职 称：副教授，博士生导师（Title: Associate Professor of Structural Mechanics, PhD Student Mentor）

通讯地址：广东省汕头市大学路243号，汕头大学土木与智慧建设系 (Address: Department of Civil Engineering and Smart Cities, Shantou University, 243 Daxue Road, Shantou, Guangdong, China)

办 公：工北-313室

E-mail: federico@stu.edu.cn

教育经历（Educational Background）

l Doctoral Degree in Structural Engineering, Politecnico di Torino, Torino, Italy, 2014

l Master of Science in Building Engineering, Politecnico di Torino, Torino, Italy, 2009

l Bachelor of Science in Building Engineering, Politecnico di Torino, Torino, Italy, 2006

工作经历（Working Experience）

CURRENT POSITIONS

l Associate Professor of Structural Mechanics, Department of Civil Engineering and Intelligent Construction, Shantou University, Shantou-China, 2022-present

l Chartered Engineer, The Turin Order of Engineers, Italy, 2009-present

PREVIOUS POSITIONS

l Adjunct Professor of Structural Mechanics, SUISS-National School of the Italian Army, Torino-Italy, 2018-2022

l Post-doc Fellow, Department of Structural, Geotechnical, and Building Engineering, Politecnico di Torino, Torino-Italy, 2015-2021

研究领域（Research）：断裂力学、混凝土结构、土木工程高性能材料和结构、声发射

RESEARCH TOPICS AND CUTTING-EDGE RESULTS

Different specific topics have been considered in the framework of fracture mechanics and structural engineering, always giving them a personal and original contribution, with an innovative focus on next-generation reinforced materials. Among these peculiar aspects, it is significant to recall the following ones:

(1) Investigation of the structural effects due to reinforcement, slenderness, and scale in the design of fibre-reinforced polymer bar (FRP-bar) reinforced concrete (RC) structures, leading to an effective development of innovative standard guidelines. In this framework, the transition between tensile cracking and compression crushing failures occurring in FRP-bar RC beams is described together with their structural ductility

(2) Solution to the problem of minimum reinforcement in fibre-reinforced concrete (FRC) or hybrid-reinforced concrete (HRC) structures. Their behaviour is proved to be mainly influenced by fibre volume fraction and steel-bar reinforcement percentage coupled with their characteristic structural size. This dominant scale effect appears to be crucial to thoroughly understand FRC or HRC structural behaviour under flexural loading or low-cycle fatigue

(3) Formulation of a comprehensive theoretical framework for high-performance prestressed concrete (HPPC) structures. The correct estimation of scale effects on minimum and maximum reinforcement percentages requires a thorough knowledge of the complex phenomena characterizing the tensile cracking and compression crushing failures, leading to define the field in which HPPC structures can develop a safe ductile behaviour. New standard requirements for an effective structural design are formulated

科研活动及主要成就 (Scientific Activities and Major Achievements)：

H-Index (Scopus) = 17；Total Citations (Scopus) = 850

Author of 85 publications, of which 50 are papers appeared in Refereed International Journals, on the following research topics:

fracture mechanics, scale effects, reinforced concrete, masonry arch bridges, structural monitoring and fracto-emissions, membranes and shells, instability phenomena and hysteresis

教学课程（Teaching Activities）

(1)“Fracture Mechanics of Concrete Structures”, 2023-present

Doctoral School, Shantou University, Shantou-China

(2)“Advanced Computational Mechanics”, 2023-present

Doctoral School, Shantou University, Shantou-China

(3)“Computational Mechanics”, 2023-present

Graduate School of Civil Engineering, Shantou University, Shantou-China

(4)“Structural Mechanics”, 2018-2023

SUISS-National School of the Italian Army, Torino-Italy

(5)“Arch, Cable-stayed, and Suspension Bridges”, 2014-2016

Doctoral School, Politecnico di Torino, Torino-Italy

荣誉和奖励 (International Honours and Awards)

(1) Outstanding Talent Scholar, Shantou University, Shantou, China, 2022

(2) Best-cited Paper Award, Curved and Layered Structures, De Gruyter, Berlin, Germany, 2022

(3) Top Downloaded Paper, Structural Concrete, Wiley, New Jersey, USA, 2021

学术兼职 (Commissions of Trust)

COMMISSIONS OF TRUST

(1) Member of the National Commission for the Assessment of the Scientific Research Quality in Higher Education (VQR GEV8b-Civil Engineering), National Agency for the Evaluation of Universities and Research Institutes (ANVUR), Ministry of University and Research, Italy, 2024-present

