|
[1]D. McGeorge, A.T. Echtermeyer, K.H. Leong, B. Melve, M. Robinson, K.P. Fischer. Repair of floating offshore units using bonded fibre composite materials. Composites: Part A, 40, (2009), 1364-1380. [2]Ivan Grabovac, David Whittaker. Application of bonded composites in the repair of ships structures – A 15-year service experience. Composites: Part A, 40, (2009), 1381-1398. [3]Grabovac, P.J. Pearce, A. Camilleri, K. Challis and J. Lingard. Are composites suitable for reinforcement of ship structures. Defence Science and Technology Organisation (DSTO). [4]Ben DuBose. U.S. Navy Adopts Composite-Patch Repair Method for Aluminum. Materials Selection & Design, 2020. [5]F. Harris and A. Beevers, Effects of grit-blasting on surface properties for adhesion. International Journal of Adhesion & Adhesives, 19, 6, (1999), 445-452. [6]Baldan, Adhesively-bonded joints and repairs in metallic alloys, polymers and composite materials: adhesives, adhesion theories and surface pretreatment. Journal of Materials Science, 39, 1, (2004), 1-49. [7]E. Jarry and R. A. Shenoi, Performance of butt strap joints for marine applications. International Journal of Adhesion & Adhesives, 26, 3, (2006), 162-176. [8]Ozes, N. Neser, Experimental study on steel to FRP bonded lap joints in marine applications. Advances in Material Science and Engineering, Aticle ID164208, (2015). [9]T. Ericsen and A. Tucker, “Power electronics building blocks and potential power modulator applications,” Proceedings of the International Power Modulator Symposium, 22-25 June 1998, pp. 12-15J. [10]A. C. Okafor, N. Singh, U. E. Enemuoh, S. V. Rao. Design, analysis and performance of adhesively bonded composite patch repair of cracked aluminum aircraft panels. Composite Structures, 71, 2, (2005), 258-270. [11]P. S, Shinde, P. Kumar, V. K. Tripathi. Dependence of repair strength on the size of FRP patch bonded to a crack aluminum alloy panel. Thin-walled Structure, 124, (2018), 303-311. [12]S. M. R. Khalili, R. Ghadjar, M. Sadeghinia, R. K. Mittal. An experimental study on the Charpy impact response of cracked aluminum plates repaired with GFRP or CFRP composite patches. Composite Structures. 89, 2, (2009), 270-274. [13]K. N. Anyfantis, N. G. Tsouvalis, Loading and fracture response of CFRP-to-steel adhesively bonded joints with thick adherents-Part II: Numerical Simulation. Composite Structures, 96, (2013), 858-868. [14]X. W. Li, P. Li, Z. Lin, D. M. Yang, Mechanical behavior of a glass-fiber reinforced composite to steel joint for ships. Journal of Marine Science and Application, 14, 1, (2015), 39-45. [15]M. Ramji, R. Srilakshmi, M. Bhanu Prakash. Towards optimization of Patch shape on the performance of bonded composite repair using FEM. Composites Part B: Engineering, 45, 1, (2013), 712-720. [16]Alpesh H. Makwana, Nisarg Vyas, R. S. Barot. Numerical investigation of composite patch repair of inclined cracked panel using XFEM. Mater. Today Proceedings, 45, (2021). [17]M.D.Banea, M.Rosioara, R.J.C.Carbas, L.F.M.da Silva. 2018, Multi-material adhesive joints for automotive industry. Composites Part B: Engineer Volume 151. [18]Dragos Ungureanu, Nicolae Taranu, Vlad Lupasteanu, Dorina Nicolina Isopescu, Gabriel Oprisan, Petru Mihai. 2018, Experimental and numerical investigation of adhesively bonded single lap and thick adherents joints between pultruded GFRP composite profiles. Composites Part B: 146. [19]Konstantinos N.Anfantis, Nicholas G. Tsouvalis, Analysis of an adhesively bonded single lap joint subjected to eccentric loading, International Journal of Adhension and Adhesives,41 41-47,2013. [20]basystems.co.uk,2020.[Online].Available https://www.basystems.co.uk/blog/galvanic-corrosion/ [21]Anna Rudaeska, Adhesive joint strength of hybrid joint strength of hybrid assemblies: Titanium sheet-composites and alumunium sheet-composites—Experimental and numerical verification, International Journal of Adhension and Adhesives, 30(7), 574-582, 2010. [22]https://www.doc88.com/p-2147812270213.html [23]https://www.doc88.com/p-2147812270213.html [24]https://www.doc88.com/p-2147812270213.html [25]D3045 Standard Practice for Heat Aging of Plastics Without Load (astm.org)
|