1. F Sun*, P. Penchev, C.I. Pruncu*, et al, 2023. On enhancement of fracture resistance of adhesive joints by surface micropatterning using a femtosecond laser, Journal of Materials Processing Technology 135, 117904.

2. C Li*, S Viswanathan-Chettiar, F Sun*, Z Shi, BRK Blackman*, 2023. Effect of CFRP surface topography on the adhesion and strength of composite-composite and composite-metal joints, Composites Part A 164，107275.

3. B Blackman, F Sun, S T De Freitas, S de Barros, M M Arouche, A Ivankovic. Understanding fracture mode-mixity and its effects on bond performance. Book chapter：“Advances in Structural Adhesive Bonding (2nd edition)”.

4. F. Sun, B.R.K. Blackman*, et al, 2022. Performance of Ti/Zr and silane coating pretreatments on adhesive bonding of an automotive aluminium alloy produced using the Hot Form Quench (HFQ®) process, Applied Surface Science, 575, 151686.

5. F. Sun*, B.R.K Blackman*, 2021. Using digital image correlation to automate the measurement of crack length and fracture energy in the mode I testing of structural adhesive joints, Engineering Fracture Mechanics, 255, 107957. 

6. F. Sun*, R. Zhang, B.R.K. Blackman*, 2021. Determination of the mode I crack tip opening rate and the rate dependent cohesive properties for structural adhesive joints using digital image correlation, International Journal of Solids and Structures, 217-218, 60-73. 

7. F. Sun, C.I. Pruncu*, P. Penchev, J. Jiang, S. Dimov, B.R.K. Blackman, 2020. Influence of surface micropatterns on the mode I fracture toughness of adhesively bonded joints, International Journal of Adhesion and Adhesives, 103, 102718. 

8. F. Sun*, B.R.K Blackman*, 2020. A DIC method to determine the Mode I energy release rate G, the J-integral and the traction-separation law simultaneously for adhesive joints, Engineering Fracture Mechanics, 234, 107097. 

9. F. Sun, C.I. Pruncu*, J. Jiang, B.R.K. Blackman, J. Lin, 2019. Evaluation of the adhesive bonding of aluminum alloys produced by Hot Form Quenching for automotive applications, in book: Advances in Engineering Materials, Structures and Systems: Innovations, Mechanics and Applications，CRC Press.

10. F. Sun*, E.K. Gamstedt, 2019. Experimental and numerical investigation on shear banding during nanomachining of an amorphous glassy polymer, International Journal of Mechanical Sciences, 151, 13-21. 

11. F. Sun*, E.K. Gamstedt, 2019. Homogeneous and localized deformation in poly(methyl methacrylate) nanocutting, Nanomanufacturing and Metrology, 2, 45-55. 

12. F. Sun, H. Li, K. Leifer, E.K. Gamstedt*, 2018. Effects of nanosectioning on the surface features and stiffness of a glassy polymer, Polymer Engineering & Science, 58, 1849-1857. 

13. F. Sun, U. Wiklund, F. Cetina, E.K. Gamstedt*, 2017. Assessing local yield stress and fracture toughness of carbon nanotube poly(methyl methacrylate) composites by nanosectioning, Composites Science and Technology, 153, 95-102. 

14. F. Sun*, H. Li, K. Leifer, E.K. Gamstedt, 2017. Rate effects on localized shear deformation during nanosectioning of an amorphous thermoplastic polymer, International Journal of Solids and Structures, 129, 40-48. 

15. F. Sun, H. Li, H. Lindberg, K. Leifer, E.K. Gamstedt*, 2017. Polymer fracture and deformation during nanosectioning in an ultramicrotome, Engineering Fracture Mechanics, 182, 595-606.