Publications

Journals Papers

95. van Dooren K. and Bisagni C., “Post-buckling damage tolerance of welded omega-stiffened thermoplastic panels with initial damage”, Composite Structures, 344 (2024) 118295. https://doi.org/10.1016/j.compstruct.2024.118295

94. van Dooren K., Waleson J., Chapman M. and Bisagni C., “Buckling and failure assessment of curved butt-joint stiffened thermoplastic composite panels with roller boundary conditions”, Composites Science and Technology, 254 (2024) 110667. https://doi.org/10.1016/j.compscitech.2024.110667 

93. Paz Méndez J., Raimondo A. and Bisagni C., “Study of conduction welded C-struts for a thermoplastic composite fuselage”, Mechanics of Advanced Materials and Structures (2024), https://doi.org/10.1080/15376494.2024.2344028 

92. Raimondo A. and Bisagni C., “A numerical assessment of the influence of local stress ratio in the fatigue analysis of post-buckled composite single-stringer specimen”, Journal of Composite Science, 8 (2024) 143. https://doi.org/10.3390/jcs8040143 

91. Baciu T.D., Franzoni F., Degenhardt R., Kalnins K. and Bisagni C., “Shape and loading imperfection sensitivity of the vibration-correlation technique for buckling analysis of cylindrical shells”, Engineering Structures, 304 (2024) 117605, https://doi.org/10.1016/j.engstruct.2024.117605 

90. Maierhofer T., Loukaides E.G., Carr C., Bisagni C. and Butler R., “Resistance-welded thermoset composites: A Bayesian approach to process optimisation for improved fracture toughness”, Composites: Part A, 177 (2024) 107894, https://doi.org/10.1016/j.compositesa.2023.107894 

89. Vescovini A., Li C.X., Paz Mendez J., Jin B.C., Manes A. and Bisagni C., “Post-buckling behavior and collapse of Double-Double composite single stringer specimens”, Composite Structures, 327 (2024) 117699, https://doi.org/10.1016/j.compstruct.2023.117699

88.  van Dooren K. and Bisagni C., “Design, analysis and testing of thermoplastic welded stiffened panels to investigate skin-stringer separation in post-buckling”, Composites Part B, 267 (2023) 111033,   https://doi.org/10.1016/j.compositesb.2023.111033

87. Paz J., Raimondo A. and Bisagni C., “Experimental study of post-buckled single-stringer composite specimens under fatigue loads with different load levels and load ratios”, Composites Part B, 255 (2023) 110606, https://doi.org/10.1016/j.compositesb.2023.110606

86. van Dooren K.S., Tijs B.H.A.H., Waleson J.E.A. and Bisagni C., “Skin-stringer separation in post-buckling of butt-joint stiffened thermoplastic composite panels”, Composite Structures, 304 (2023) 116294, https://doi.org/10.1016/j.compstruct.2022.116294

85. Rudd M.T., Eberlein D.J., Waters W.A., Gardner N.W., Schultz M.R. and Bisagni C., “Analysis and validation of a scaled, launch-vehicle-like composite cylinder under axial compression”, Composite Structures, 304 (2023) 116393, https://doi.org/10.1016/j.compstruct.2022.116393

84. Tijs B.H.A.H., Dávila C.G., Turon A. and Bisagni C., “The importance of accounting for large deformation in continuum damage models in predicting matrix failure of composites”, Composites Part A: Applied Science and Manufacturing, 164 (2023) 107263, https://doi.org/10.1016/j.compositesa.2022.107263

83. Tijs B.H.A.H., Abdel-Monsef S., Renart J., Turon A. and Bisagni C., “Characterization and analysis of the interlaminar behavior of thermoplastic composites considering fiber bridging and R-curve effects”, Composites Part A: Applied Science and Manufacturing, 162 (2022) 107101, https://doi.org/10.1016/j.compositesa.2022.107101

82. Gutiérrez Álvarez J., Abramovich H. and Bisagni C., “Vibration-buckling tests on heated composite plates”, Journal of Sound and Vibration, 536 (2022) 117145, https://doi.org/10.1016/j.jsv.2022.117145

