Publications

Submitted
Abasahl B, Abashev GG, Abdul-Aziz A, Abhishek R, Aditya D, Admal N, Adobes-Vidal M, Adonin SA, Agarwal A, Agrios A. Acknowledgement to Reviewers of Crystals in 2019. Submitted.
Giannopoulos GI, Georgantzinos SK, Kakavas PA, Anifantis NK. Elastic static and vibrational behaviour of fullerenes via a structural mechanics spring based method. Submitted.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. EVALUATION OF EFFECTIVE MECHANICAL PROPERTIES OF GRAPHENE-BASED NANOCOMPOSITES USING A MULTI-SCALE FINITE ELEMENT APPROACH. Submitted.
2021
Georgantzinos SK, Giannopoulos GI, Bakalis PA. Additive Manufacturing for Effective Smart Structures: The Idea of 6D Printing. Journal of Composites Science. 2021;5(5):119.
Georgantzinos SK. Editorial for the Special Issue on Characterization and Modelling of Composites. 2021.
Georgantzinos SK, Siampanis SG. Size-dependent elastic mechanical properties of γ-graphyne structures: A comprehensive finite element investigation. Materials & Design. 2021;202:109524.
Giannopoulos GI, Georgantzinos SK. Thermomechanical Behavior of Bone-Shaped SWCNT/Polyethylene Nanocomposites via Molecular Dynamics. Materials. 2021;14(9):2192.
2020
Georgantzinos SK, Stamoulis KP, Markolefas SI. Mechanical Response of Hybrid Laminated Polymer Nanocomposite Structures: A Multilevel Numerical Analysis. SAE International Journal of Aerospace. 2020;13(01-13-02-0018).
Georgantzinos SK, Stamoulis KP, Markolefas SI. Mechanical response of hybrid laminated polymer nanocomposite structures. 2020.
Georgantzinos SK, Markolefas SI, Mavrommatis SA, Stamoulis KP. Finite element modelling of carbon fiber-carbon nanostructure-polymer hybrid composite structures. MATEC Web of Conferences. 2020;314.
Georgantzinos SK, Kariotis K, Giannopoulos GI, Anifantis NK. Mechanical properties of hexagonal boron nitride monolayers: Finite element and analytical predictions. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science. 2020;234(20):4126-4135.
Giannopoulos GI, Georgantzinos SK, Anifantis NK. Thermomechanical Response of Fullerene-Reinforced Polymers by Coupling MD and FEM. Materials. 2020;13(18):4132.
Georgantzinos SK, Giannopoulos GI, Markolefas SI. Vibration Analysis of Carbon Fiber-Graphene-Reinforced Hybrid Polymer Composites Using Finite Element Techniques. Materials. 2020;13(19):4225.
2019
Office NE. Acknowledgement to Reviewers of Nanomaterials in 2018. Nanomaterials. 2019;9(1).
Giannopoulos GI, Georgantzinos SK, Tsiamaki A, Anifantis N. Combining FEM and MD to simulate C60/PA-12 nanocomposites. International Journal of Structural Integrity. 2019.
Stamoulis K, Georgantzinos SK, Giannopoulos GI. Damage characteristics in laminated composite structures subjected to low-velocity impact. International Journal of Structural Integrity. 2019.
Markolefas S, Papathanasiou TK, Georgantzinos SK. p-Extension of C0 continuous mixed finite elements for plane strain gradient elasticity. Archives of Mechanics. 2019;71(6):567-593.
Georgantzinos SK. THE ROLE OF MULTI-SCALE FINITE ELEMENT METHODS IN ANALYSIS AND DESIGN OF ADVANCED MECHANICAL AND AEROSPACE STRUCTURES. International Journal of Mechanical and Production Engineering Research and Development. 2019;9(4):805-808.
Georgantzinos SK, Giannikos I. A modeling framework for incorporating DEA efficiency into set covering, packing, and partitioning formulations. International Transactions in Operational Research. 2019;26(6):2387-2409.
2018
Georgantzinos SK. A CAD/CAE Approach For An Efficient Analysis of Contact Mechanics in Rolling Bearings. Journal of Applied Mathematics and Bioinformatics. 2018;8(2):65-82.
Stamoulis KP, Georgantzinos SK, Giannopoulos GI. A model of low-velocity impact damage assessment of laminated composite structures. MATEC Web of Conferences. 2018;188:01012.