(2) Member of Commission WP 2.4.1 “Modelling of Fibre-reinforced Concrete Structures”, International Federation for Structural Concrete (FIB), Switzerland, 2022-present

(3) Member of the Editorial Board, “Journal of Intelligent Construction” (Tsinghua University Press), 2023-present

(4) Member of the Editorial Board, “Smart Construction and Sustainable Cities” (Springer), 2023-present

(5) Member of the Topical Advisory Panel, “Buildings” (MDPI), 2021-present

(6) Member of the Editorial Board, “Buildings” (MDPI), 2020-2021

(7) Member of the Board, China Center, Politecnico di Torino-Italy, 2023-present

(8) Member of the Scientific Committee, 8^th World Congress on Civil, Structural, and Environmental Engineering (CSEE'23), Lisbon-Portugal, 2023

(9) Member of the Organizing Committee, 2^nd Italian Workshop on Shell and Spatial Structures (IWSS2023), Turin-Italy, 2023

(10) Member of the Expert Panel of the Evaluation Committee for the attainment of the position of Lieutenant of the Engineering Corps (SPE, Permanent Service), Ministry of Defence (Italy), 2018-2019

其它 (ELSE, including patents ,Computer software copyright registration certificate,)：

MAJOR INVITED PRESENTATIONS AT INTERNATIONAL

CONFERENCES AND ADVANCED SCHOOLS

(1) Keynote Lecture on “The Bridged Crack Model with multiple fibres: Scale effects and local instabilities”, 10th European Solid Mechanics Conference (ESMC-10), Bologna-Italy, 2018

(2) Invited Lecture on “Influence of mechanical instabilities on acoustic emission signal processing in progressive microcracking coalescence”, 7th 269-IAM RILEM Meeting on Damage Assessment in Consideration of Repair/Retrofit-Recovery in Concrete and Masonry Structures by Means of Innovative NDT, Turin-Italy, 2019

(3) Invited seminars on “Next-generation Reinforced Concrete”: (1) “High-performance Prestressed Concrete Structures”; (2) “FRP-bar Reinforced Concrete Structures”; (3) “Fibre-reinforced or Hybrid-reinforced Concrete Structures”. College of Engineering, Shantou University, Guangdong-China, 2021

(4) Keynote Lecture on “Fibre-reinforced and hybrid-reinforced concrete: An updated Bridged Crack Model with softening pull-out forces”, 7th World Congress on Civil, Structural, and Environmental Engineering (CSEE-22), Lisbon-Portugal, 2022

(5) Invited Lecture on “A fracture mechanics approach to the design of fibre-reinforced and hybrid-reinforced concrete beams”, Special Session "The use of fibre reinforcement for more durable, sustainable and resilient built environment”, FIB Symposium 2023, Istanbul-Turkey, 2023

(6) Keynote Lecture on “Modelling fibre-reinforced brittle-matrix composites: Cohesive (single-phase) vs bridged (multi-phase) crack options”, 11th International Conference on Fracture Mechanics of Concrete and Concrete Structures (FraMCoS-11), Bangalore-India, 2023

(7) Invited Lecture on “Next-generation reinforced concrete: Brittle behaviour and Fracture Mechanics assessment”, School of Civil Engineering, The Hong Kong University of Science and Technology, Hong Kong-China, 2024

(8) Invited Lecture on “FRP-bar reinforced concrete: Brittle behaviour and Fracture Mechanics assessment”, Department of Hydraulic Engineering, Tsinghua University, Beijing-China, 2024

(9) Distinguished Lecture on “Next-generation reinforced concrete structures”, National Facility for Earthquake Engineering Simulation, Tianjin-China, 2024

(10) Invited Lecture on “Next-generation reinforced concrete: New standards for a safe and effective structural design”, School of Transportation Science and Engineering, Harbin Institute of Technology, Harbin-China, 2024

代表性论文 (Scientific Publications)

INTERNATIONAL PEER-REVIEWED JOURNALS

1) A. Carpinteri, G. Lacidogna, F. Accornero, A. Mpalaskas, T. Matikas, D. Aggelis*, “Influence of damage in the Acoustic Emission parameters”, Cement and Concrete Composites, 2013, 44:9-16. [I.F.: 7.586]