81. Bisagni C., Raimondo A., Atanasovska I., Milic M., Troian R., Frulla G., Polla A., Cora O.N., Bekci M.L., Henriques B., de Moura M.F.S.F., Almudaihesh F., Grigg S., “Comparison of numerical analyses of a composite wing component subjected to 4-point bending”, Composites Part C: Open Access, 8 (2022) 100264, https://doi.org/10.1016/j.jcomc.2022.100264

80. Raimondo A., Dávila C.G. and Bisagni C., “Cohesive analysis of a 3D benchmark for delamination growth under quasi-static and fatigue loading conditions”, Fatigue & Fracture of Engineering Materials & Structures, 2022, https://doi.org/10.1111/ffe.13712 

79. Tijs B.H.A.H., Doldersum M.H.J., Turon A., Waleson J.E.A. and Bisagni C., “Experimental and numerical evaluation of conduction welded thermoplastic composite joints”, Composite Structures, 2022, https://doi.org/10.1016/j.compstruct.2021.114964 

78. Gutiérrez Álvarez J. and Bisagni C., “Investigation on buckling and mode jumping of composite plates under thermomechanical loads”, in International Journal of Non-Linear Mechanics, 2022, https://doi.org/10.1016/j.ijnonlinmec.2021.103837

77. Gavioli M. and Bisagni C. “Teaching buckling of cylindrical shells through an effective laboratory demonstration”, Mechanics of Advanced Materials and Structures, 2022, https://doi.org/10.1080/15376494.2021.1913269

76. Zhang J. and Bisagni C., “Buckling-driven mechanisms for twisting control in adaptive composite wings”,  in Aerospace Science and Technology, 2021, https://doi.org/10.1016/j.ast.2021.107006  

75. Raimondo A., Urcelay Oca I. and Bisagni C., “Influence of interface ply orientation on delamination growth in composite laminates”, Journal of Composite Materials, 2021, DOI: 10.1177/00219983211031636 

74. Gutierrez Alvarez J. and Bisagni C., “A study on thermal buckling and mode jumping of metallic and composite plates”, Aerospace,  2021, 8, 56. 

73. Uriol Balbin I. and Bisagni C., “Buckling of sandwich cylindrical shells with shear deformable core through nondimensional parameters”, Thin-Walled Structures, 2021; 161, 107393.

72. Uriol Balbin I., Bisagni C., Schultz M.R. and Hilburger M.W., “A scaling methodology applied to buckling of sandwich composite cylindrical shellsAIAA Journal, 2020; 58 (8), 3680-3689.

71. Zaczynska M., Abramovich H. and Bisagni C., “Parametric studies on the dynamic buckling phenomenon of a composite cylindrical shell under impulsive axial compression”, Journal of Sound and Vibration, 2020; 482, 115462. 

70. Raimondo A. and Bisagni C., “Fatigue analysis of a post-buckled composite single-stringer specimen taking into account the local stress ratio”, Composites Part B, 2020, 193, 108000. 

69. Raimondo A. and Bisagni C. “Analysis of local stress ratio for delamination in composites under fatigue loads”, AIAA Journal, 2020; 58 (1), 455-463.

68. Gutierrez Alvarez J. and Bisagni C., “Closed-form solutions for thermomechanical buckling of orthotropic composite plates”, Composite Structures, 2020; 233, 111622.

67. Raimondo A., Doesburg S. A. and Bisagni C., “Numerical study of quasi-static and fatigue delamination growth in a post-buckled composite stiffened panel”, Composites Part B, 2020; 182, 107589.

66. Pitton S. F., Ricci S. and Bisagni C., “Buckling optimization of variable stiffness cylindrical shells through artificial intelligence techniques”, Composite Structures, 2019; 230, 111513.

65. Labans E., Bisagni C., Celebi M., Tatting B., Gürdal Z., Blom-Schieber A., Rassaian M. and Wanthal S., “Bending of composite cylindrical shells with circular cutouts: experimental validation”, Journal of Aircraft, 2019; 56 (4): 1534-1550. 

64. Patni M., Minera S., Bisagni C., Weaver P.M. and Pirrera A., “Geometrically nonlinear finite element model for predicting failure in composite structures”, Composite Structures, 2019; 225, Article 111068.