Giannopoulos GI, Georgantzinos SK, Tsiamaki AS, Anifantis NK. Multiscale simulation of fullerene reinforced composite structures: From molecular dynamics to finite element continuum mechanics. MATEC Web of Conferences. 2018;188:01013.
Tsiamaki AS, Giannopoulos GI, Georgantzinos SK, Anifantis NK. Finite Element Modeling of Nanotubes. In: Carbon Nanotube-Reinforced Polymers. Elsevier; 2018. pp. 291-310.
2017
Georgantzinos SK. A CAD/CAE technique for an efficient prediction of bearings design fatigue life. OPTIMA - Operational Planning, Technological Innovations and Mathematical Applications. 2017.
Tsiamaki AS, Georgantzinos SK, Giannopoulos GI, Anifantis NK. Characterizing the Energy Storage in Unidirectionally Packed Single Walled Carbon Nanotube Bundles. Journal of Computational and Theoretical Nanoscience. 2017;14(11):5606-5616.
Georgantzinos SK. A new finite element for an efficient mechanical analysis of graphene structures using computer aided design/computer aided engineering techniques. Journal of Computational and Theoretical Nanoscience. 2017;14(11):5347-5354.
Giannopoulos GI, Georgantzinos SK. Tensile behavior of gallium nitride monolayer via nonlinear molecular mechanics. European Journal of Mechanics-A/Solids. 2017;65:223-232.
Georgantzinos SK, Giannopoulos GI. Thermomechanical buckling of single walled carbon nanotubes by a structural mechanics method. Diamond and Related Materials. 2017;80:27-37.
Georgantzinos SK, Markolefas S, Giannopoulos GI, Katsareas DE, Anifantis NK. Designing pinhole vacancies in graphene towards functionalization: Effects on critical buckling load. Superlattices and Microstructures. 2017;103:343-357.
Giannopoulos GI, Georgantzinos SK. Establishing detection maps for carbon nanotube mass sensors: molecular versus continuum mechanics. Acta Mechanica. 2017;228(6):2377-2390.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Thermoelastic Analysis of Graphene-Based Nanomaterials. Journal of Computations & Modelling. 2017;7(1):1-14.
2016
Georgantzinos SK. On the mechanics of nanocomposite structures using multiscale computational techniques. 3rd CryCybIW - International Conference on Cryptography, Cyber-Security and Information Warfare. 2016.
Georgantzinos SK, Giannopoulos GI, Fatsis A, Vlachakis NV. Analytical expressions for electrostatics of graphene structures. Physica E: Low-dimensional Systems and Nanostructures. 2016;84:27-36.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Coupled thermomechanical behavior of graphene using the spring-based finite element approach. Journal of Applied Physics. 2016;120(1):014305.
Giannopoulos GI, Kontoni D-PN, Georgantzinos SK. Efficient FEM simulation of static and free vibration behavior of single walled boron nitride nanotubes. Superlattices and Microstructures. 2016;96:111-120.
Giannopoulos GI, Georgantzinos SK. Mechanical characterization of boron-nitride nanoribbons via nonlinear structural mechanics. Journal of Nano Research. 2016;40:58-71.
2015
Giannopoulos GI, Georgantzinos SK, Anifantis NK. Coupled vibration response of a shaft with a breathing crack. Journal of Sound and Vibration. 2015;336:191-206.
Spanos KNꎬ, Georgantzinos SKꎬ, Anifantis NK. Mechanical properties of graphene nanocomposites: a multiscale finite element prediction. Composite Structures. 2015;132:536-544.
Sih G, Tserpes K, Georgantzinos SK, Giannopoulos GI, Pierou PK, Anifantis NK. Numerical stability analysis of imperfect single-walled carbon nanotubes under axial compressive loads. International Journal of Structural Integrity. 2015.
2014
Georgantzinos SK, Anifantis NK. Crack closure. Encyclopedia of Thermal Stresses (edit. RB Hetnarski). Springer Netherlands. 2014;774(779).
Georgantzinos SK, Anifantis NK. Crack closure,[In:] Encyclopedia of Thermal Stresses, RB Hetnarski. 2014.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. The effect of atom vacancy defect on the vibrational behavior of single-walled carbon nanotubes: a structural mechanics approach. Advances in Mechanical Engineering. 2014;6:291645.
