Parker, Anthony James
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Rouillard, Vincent, Sek, Michael A and Parker, Anthony James (2005) Characterising the Non-Linear Behaviour of Polymeric Foam Cushions. In: Proceedings: 12th Annual International Conference on Composites/Nano Engineering (ICCE-12). Hui, David, ed. International Community for Composites/Nano Engineering.
Parker, Anthony James, Rouillard, Vincent and Sek, Michael A (2005) The Non-Linear Characteristics of Cushioning Materials. In: 4th Australasian Congress on Applied Mechanics (ACAM2005). Xie, M, Mouritz, A. P, Afaghi Khatibi, A, Gardiner, C and Chiu, W. K, eds. Curran Associates, Inc, New York, pp. 739-744.
2007
Parker, Anthony James (2007) A method of characterisation of the nonlinear vibration transmissibility of cushioning materials. PhD thesis, Victoria University.
Sek, Michael A, Rouillard, Vincent and Parker, Anthony James (2007) Characterisation of the Nonlinear Behaviour of Expanded Polystyrene Cushions. Applied Mechanics and Materials, 7-8. pp. 283-288. ISSN 1660-9336 (print) 1662-7482 (online)
2012
Lamb, Matthew and Parker, Anthony James (2012) Improving Structural integrity assessment of nonlinear packaging materials. In: Proceedings: the 7th Australasian Congress on Applied Mechanics (ACAM 7). Engineers Australia, Barton, A.C.T., pp. 439-448.
April 2013
Sek, Michael A, Rouillard, Vincent and Parker, Anthony James (2013) A Study of Nonlinear Effects in a Cushion-Product System on its Vibration Transmissibility Estimates with the Reverse Multiple Input–Single Output Technique. Packaging Technology and Science, 26 (3). pp. 125-135. ISSN 0894-3214 (print) 1099-1522 (online)
2014
Lamb, Matthew and Parker, Anthony James (2014) Estimation of the Dynamic Properties of Non-linear Packaging Materials Using a Reverse Multiple Input/Single Output Based Approach. Packaging technology and science. ISSN 1099-1522 (print) 0894-3214 (online)
August 2015
Lamb, Matthew ORCID: 0000-0003-3971-7490 and Parker, Anthony James (2015) Monitoring the Condition of Non-linear Packaging Materials Subject to Varying Excitation Levels Using a Reverse Multiple Input/Single Output Based Approach. Packaging Technology and Science, 28. 683 - 693. ISSN 0894-3214