63. Franzoni F., Odermann F., Labans E., Bisagni C., Arbelo M.A. and Degenhardt R., “Experimental validation of the vibration correlation technique robustness to predict buckling of unstiffened composite cylindrical shells”, Composite Structures, 2019; 224, Article 111107.

62. Labans E., Abramovich H. and Bisagni C., “An experimental vibration-buckling investigation on classical and variable angle tow composite shells under axial compression”, Journal of Sound and Vibration, 2019; 449: 315-329.

61. Labans E., Kalnins K. and Bisagni C., “Flexural behavior of sandwich panels with cellular wood, plywood stiffener/foam and thermoplastic composite core”, Journal of Sandwich Structures and Materials, 2019; 21(2): 784-805.

60. Labans E. and Bisagni C., “Buckling and free vibration study of variable and constant-stiffness cylindrical shells”, Composite Structures, 2019; 210: 446-457.

59. Dávila C.G. and Bisagni C., “Fatigue life and damage tolerance of postbuckled composite stiffened structures with indentation damage”, Journal of Composite Materials, 2018; 52(7): 931-943.

58. Bisagni C., Furfari D. and Pacchione M., “Experimental investigation of reinforced bonded joints for composite laminates”, Journal of Composite Materials, 2018; 52(4): 431-447.

57. Zou D. and Bisagni C., “Skin‐stiffener separation in T‐stiffened composite specimens in postbuckling condition”, ASCE’s Journal of Aerospace Engineering, 2018, 31(4); 10 pp, 04018027.

56. Bisagni C. and Pigazzini M.S., “Modelling strategies for numerical simulation of aircraft ditching”, International Journal of Crashworthiness, 2017, https://doi.org/10.1080/13588265.2017.1328957.

55. Qiao Y., Bisagni C. and Bai Y., “Experimental investigation and numerical simulation of unidirectional carbon fiber composite under multi-axial loadings”, Composites Part B, 2017; 124: 190-206.

54. Alfano M. and Bisagni C., “Probability-based methodology for buckling investigation of sandwich composite shells with and without cut-outs”, International Journal for Computational Methods in Engineering Science and Mechanics, 2017; 18(1): 77-90.

53. Dávila C.G. and Bisagni C., “Fatigue life and damage tolerance of postbuckled composite stiffened structures with initial delamination”, Composite Structures, 2017; 161: 73-84.

52. Fu X., Ricci S. and Bisagni C., “Multi-scale analysis and optimisation of three-dimensional woven composite structures combining response surface method and genetic algorithms”, CEAS Aeronautical Journal, 2017; 8: 129-141.

51. Vescovini R. and Bisagni C., “Fast analysis of non-symmetric panels using semi-analytical techniques”, Composites Part B, 2016; 99: 48-62.

50. Fu X., Ricci S. and Bisagni C., “Minimum-weight design for three dimensional woven composite stiffened panels using neural networks and genetic algorithms”, Composite Structures, 2015; 134: 708-715.

49. Friedrich L., Loosen S., Liang K., Ruess M., Bisagni C. and Schröder K.-U., “Stacking sequence influence on imperfection sensitivity of cylindrical composite shells under axial compression”, Composite Structures, 2015; 134: 750-761.

48. Bisagni C., “Overview of the DAEDALOS project”, Progress in Aerospace Sciences, 2015; 78: 1-7.

47. Bisagni C. and Vescovini R., “A procedure for the evaluation of damping effects in composite laminated structures”, Progress in Aerospace Sciences, 2015; 78: 19-29.

46. Ludwig T., Doreille M., Merazzi S., Vescovini R. and Bisagni C., “Dynamic finite element simulations of composite stiffened panels with a transverse-isotropic viscoelastic energy dissipation model”, Progress in Aerospace Sciences, 2015; 78: 30-38.

45. Abramovich H. and Bisagni C., “Behavior of curved laminated composite panels and shells under axial compression”, Progress in Aerospace Sciences, 2015; 78: 74-106.

44. Bisagni C., “Composite cylindrical shells under static and dynamic axial loading: an experimental campaign”, Progress in Aerospace Sciences, 2015; 78: 107-115.