Georgantzinos SK, Giannopoulos GI, Spanos KN, Anifantis NK. A Heterogeneous Discrete Approach of Interfacial Effects on Multi-Scale Modelling of Carbon Nanotube and Graphene Based Composites. In: Modeling of Carbon Nanotubes, Graphene and their Composites. Springer, Cham; 2014. pp. 83-109.
Spanos KN, Georgantzinos SK, Anifantis NK. Investigation of stress transfer in carbon nanotube reinforced composites using a multi-scale finite element approach. Composites Part B: Engineering. 2014;63:85-93.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Mechanical vibrations of carbon nanotube-based mass sensors: an analytical approach. Sensor Review. 2014.
Tsiamaki AS, Georgantzinos SK, Anifantis NK. Monolayer graphene resonators for mass detection: a structural mechanics feasibility study. Sensors and Actuators A: Physical. 2014;217:29-38.
Giannopoulos GI, Georgantzinos SK, Kontoni DPN, Kakavas PA. TENSILE BEHAVIOR OF BORON-NITRIDE NANORIBBONS VIA A NON-LINEAR SPRING BASED STRUCTURAL MECHANICS APPROACH. In: 6th IC-SCCE. Vol. Athens. Athens ; 2014. Publisher's VersionAbstract
Boron nitride, like graphene, can be formed as one-atom thick sheets or as nanotubes, then cut into nanoribbons with their atoms arranged in a hexagonal lattice. Two-dimensional hexagonal boron-nitride nanoribbons have been extensively investigated due to their excellent mechanical properties and high thermal conductivity. They also resist chemical change and are unaffected by high temperatures, leading researchers to believe that they could be consummate nanomaterials. The dimensions of boron-nitride nanoribbons as well as the shape of their edges, which may be armchair or zigzag, may affect the overall behavior of the nanoribbons. In the present paper, the mechanical behavior of different sized zigzag and armchair boron nitride nanoribbons is numerically investigated and predicted by using a structural mechanics approach based on the Brenner potential for boron nitride bonds. According to the proposed method, appropriate spring elements are combined in nanoscale in order to simulate the interatomic interactions appearing within boron-nitride nanostructure. The study focuses on the prediction of tensile stress-strain behavior of boron-nitride nanoribbons of different sizes and edge shapes as well as the estimation of significant corresponding material properties such as Young’s modulus, Poisson’s ratio, tensile strength stress and tensile failure strain. The numerical results, which are compared with corresponding data given in the open literature where possible, demonstrate thoroughly the important influence of size and chirality of a narrow boron nitride monolayer on its mechanical behavior.
2013
Anifantis NK, Georgantzinos SK, Giannopoulos GI, Kakavas PA. Advances in Elastomers II: Composites and Nanocomposites. Visakh, PM. 2013.
Giannopoulos GI, Georgantzinos SK, Kakavas PA, Anifantis NK. Radial stiffness and natural frequencies of fullerenes via a structural mechanics spring-based method. Fullerenes, Nanotubes and Carbon Nanostructures. 2013;21(3):248-257.
Anifantis NK, Georgantzinos SK, Giannopoulos GI, Kakavas PA. Elastomer macrocomposites. In: Advances in Elastomers II. Springer, Berlin, Heidelberg; 2013. pp. 11-68.
Giannopoulos GI, Tsiros AP, Georgantzinos SK. Prediction of elastic mechanical behavior and stability of single-walled carbon nanotubes using bar elements. Mechanics of Advanced Materials and Structures. 2013;20(9):730-741.
2012
Georgantzinos SK, Anifantis NK. Vibrational analysis of carbon nanotube based mass sensors: Analytical vs. Numerical predictions. ICCES2012 - International Conference on Computational & Experimental Engineering and Sciences. 2012.
Georgantzinos SK, Katsareas DE, Anifantis NK. Limit load analysis of graphene with pinhole defects: A nonlinear structural mechanics approach. International Journal of Mechanical Sciences. 2012;55(1):85-94.
Bouboulas AS, Georgantzinos SK, Anifantis NK. Vibration analysis of cracked beams using the finite element method. Advances in vibration engineering and structural dynamics. 2012:181-204.
2011
Georgantzinos SK, Katsareas DE, Anifantis NK. Graphene characterization: a fully non-linear spring-based finite element prediction, Phys. E Low-Dimens. Syst. Nanostruct. 2011;43:183.
