[1]Pagano, N.J. and Schoeppner, G.A., “Delamination of Polymer Matrix Composites : Problems and Assessment,” . In: Comprehensive Composite Materials. pp. 433–528, 2000.
[2]Piggott, M.R., “Mechanical Aging,” . In: Wiley Encyclopedia of Composites. John Wiley & Sons, Inc., Hoboken, NJ, USA, 2012.
[3]Pochiraju, K.V. Tandon, G.P. and Schoeppner, G.A., “Long-Term Durability of Polymeric Matrix Composites,” Springer US, Boston, MA, 2012.
[4]Martin, R., “Ageing of Composites,” Elsevier Science, 2008.
[5]Zenasni, R. Bachir, A.S. Garcia, M.A. Argüelles, A. and Viña, J., “Hygrothermal Aging Effect on the Interlaminar Fracture of Woven Fabric Fibre/ PEI Composite Material,” Sci. Eng. Compos. Mater., Vol. 11, No. 4, pp. 225–230, 2004.
[6]Zenasni, R. Bachir, A.S. Viña, I. Arguelles, A. and Viña, J., “Effect of Hygrothermomechanical Aging on the Interlaminar Fracture Behavior of Woven Fabric Fiber/PEI Composite Materials,” J. Thermoplast. Compos. Mater., Vol. 19, No. 4, pp. 385–398, 2006.
[7]Selzer, R. and Friedrich, K., “Influence of Water Up-Take on Interlaminar Fracture Properties of Carbon Fibre-Reinforced Polymer Composites,” J. Mater. Sci., Vol. 30, No. 2, pp. 334–338, 1995.
[8]Zhao, Y. Liu, W. Seah, L.K. and Chai, G.B., “Delamination growth behavior of a woven E-glass/bismaleimide composite in seawater environment,” Compos. Part B Eng., Vol. 106, No. 20, pp. 332–343, 2016.
[9]Scida, D. Aboura, Z. and Benzeggagh, M.L., “The Effect of Ageing on the Damage Events in Woven-Fibre Composite Materials under Different Loading Conditions,” Compos. Sci. Technol., Vol. 62, No. 4, pp. 551–557, 2002.
[10]Alessi, S. Pitarresi, G. and Spadaro, G., “Effect of Hydrothermal Ageing on the Thermal and Delamination Fracture Behaviour of CFRP Composites,” Compos. Part B Eng., Vol. 67, pp. 145–153, 2014.
[11]Srivastava, V.K. and Hogg, P.J., “Moisture Effects on the Toughness, Mode-I and Mode-II of Particles Filled Quasi-Isotropic Glass-Fibre Reinforced Polyester Resin Composites,” J. Mater. Sci., Vol. 33, No. 5, pp. 1129–1136, 1998.
[12]Nash, N.H. Young, T.M. and Stanley, W.F., “The Reversibility of Mode-I and -II Interlaminar Fracture Toughness after Hydrothermal Aging of Carbon/Benzoxazine Composites with a Thermoplastic Toughening Interlayer,” Compos. Struct., Vol. 152, pp. 558–567, 2016.
[13]Almansour, F.A. Dhakal, H.N. and Zhang, Z.Y., “Effect of Water Absorption on Mode I Interlaminar Fracture Toughness of Flax/Basalt Reinforced Vinyl Ester Hybrid Composites,” Compos. Struct., Vol. 168, pp. 813–825, 2017.
[14]Kootsookos, A. and Mouritz, A.P., “Seawater Durability of Glass- and Carbon-Polymer Composites,” Compos. Sci. Technol., Vol. 64, No. 10–11, pp. 1503–1511, 2004.
[15]Amini, M. and Khavandi, A., “Evaluation of the water absorption content effect on the dielectric properties and tensile strength of polymer composites,” J. Sci. Technol. Compos., 2019.
[16]Cheng, X. Zhang, Q. Zhang, J. Guo, X. and Niu, Z., “Parameters prediction of cohesive zone model for simulating composite/adhesive delamination in hygrothermal environments,” Compos. Part B Eng., Vol. 166, No. January, pp. 710–721, 2019.
[17]Viana, G. Costa, M. Banea, M.D. and da Silva, L.F.M., “Water Diffusion in Double Cantilever Beam Adhesive Joints,” Lat. Am. J. Solids Struct., Vol. 14, No. 2, pp. 188–201, 2017.
[18]Xu, D. Liu, P.F. Li, J.G. and Chen, Z.P., “Damage mode identification of adhesive composite joints under hygrothermal environment using acoustic emission and machine learning,” Compos. Struct., Vol. 211, No. July 2018, pp. 351–363, 2019.
[19]Mansouri, L. Djebbar, A. Khatir, S. and Abdel Wahab, M., “Effect of hygrothermal aging in distilled and saline water on the mechanical behaviour of mixed short fibre/woven composites,” Compos. Struct., Vol. 207, pp. 816–825, 2019.
[20]Resin Selection Guide For Corrosion Resistant FRP Applications,, 2007.
[21]Nuplex ® composites, Technical Data Sheet.
[22]ASTM International, Standard Practices for Evaluating the Resistance of Plastics to Chemical Reagents,, 2014.
[23]ASTM International, Standard Practice for Conditioning Plastics for Testing,, 2013.
[24]ASTM International, Standard Test Method for Mode I Interlaminar Fracture Toughness of Unidirectional, ASTM Standard D5528-94a,, 2013.
[25]Huang, G. and Sun, H., “Effect of Water Absorption on the Mechanical Properties of Glass/Polyester Composites,” Mater. Des., Vol. 28, No. 5, pp. 1647–1650, 2007.
[26]Gu, H. and Hongxia, S., “Delamination Behaviour of Glass/Polyester Composites after Water Absorption,” Mater. Des., Vol. 29, No. 1, pp. 262–264, 2008.
[27]Fraga, A.N. Alvarez, V.A. Vazquez, A. and de la Osa, O., “Relationship between Dynamic Mechanical Properties and Water Absorption of Unsaturated Polyester and Vinyl Ester Glass Fiber Composites,” J. Compos. Mater., Vol. 37, No. 17, pp. 1553–1574, 2003.
[28]Maxwell, A.S. Broughton, W.R. Dean, G. and Sims, G.D., Review of Accelerated Ageing Methods and Lifetime Prediction Techniques for Polymeric Materials,, 2005.