43. Bronstein M., Feldman E., Vescovini R. and Bisagni C., “Assessment of dynamic effects on aircraft design loads: the landing impact case”, Progress in Aerospace Sciences, 2015; 78: 131-139.

42. Bisagni C. and Vescovini R., “Semi-analytical buckling analysis of omega stiffened panels under multi-axial loads”, Composite Structures, 2015; 120: 285-299.

41. Bisagni C. and Vescovini R., “A fast procedure for the design of composite stiffened panels”, The Aeronautical Journal, 2015; 119(1212): 185-201.

40. Bisagni C. and Dávila C. G., “Experimental investigation of the postbuckling response and collapse of a single-stringer specimen”, Composite Structures, 2014; 108: 493-503.

39. Vescovini R. and Bisagni C., “Two-step procedure for fast post-buckling analysis of composite stiffened panels”, Computers and Structures, 2013; 128: 38-47.

38. Orifici A. C. and Bisagni C., “Perturbation-based imperfection analysis for composite cylindrical shells buckling in compression”, Composite Structures, 2013; 106: 520-528.

37. Vescovini R., Dávila C. G. and Bisagni C., “Failure analysis of composite multi-stringer panels using simplified models", Composites: Part B, 2013; 45: 939-951.

36. Bisagni C. and Walters C., “Influence of impacts on static and low-cycle fatigue characteristics of composite specimens”, International Journal of Crashworthiness, 2013; 18(2): 139-151.

35. Vescovini R. and Bisagni C., “Buckling analysis and optimization of stiffened composite flat and curved panels”, AIAA Journal, 2012; 50(4): 904-915.

34. Vescovini R. and Bisagni C., “Single-mode solution for post-buckling analysis of composite panels with elastic restraints loaded in compression”, Composites: Part B, 2012; 43: 1258-1274.

33. Cordisco P. and Bisagni C., “Cyclic buckling tests under combined loading on pre-damaged composite stiffened boxes”, AIAA Journal, 2011; 49(8): 1795-1807.

32. Bisagni C., Vescovini R. and Dávila C. G., “Single-stringer compression specimen for the assessment of damage tolerance of postbuckled structures”, Journal of Aircraft, 2011; 48(2): 495-502.

31. Patel S. N., Bisagni C. and Datta P. K., “Dynamic buckling analysis of a composite stiffened cylindrical shell”, Structural Engineering and Mechanics, 2011; 37(5): 509-527.

30. Orifici A. C., Thomson R. S., Degenhardt R., Bisagni C. and Bayandor J., “An analysis tool for design and certification of postbuckling composite aerospace structures”, International Journal of Structural Stability and Dynamics, 2010; 10(4): 669-681.

29. Kalnins K., Rikards R., Auzins J., Bisagni C., Abramovich H. and Degenhardt R., “Metamodeling methodology for postbuckling simulation of damaged composite stiffened structures with physical validation”, International Journal of Structural Stability and Dynamics, 2010; 10(4): 705-716. 

28. Cordisco P. and Bisagni C., “Design, test and validation of a composite box under combined loading up to collapse”, International Journal of Structural Stability and Dynamics, 2010; 10(4): 853-869.

27. Karachalios E., Vrettos C., Marioli-Riga Z., Bisagni C., Cordisco P., Ortiz De Zarate I. and Caruso A., “Numerical simulation and testing of a composite stiffened structure under combined buckling loads”, International Journal of Structural Stability and Dynamics, 2010; 10(4): 871-884.

26. Greve L., Bisagni C. and Walters C., “Biaxial experimental determination of in-plane matrix fracture envelope of unidirectional composite”, Composites Part A, 2010; 41(6): 750-758.

25. Bisagni C. and Vescovini R., “Fast tool for buckling analysis and optimization of stiffened panels”, Journal of Aircraft, 2009; 46(6): 2041-2053.

24. Cordisco P. and Bisagni C., “Cyclic buckling tests under combined compression and shear on composite stiffened panels”, AIAA Journal, 2009; 47(12): 2879-2893.

23. Orifici A. C., Thomson R. S., Degenhardt R., Bisagni C. and Bayandor J., “A finite element methodology for analysing degradation and collapse in postbuckling composite aerospace structures”, Journal of Composite Materials, 2009; 43(26): 3239-3263.