Georgantzinos SK, Anifantis NK. An Atomistic-based Spring-mass Finite Element Approach for Vibration Analysis of Carbon Nanotube Mass Detectors. Advances in Vibration Analysis Research. 2011:115.
Georgantzinos SK, Katsareas DE, Anifantis NK. Graphene characterization: A fully non-linear spring-based finite element prediction. Physica E: Low-dimensional Systems and Nanostructures. 2011;43(10):1833-1839.
Georgantzinos SK, Giannopoulos GI, Katsareas DE, Kakavas PA, Anifantis NK. Size-dependent non-linear mechanical properties of graphene nanoribbons. Computational Materials Science. 2011;50(7):2057-2062.
2010
Γεωργαντζίνος Στυλιανός. Πρόβλεψη συμπεριφοράς και αστοχιών νανοδομών με υπολογιστικές διαδικασίες. 2010.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Effective young's modulus of carbon nanotube composites: From multi-scale finite element predictions to an analytical rule. Journal of Computational and Theoretical Nanoscience. 2010;7(8):1436-1442.
Giannikos I, Georgantzinos S. Enhancing demand covering models by exploiting data envelopment analysis (DEA) efficiency scores. EURO Working Group on Locational Analysis VIII, Napoli, Italy. 2010.
Georgantzinos SK, Anifantis NK. Applications of computational technology in the simulation of the behavior of nanostructured materials. 9th DURACOSYS - International Conference on Durability of Composite Systems. 2010.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. A Spring-Based Finite Element Model for the Prediction of Mechanical Properties of Carbon Nanotubes and their Composites. In: Computational Mechanics Research Trends. Nova Science Publishers; 2010. pp. 189-217.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. On the coupling of axial and shear deformations of single-walled carbon nanotubes and graphene: a numerical study. Proceedings of the Institution of Mechanical Engineers, Part N: Journal of Nanoengineering and Nanosystems. 2010;224(4):163-172.
Georgantzinos SK, Anifantis NK. EVALUATION OF MASS SENSING CHARACTERISTICS OF SINGLE-WALLED CARBON NANOTUBES. In: Advanced Topics In Scattering Theory And Biomedical Engineering. ; 2010. pp. 337-344.
Georgantzinos SK, Anifantis NK. Carbon nanotube-based resonant nanomechanical sensors: a computational investigation of their behavior. Physica E: Low-dimensional Systems and Nanostructures. 2010;42(5):1795-1801.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Numerical investigation of elastic mechanical properties of graphene structures. Materials & Design. 2010;31(10):4646-4654.
Giannopoulos GI, Georgantzinos SK, Katsareas DE, Anifantis NK. Numerical prediction of young's and shear moduli of carbon nanotube composites incorporating nanoscale and interfacial effects. Computer Modeling in Engineering and Sciences (CMES). 2010;56(3):231.
Giannopoulos GI, Georgantzinos SK, Anifantis NK. A semi-continuum finite element approach to evaluate the Young’s modulus of single-walled carbon nanotube reinforced composites. Composites Part B: Engineering. 2010;41(8):594-601.
2009
Γεωργαντζίνος Στυλιανός. Χρήση της περιβάλλουσας ανάλυσης δεδομένων για την αποδοτική κάλυψη ή σύμπτηξη ενός συνόλου. 2009.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. An efficient numerical model for vibration analysis of single-walled carbon nanotubes. Computational Mechanics. 2009;43(6):731-741.
Georgantzinos SK, Giannopoulos GI, Anifantis NK. Investigation of stress–strain behavior of single walled carbon nanotube/rubber composites by a multi-scale finite element method. Theoretical and Applied Fracture Mechanics. 2009;52(3):158-164.
Georgantzinos SK, Anifantis NK. Vibration analysis of multi-walled carbon nanotubes using a spring–mass based finite element model. Computational Materials Science. 2009;47(1):168-177.
2008
Georgantzinos SK, Giannopoulos GI, Anifantis NK. EVALUATION OF VIBRATIONAL CHARACTERISTICS OF CARBON NANOTUBE RESONATORS. In: Advanced Topics In Scattering And Biomedical Engineering. ; 2008. pp. 133-140.
Georgantzinos SK, Anifantis NK. An insight into the breathing mechanism of a crack in a rotating shaft. Journal of Sound and Vibration. 2008;318(1-2):279-295.