967 indexed citations (citations by other indexed papers that have themselves been cited), including 45 papers in Mechanical Engineering, 18 papers in Computational Mechanics and 16 papers in Mechanics of Materials. Recurrent topics in Mark Battley's work include Fluid Dynamics Simulations and Interactions (18 papers), Cellular and Composite Structures (18 papers) and Mechanical Behavior of Composites (12 papers). Mark Battley is often cited by papers focused on Fluid Dynamics Simulations and Interactions (18 papers), Cellular and Composite Structures (18 papers) and Mechanical Behavior of Composites (12 papers). Mark Battley collaborates with scholars based in New Zealand, Australia and United Kingdom. Mark Battley's co-authors include Tom Allen, Raj Das, Youming Chen, Simon Bickerton, Ivan Stenius, Anders Rosén, Nathan W. Bailey, Maedeh Amirpour, G. A. Kardomateas and James Carpenter and has published in prestigious journals such as Journal of Applied Mechanics, Journal of Materials Science and International Journal of Solids and Structures.

In The Last Decade

Mark Battley

57 papers receiving 935 citations

Peers — A (Enhanced Table)

Peers by citation overlap · career bar shows stage (early→late) cites · hero ref

Name h Career Trend Papers Cites
Mark Battley New Zealand 18 542 288 278 268 164 63 967
Felice Rubino Italy 20 1.0k 1.9× 68 0.2× 458 1.6× 272 1.0× 108 0.7× 59 1.5k
Hassan Elgamal Egypt 14 315 0.6× 105 0.4× 121 0.4× 92 0.3× 99 0.6× 52 636
Ilaria Papa Italy 20 639 1.2× 145 0.5× 647 2.3× 494 1.8× 188 1.1× 99 1.3k
David Sypeck United States 14 995 1.8× 158 0.5× 273 1.0× 272 1.0× 177 1.1× 26 1.2k
Onur Çoban Türkiye 18 775 1.4× 131 0.5× 1.1k 4.1× 440 1.6× 274 1.7× 47 1.6k
Antonio Formisano Italy 17 745 1.4× 252 0.9× 551 2.0× 245 0.9× 135 0.8× 73 1.0k
Maojun Li China 21 1.0k 1.9× 297 1.0× 366 1.3× 89 0.3× 216 1.3× 97 1.4k
J. F. Mandell United States 21 673 1.2× 81 0.3× 1.2k 4.5× 303 1.1× 391 2.4× 106 1.7k
H.S. da Costa Mattos Brazil 22 690 1.3× 84 0.3× 900 3.2× 304 1.1× 570 3.5× 106 1.6k
Andrea Avanzini Italy 17 355 0.7× 51 0.2× 215 0.8× 104 0.4× 38 0.2× 48 723

Countries citing papers authored by Mark Battley

Since Specialization
Citations

This map shows the geographic impact of Mark Battley's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Mark Battley with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Mark Battley more than expected).

Fields of papers citing papers by Mark Battley

Since Specialization
Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Mark Battley. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Mark Battley. The network helps show where Mark Battley may publish in the future.

Co-authorship network of co-authors of Mark Battley

This figure shows the co-authorship network connecting the top 25 collaborators of Mark Battley. A scholar is included among the top collaborators of Mark Battley based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Mark Battley. Mark Battley is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

20 of 20 papers shown
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Battley, Mark, et al.. (2025). The effects of hydroelasticity on stringer-stiffened composite panels in water impacts: An experimental study. Ocean Engineering. 345. 123594–123594.
3.
Battley, Mark, et al.. (2025). Static and dynamic optimisation of fluid-filled responsive orthotic insoles. Biomechanics and Modeling in Mechanobiology. 24(2). 713–741. 2 indexed citations
4.
Kelly, Piaras, et al.. (2024). A friction-based method for measuring the radial compaction response of fibre tows. Composites Part A Applied Science and Manufacturing. 188. 108541–108541. 1 indexed citations
5.
Battley, Mark, et al.. (2024). Application of laboratory dam break experiments to non-impulsive wave overtopping. Coastal Engineering. 198. 104695–104695.
6.
Battley, Mark, et al.. (2024). On the influence of flow-front orientation on stringer stiffened composite panels in water impacts. Ocean Engineering. 303. 117797–117797. 1 indexed citations
7.
Battley, Mark, et al.. (2024). Fluid-filled lattices for responsive orthotic insoles. Smart Materials and Structures. 33(11). 115034–115034. 5 indexed citations
8.
Battley, Mark, et al.. (2024). The mechanical response of polymeric gyroid structures in an optimised orthotic insole. Biomechanics and Modeling in Mechanobiology. 24(1). 311–329. 2 indexed citations
9.
McDonald‐Wharry, John, et al.. (2021). Moisture sensitivity and compressive performance of 3D-printed cellulose-biopolyester foam lattices. Additive manufacturing. 40. 101918–101918. 13 indexed citations
10.
Battley, Mark, et al.. (2020). Influence of dissolved gasses in epoxy resin on resin infusion part quality. Composites Part A Applied Science and Manufacturing. 132. 105818–105818. 8 indexed citations
11.
Fabro, Adriano Todorovic, et al.. (2015). Estimation of random field material properties for chopped fibre composites and application to vibration modelling. Composite Structures. 125. 1–12. 8 indexed citations
12.
Chen, Youming, Raj Das, & Mark Battley. (2014). Effects of cell size and cell wall thickness variations on the stiffness of closed-cell foams. International Journal of Solids and Structures. 52. 150–164. 123 indexed citations
13.
Shim, Vickie, Mark Battley, Iain A. Anderson, & Jacob T. Munro. (2014). Validation of an efficient method of assigning material properties in finite element analysis of pelvic bone. Computer Methods in Biomechanics & Biomedical Engineering. 18(14). 1495–1499. 15 indexed citations
14.
Ferguson, W. G., G. Charles Clifton, M. Hodgson, et al.. (2014). Non-destructive method to investigate the hardness-plastic strain relationship in cyclically deformed structural steel elements. Bulletin of the New Zealand Society for Earthquake Engineering. 47(3). 181–189. 1 indexed citations
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Bickerton, Simon, et al.. (2012). Quantifying variability within glass fibre reinforcements using an automated optical method. Composites Part A Applied Science and Manufacturing. 43(8). 1169–1176. 19 indexed citations
17.
Newman, Roger H., Mark Battley, James Carpenter, & Marie-Joo Le Guen. (2011). Energy loss in a unidirectional flax-polyester composite subjected to multiple tensile load–unload cycles. Journal of Materials Science. 47(3). 1164–1170. 12 indexed citations
18.
Battley, Mark, et al.. (2010). Shear Strength Optimization of Reinforced Honeycomb Core Materials. Mechanics of Advanced Materials and Structures. 17(7). 542–552. 15 indexed citations
19.
Battley, Mark, et al.. (2009). EFFECTS OF PANEL STIFFNESS ON SLAMMING RESPONSES OF COMPOSITE HULL PANELS. Zenodo (CERN European Organization for Nuclear Research). 1–11. 16 indexed citations
20.
Battley, Mark & Ivan Stenius. (2003). DYNAMICALLY LOADED MARINE COMPOSITE STRUCTURES. Zenodo (CERN European Organization for Nuclear Research). 8 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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