22. Bisagni C., “Experimental investigation of the collapse modes and energy absorption characteristics of composite tubes”, International Journal of Crashworthiness, 2009; 14(4): 365-378.

21. Bisagni C. and Giavotto V., “Experiments and analyses on post-buckling behavior of stringer-stiffened laminated composite helicopter tailplane”, Journal of the American Helicopter Society, 2009; 54(2): 022003, 12 pages.

20. Bisagni C. and Vescovini R., “Analytical formulation for local buckling and post-buckling analysis of stiffened laminated panels”, Thin-Walled Structures, 2009; 47: 318-334.

19. Bisagni C. and Terletti D., “Structural optimization of composite elements of a Formula One racing car”, International Journal of Vehicle Design, 2008; 48(1/2): 149-170.

18. Bisagni C. and Walters C., “Experimental investigation of the damage propagation in composite specimens under biaxial loading”, Composite Structures, 2008; 85: 293-310.

17. Abramovich H., Weller T. and Bisagni C., “Buckling behavior of composite laminated stiffened panels under combined shear-axial compression”, Journal of Aircraft, 2008; 45(2): 402-413.

16. Orifici A. C., Thomson R. S., Degenhardt R., Bisagni C. and Bayandor J., “Development of a finite-element analysis methodology for the propagation of delaminations in composite structures", Mechanics of Composite Materials, 2007; 43: 9-28.

15. Bisagni C. and Cordisco P., “Post-buckling and collapse experiments of stiffened composite cylindrical shells subjected to axial loading and torque”, Composite Structures, 2006; 73(2): 138-149.

14. Bisagni C. and Mirandola C., “Experimental and numerical investigation of crash behavior of composite helicopter cruciform elements”, Journal of the American Helicopter Society, 2005; 50(1): 107-116.

13. Bisagni C., Di Pietro G., Fraschini L. and Terletti D., “Progressive crushing of fiber-reinforced composite structural components of a Formula One racing car”, Composite Structures, 2005; 68(4): 491-503.

12. Bisagni C., “Dynamic buckling of fiber composite shells under impulsive axial compression”, Thin-Walled Structures, 2005; 43(3): 499-514.

11. Bisagni C. and Cordisco P., “Testing of stiffened composite cylindrical shells in the postbuckling range until failure”, AIAA Journal, 2004; 42(9): 1806-1817.

10. Lanzi L., Bisagni C. and Ricci S., “Crashworthiness optimization of helicopter subfloor based on decomposition and global approximation”, Structural and Multidisciplinary Optimization, 2004; 27(5): 401-410.

9. Lanzi L., Bisagni C. and Ricci S., “Neural network systems to reproduce crash behavior of structural components”, Computers & Structures, 2004; 82: 93-108.

8. Bisagni C. and Cordisco P., “An experimental investigation into the buckling and post-buckling of CFRP shells under combined axial and torsion loading”, Composite Structures, 2003; 60(4): 391-402.

7. Bisagni C., “Crashworthiness of helicopter subfloor structures”, International Journal of Impact Engineering, 2002; 27(10): 1067-1082.

6. Bisagni C., Lanzi L. and Ricci S., “Optimization of helicopter subfloor components under crashworthiness requirements using neural networks”, Journal of Aircraft, 2002; 39(2): 296-304.

5. Bisagni C. and Lanzi L., “Post-buckling optimisation of composite stiffened panels using neural networks”, Composite Structures, 2002; 58(2): 237-247.

4. Bisagni C., “Numerical analysis and experimental correlation of composite shell buckling and post-buckling”, Composites Part B: Engineering, 2000; 31(8): 655-667.

3. Bisagni C., “Energy absorption of riveted structures”, International Journal of Crashworthiness, 1999; 4(2): 199-212.

2. Bisagni C., “Experimental buckling of thin composite cylinders in compression”, AIAA Journal, 1999; 37(2): 276-278.

1. Bisagni C., “Crashworthiness of helicopter subfloor structural components”, Aircraft Engineering and Aerospace Technology, 1999; 71(1): 6-11.


Books Contributions

 

NASA Reports


European Space Agency Handbook


Contribution to European Research and Innovation Policy