textbook
[1] Madenci, E. and Oterkus, E., Peridynamic Theory and Its Applications, Springer (2014).
Book chapters/ ReportS
2018
[1] Kefal, A., Tessler, A. and Oterkus, E., 2018, “An Efficient Inverse Finite Element Method for Shape and Stress Sensing of Laminated Composite and Sandwich Plates and Shells,” NASA/TP-2018-220079.
[2] Truelock, D., Czaban, Z., Luo, H., Wang, X., Holtmann, M., Begovic, E., Yasuda, A., Ventura, M., Nicholls-Lee, R., Oterkus, E. and Sensharma, P., 2018, Special Craft Committee V.5 Report, Proceedings of the 20th International Ship and Offshore Structures Congress, Kaminski, M. L. and Rigo, P. editors, pp. 279-345, IOS Press.
2017
[1] Aydin, L., Artem, H. S., Oterkus, E., Gundogdu, O. and Akbulut, H., 2017, Mechanics of Fiber Composites, Fiber Technology for Fiber-Reinforced Composites, Seydibeyoglu, M. O., Mohanty, A. K. and Misra, M. editors, pp. 5-50, Woodhead Publishing.
2016
[1] Madenci, E. and Oterkus, E., 2016, Peridynamic modeling of fiber-reinforced composites, Handbook of Peridynamic Modeling, Bobaru, F., Foster, J. T., Geubelle, P. and Silling, S. A. editors, pp. 345-386, CRC Press.
[2] Madenci, E. and Oterkus, S., 2016, Peridynamics for Coupled Field Equations. Handbook of Peridynamic Modeling, Bobaru, F., Foster, J. T., Geubelle, P. and Silling, S. A. editors, pp. 489-530, CRC Press.
[3] Oterkus, E., Diyaroglu, C., De Meo, D. and Allegri, G., 2016, Fracture Modes, Damage Tolerance and Failure Mitigation in Marine Composites, Marine Applications of Advanced Composite Materials, Graham-Jones, J. and Summerscales, J. editors, pp. 79-102, Woodhead Publishing.
2015
[1] Oterkus, E., Diyaroglu, C., Zhu, N., Oterkus, S. and Madenci, E., 2015, Utilization of Peridynamic Theory for Modeling at the Nano-scale, Nanopackaging: from Nanomaterials to The Atomic Scale, Joachim, C., Poupon, G. and Baillin, X., editors, pp. 1-16, Springer.
[2] Brennan, F. P., Branner, K., den Besten, J. H., Horn, A. M., Ki Choi, B., Mao, W., Nakamura, T., Oterkus, E., Paranhos Pasqualino, I., Parmentier, G., Rizzo, C., Romanoff, J., Rorup, J., Samanta, A., Theodoulidis, A., Wang, F., Wang, G., Chen, N., 2015, Fatigue and Fracture Committee III.2 Report, Proceedings of the 19th International Ship and Offshore Structures Congress, Guedes Soares, C. and Garbatov, Y. editors, pp. 351-413, CRC Press.
2014
[1] Czuko, J., Buannic, N., Ehlers, S., Hung, C.-F., Klaebo, F., Pahos, S. J., Riley, M., Tang, W., Vredevelt, A., Waegter, J., Underwood, J., Kaminski, M., Tabri, K., Oterkus, E. and Rizzuto, 2014, Damage Assessment Following Accidents Committee Report Vol. 3, Proceedings of the 18th International Ship and Offshore Structures Congress, Fricke, W. and Bronsart, R. editors, Schiffbautechnische Gesellschaft.
[2] Schipperen, I., Andric, J., Brennan, D., Caprace, J. D., Chou, C.-M., Gordo, J., Lee, J. H., Li, L., Liu, S., Okada, T., Pires, F., Yu, M., Osawa, N., Ivaldi, A., Wang, F., Oterkus. E., Kaminski, M., 2014, Materials and Fabrication Technology Committee Report Vol. 3, Proceedings of the 18th International Ship and Offshore Structures Congress, Fricke, W. and Bronsart, R. editors, Schiffbautechnische Gesellschaft.
Refereed articles
2020
[1] Imachi, M., Tanaka, S., Ozdemir, M., Bui, T.Q., Oterkus, S. and Oterkus, E., 2020, “Dynamic Crack Arrest Analysis by Ordinary State-based Peridynamics,” accepted to International Journal of Fracture on 03/12/2019.
[2] Vazic, B., Diyaroglu, C., Oterkus, E. and Oterkus, S., 2020, “Family Member Search Algorithms for Peridynamic Analysis,” accepted to Journal of Peridynamics and Nonlocal Modeling on 29/09/2019.
[3] Nguyen, C. T. and Oterkus, S., 2020, “Ordinary State-Based Peridynamic Model for Geometrically Nonlinear Analysis,” Engineering Fracture Mechanics, Vol. 224, 106750.
[4] Li, M., Kefal, A., Cerik, B. and Oterkus, E., 2020, “Dent Damage Identification in Stiffened Cylindrical Structures Using Inverse Finite Element Method,” Ocean Engineering, Vol. 198, 106944.
[5] Vazic, B., