Associate Professor Mark Andrew Battley
PhD (MechEng), BE(Hons)
Following his BE (Hons) and PhD at the University of Auckland's Department of Mechanical Engineering, Mark worked as a Research Engineer for Industrial Research Limited from 1992 to 2005. He also worked at the Royal Institute of Technology, Stockholm Sweden from 1995 to 1996. In 2006 Mark joined Uniservices, working for the University of Auckland's Centre for Advanced Composite Materials (CACM) and established Applied Engineering Research Limited. In 2015 Mark joined the Department of Engineering Science at the University of Auckland, also continuing in his role as the Deputy Director of CACM.
Research | Current
My primary research interests are in novel computational modelling and experimental characterisation for materials and structures with complex physical processes. This includes the effects of geometric and material non-linear behaviour, dynamic loads, fluid-structure interaction, and the effects of defects and damage on structural performance, particularly for fibre reinforced polymer composites and sandwich structures. Application areas include aviation, marine, automotive, sporting equipment and building and infrastructure.
I also have research interests in sporting equipment and its interaction with athletes, non-destructive inspection methods for materials and structures, and development of novel testing and instrumentation systems for laboratory and in-field measurements. Other interests include additive manufacturing processes for high performance composites and application of digital manufacturing processes to reduce cost and increase product quality.
Teaching | Current
ENGSCI 363 Modelling and Design 2
MECHENG 743 Composite Materials
- Thomas Billac (PhD), “Numerical and experimental investigation of water impact of composite helicopter structures”
- Henry Ling (PhD), “Damage characterisation of natural fibre and hybrid laminates for sports equipment”
- Abhiram Ramesh (PhD), “Effects of imperfections and defects on the structural integrity of high performance composite structures”
- Kariappa Karumbaiah (PhD), “Simulation and characterisation of fatigue behaviour of composite laminates”
- John Weber (PhD), “Structural response of curved sandwich panels subjected to water slamming”
- Youming Chen (PhD), “Micromechanical characterisation and modelling of closed-cell foams”
- Sam Stone (ME), “Failure mechanics of honeycomb core materials for high performance marine applications”
- Tom Allen (PhD), “Mechanics of flexible composite hull panels subjected to water impacts
- Richard Stubbing (PhD), “Characterisation of polymeric foam cores using digital image correlation”
- Stephen Kavermann (PhD), “Properties of lightweight sandwich panels with corrugated plywood core”
- Nathan Bailey (PhD), “Damage tolerance of aeronautical sandwich structures subjected to dynamic compression loads”
- Anton Koellner (ME), “Development of a measurement and analysis system for bicycle field test studies to determine structural responses”
- Baptiste Cartier (MEngSt),”Phased array ultrasonic inspection of advanced composite laminates”
- Ben Conway (MEngSt), “Numerical modelling and experimental validation of water impact (slamming) on composite sandwich beams with T-joints”
Deputy Director, Centre for Advanced Composite Materials
Areas of expertise
My primary research areas are in analysis, design and experimental characterisation for composite materials and structures. This includes a particular focus on the effects of non-linear behaviour, dynamic loads, and the effects of damage on structural performance. I also have knowledge of advanced mechanics of materials, polymers, and metals, manufacturing processes for composites and polymers, mechanical engineering design, dynamics of mechanical systems, and coupled fluid-structure behaviour.
Newmarket Campus Director's Group
Innovation in Materials and Manufacturing Committee
Vice-President, Composites Association of NZ
Selected publications and creative works (Research Outputs)
- Karumbaiah, K. M., Kracke, C., Battley, M., Bickerton, S., & Allen, T. (2019). Damage assessment of carbon-epoxy composites with and without resin flow channels. COMPOSITE STRUCTURES, 211, 213-220. 10.1016/j.compstruct.2018.12.039
Other University of Auckland co-authors: Tom Allen, Simon Bickerton
- Chen, Y., Das, R., Battley, M., & Xu, Z. (2018). Compressive and shear strengths of the ductile closed-cell Kelvin and Weaire-Phelan foams along the lattice direction . THIN-WALLED STRUCTURES, 132, 237-249. 10.1016/j.tws.2018.07.029
- Chen, Y., Das, R., & Battley, M. (2018). Experimental study on in-plane compressive response of irregular honeycombs. Journal of Composite Materials, 52 (8), 1121-1135. 10.1177/0021998317749964
Other University of Auckland co-authors: Raj Das
- Netzel, C., Mordasini, A., Schubert, J., Bickerton, S., Hubert, P., Battley, M., & Hickey, C. (2018). An experimental study of defect deformation in corners by autoclave processing of prepreg material. International SAMPE Technical Conference.
Other University of Auckland co-authors: Simon Bickerton
- Chen, Y., Das, R., & Battley, M. (2018). An Approach for Characterising Cellular Polymeric Foam Structures using Computed Tomography. Paper presented at 7th International Conference on Structural Analysis of Advanced Materials (ICSAAM), Bucharest, ROMANIA. 19 September - 22 September 2017. 7TH INTERNATIONAL CONFERENCE ON STRUCTURAL ANALYSIS OF ADVANCED MATERIALS (ICSAAM 2017). (pp. 17). 10.1063/1.5024146
Other University of Auckland co-authors: Raj Das
- Chen, Y., Das, R., & Battley, M. (2017). Effects of cell size and cell wall thickness variations on the strength of closed-cell foams. International Journal of Engineering Science, 120, 220-240. 10.1016/j.ijengsci.2017.08.006
- Chen, Y., Das, R., & Battley, M. (2017). Effects of cell size and cell wall thickness variations on the strength of closed-cell foams using laguerre tessellation. ICCM International Conferences on Composite Materials.
- Chen, Y., Das, R., & Battley, M. (2017). Analysis of compression and shear strengths of closed-cell foams based on the kelvin and weaire-phelan structures. 9th Australasian Congress on Applied Mechanics, ACAM 2017.