2) A. Carpinteri, G. Lacidogna*, S. Invernizzi, F. Accornero, “The Sacred Mountain of Varallo in Italy: Seismic risk assessment by Acoustic Emission and structural numerical models”, The Scientific World Journal, 2013, 170291. [I.F.: 2.103]

3) G. Niccolini, O. Borla, F. Accornero*, G. Lacidogna, A. Carpinteri, “Scaling in damage by electrical resistance measurements”, Rendiconti Lincei, 2014, 26:203-209. [I.F.: 1.627]

4) A. Carpinteri, G. Lacidogna*, F. Accornero, "Evolution of the fracturing process in masonry arches", Journal of Structural Engineering (ASCE), 2015, 141:04014132. [I.F.: 3.312]

5) A. Carpinteri, G. Lacidogna, F. Accornero, S. Invernizzi*, "Numerical simulation of the fracturing processes in masonry arches", Proceedings in Applied Mathematics and Mechanics, Vol. 15 (2015), 131-132.

6) F. Accornero*, G. Lacidogna, A. Carpinteri, “Evolutionary fracture analysis of masonry arches: Effects of shallowness ratio and size scale”, Comptes Rendus Mécanique, 2016, 344:623-630. [I.F.: 2.086]

7) A. Carpinteri*, F. Accornero, “Multiple snap-back instabilities in progressive microcracking coalescence”, Engineering Fracture Mechanics, 2018, 187:272-281. [I.F.: 4.406]

8) F. Accornero*, G. Lacidogna, A. Carpinteri, “Medieval arch bridges in the Lanzo Valleys, Italy: Incremental structural analysis and fracturing benefit”, Journal of Bridge Engineering (ASCE), 2018, 23(7):05018005. [I.F.: 3.066]

9) A. Carpinteri, G. Lacidogna*, F. Accornero, “Fluctuations of 1/f noise in damaging structures analyzed by Acoustic Emission”, Applied Sciences, 2018, 8:1685. [I.F.: 2.679]

10) G. Lacidogna*, F. Accornero, “Elastic, plastic, fracture analysis of masonry arches: A multi-span bridge case study”, Curved and Layered Structures, 2018, 5:1-9. [I.F.: 1.680]

11) G. Lacidogna, F. Accornero*, A. Carpinteri, “Influence of snap-back instabilities on Acoustic Emission damage monitoring”, Engineering Fracture Mechanics, 2019, 210:3-12. [I.F.: 4.406]

12) A. Carpinteri*, F. Accornero, “Rotation versus curvature fractal scaling in bending failure”, Physical Mesomechanics, 2019, 22:46-51. [I.F.: 1.850]

13) N. Viale, F. Accornero*, G. Lacidogna, G. Ventura, “AE characterization of brick masonry walls mechanical behavior: The case-study of Alessandria and Boves barracks”, Key Engineering Materials, 2019, 817:563-570. [I.F.: 0.350]

14) A. Carpinteri, F. Accornero*, “Static-kinematic duality in the shells of revolution: Historical aspects and present developments”, Archive of Applied Mechanics, 2019, 89:2313-2320. [I.F.: 1.976]

15) A. Carpinteri, F. Accornero*, “The Bridged Crack model with multiple fibres: Local instabilities, scale effects, plastic shake-down, and hysteresis”, Theoretical and Applied Fracture Mechanics, 2019, 104:102351. [I.F.: 4.017]

16) F. Accornero, C. Bertolini*, S. Invernizzi, T. Marzi, A. Spanò, “Retrofitting and conservation of the timber choir loft of the sanctuary Beata Vergine Maria del Monte Carmelo in Colletto, Pinerolo, Italy”, Transsylvania Nostra, 2019, 13(1):53-60. [I.F.: 0.024]

17) A. Carpinteri*, F. Accornero, “Residual crack opening in fibre-reinforced structural elements subjected to cyclic loading”, Strength, Fracture and Complexity, 2020, 12(2-4):63-74. [I.F.: 0.227]

18) A. Grazzini*, F. Accornero, G. Lacidogna, S. Valente, “Acoustic emission and numerical analysis of the delamination process in repair plasters applied to historical walls”, Construction and Building Materials, 2020, 236:117798. [I.F.: 6.141]

19) F. Accornero*, A. Rubino, A. Carpinteri, “Ductile-to-brittle transition in fibre-reinforced concrete beams: Scale and fibre volume fraction effects”, Material Design & Processing Communications, 2020, 2(6):e127. [I.F.: 2.019]

20) G. Lacidogna, G. Piana, F. Accornero*, A. Carpinteri, “Multi-technique damage monitoring of concrete beams: Acoustic Emission, Digital Image Correlation, Dynamic Identification”, Construction and Building Materials, 2020, 242:118114. [I.F.: 6.141]

21) F. Accornero, G. Lacidogna*, “Safety assessment of masonry arch bridges considering the fracturing benefit", Applied Sciences, 2020, 10:3490. [I.F.: 2.679]

22) F. Accornero*, R. Cafarelli, A. Carpinteri, "Cracking and crushing in prestressed concrete beams", Structural Journal (ACI), 2021, 118(2):101-109. [I.F.: 1.744]

23) E. Verstrynge*, G. Lacidogna, F. Accornero, A. Tomor, "A review on acoustic emission monitoring for damage detection in masonry structures", Construction and Building Materials, 2021, 268:121089. [I.F.: 6.141]

24) A. Carpinteri*, F. Accornero, “Dimensional analysis of critical phenomena: Self-weight failure, turbulence, resonance, fracture”, Physical Mesomechanics, 2021, 24(4):459-463. DOI: 10.1134/S102995992104010X [I.F.: 1.850]

25) F. Accornero*, A. Carpinteri, "Funicularity in elastic domes: Coupled effects of shape and thickness", Curved and Layered Structures, 2021, 8:181-187. [I.F.: 0.412]

26) A. Carpinteri, F. Accornero*, R. Cafarelli, “Scale-dependent maximum reinforcement percentage in RC beams", Structural Concrete (FIB), 2021, 22:2155-2166. DOI: 10.1002/(ISSN)1751-7648 [I.F.: 3.131]

27) F. Accornero*, A. Carpinteri, "Ponti ad arco in muratura: Analisi evolutiva del processo di fessurazione", Archi, 2021, 5:9-11.

28) F. Accornero*, R. Cafarelli, A. Carpinteri, “The Cohesive/Overlapping Crack Model for plain and reinforced concrete beams: Scale effects on cracking and crushing failures”, Magazine of Concrete Research, 2022, 74(9):433-450. DOI: 10.1680/jmacr.20.00260 [I.F.: 2.503]

29) Z. Zhu, P. Gui, H. Teng, F. Accornero, “Analysis of secondary stresses in bridge orthotropic decks induced by solar radiation thermal gradient”, Engineering Mechanics (Gong Cheng Li Xue), 2022, 39(8):158-171. DOI: 10.6052/j.issn.1000-4750.2021.04.0313 [I.F.: 1.800]

30) A. Carpinteri, F. Accornero*, R. Cafarelli, “Scale effects in prestressed concrete structures: Maximum reinforcement percentage to avoid brittle crushing”, Engineering Structures, 2022, 255(5):113911. DOI: 10.1016/j.engstruct.2022.113911 [I.F.: 4.471]

31) F. Accornero*, A. Rubino, A. Carpinteri, “Post-cracking regimes in the flexural behaviour of fibre-reinforced concrete beams”, International Journal of Solids and Structures, 2022, 248:111637. DOI: 10.1016/j.ijsolstr.2022.111637 [I.F.: 3.900]

32) F. Accornero*, A. Rubino, A. Carpinteri, “Ultra-low cycle fatigue (ULCF) in fibre-reinforced concrete beams”, Theoretical and Applied Fracture Mechanics, 2022, 120:103392. DOI: 10.1016/j.tafmec.2022.103392 [I.F.: 4.017]

33) F. Accornero*, A. Rubino, A. Carpinteri, “A fracture mechanics approach to the design of hybrid-reinforced concrete beams”, Engineering Fracture Mechanics, 2022, 275:108821. DOI: 10.1016/j.engfracmech.2022.108821 [I.F.: 4.898]

34) A. Carpinteri, F. Accornero*, A. Rubino, “Scale effects in the post-cracking behaviour of fibre-reinforced concrete beams”, International Journal of Fracture, 2023, 240(1):1-16. DOI: 10.1007/s10704-022-00671-x [I.F.: 2.635]

35) F. Accornero*, R. Cafarelli, A. Carpinteri, A. Nanni, “Scale effects in GFRP-bar reinforced concrete beams”, Structural Concrete (FIB), 2023, 24:2817-2826. DOI: 10.1002/SUCO.202200676 [I.F.: 2.793]

36) R. Cafarelli*, F. Accornero, A. Carpinteri, “Size-scale effects in high-performance reinforced and prestressed concrete T-beams”, Structural Concrete (FIB), 2023, 24:5649-5663. DOI: 10.1002/suco.202200673 [I.F.: 2.793]

37) A. Carpinteri*, O. Borla, F. Accornero, “Gypsum and quartz specimens in compression failure: Fracto-emissions and related stoichiometric balances”, Engineering Fracture Mechanics, 2023, 284:109202. DOI: 10.1016/j.engfracmech.2023.109202 [I.F.: 4.898]

38) A. Carpinteri, G. Niccolini, F. Accornero*, “Analogy between turbulent-to-vortex shedding flow transition in fluids and ductile-to-brittle failure transition in solids”, Fluids, 2023, 8:114. DOI: 10.3390/fluids8040114

39) A. Rubino*, F. Accornero, A. Carpinteri, “Flexural behaviour and minimum reinforcement condition in hybrid-reinforced concrete beams”, Structural Concrete (FIB), 2023, 24(4): 4767–4778. DOI: 10.1002/suco.202200674 [I.F.: 2.793]

40) R. Cucuzza, A. Aloisio*, F. Accornero, A. Marinelli, E. Bassoli, G. Marano, “Size-scale effects and modelling issues of fibre-reinforced concrete beams”, Construction and Building Materials, 2023, 392:131727. DOI: 10.1016/j.conbuildmat.2023.131727 [I.F.: 7.693]

41) F. Accornero, A. Carpinteri, G. Marano*, A. Rubino, “Il calcestruzzo fibro-rinforzato per uso strutturale: Capacita' portante ed effetti di scala sulla minima armatura”, Ingenio, 2023, ISSN 2307-8928.

42) R. Cafarelli*, F. Accornero, A. Carpinteri, “Failure-mode scale transitions in RC and PC beams”, Smart Construction and Sustainable Cities, 2024, 2(1):5. DOI: 10.1007/s44268-024-00026-6

43) A. Rubino*, F. Accornero, A. Carpinteri, “Fracture mechanics approach to minimum reinforcement design of fibre-reinforced and hybrid-reinforced concrete beams”, International Journal of Damage Mechanics, 2024. DOI: 10.1177/10567895241245865 [I.F.: 4.200]

44) F. Accornero*, A. Rubino, G. Marano, A. Carpinteri, “Smart construction of fibre-reinforced concrete structures: Size-scale effects on minimum reinforcement and plastic rotation capacity”, Smart Construction and Sustainable Cities, 2024, 2:12. DOI: 10.1007/s44268-024-00034-6

45) Z. Jiang*, Z. Zhu, F. Accornero, “Tensile-to-shear crack transition in the compression failure of steel-fibre reinforced concrete: Insights from AE monitoring”, Buildings, 2024, 14:2039. DOI: 10.3390/buildings14072039 [I.F.: 3.100]

46) Z. Jiang, Z. Zhu, F. Accornero, C. Wang*, “Multi-technique analysis of seawater impact on the performance of calcium sulphoaluminate cement mortar”, Construction and Building Materials, 2024, 443:137717. DOI: 10.1016/j.conbuildmat.2024.137717 [I.F.: 7.693]

47) C. Wang, Z. Jiang, F. Accornero*, S. Zhou, Q. Ou, “Study on the properties of calcium sulphoaluminate cement influenced by seawater and salt ions”, ASCE Journal of Materials in Civil Engineering, 2024, DOI: 10.1061/JMCEE7/MTENG-19193 [I.F.: 3.100]

48) Z. Zhu, Z. Jiang*, F. Accornero, A. Carpinteri, “Correlation between seismic activity and acoustic emission on the basis of in-situ monitoring”, Natural Hazards and Earth System Sciences, 2024, DOI: 10.5194/egusphere-2024-688 [I.F.: 4.580]

49) A. Carpinteri, F. Accornero*, “Micro-damage instability mechanisms in composite materials: Cracking coalescence versus fibre ductility and slippage”, International Journal of Damage Mechanics, 2024, DOI: 10.1177/10567895241297313 [I.F.: 4.200]

50) J. Xu, Z. Fan*, F. Accornero, D. Wang, A. Carpinteri, J. Cai, “Atomic scale mechanism of bitumen-aggregate interfacial cracking: Insights from molecular dynamics simulation”, ASCE Journal of Materials in Civil Engineering, 2024, Accepted [I.F.: 3.100]

[Total I.F.: 146.820]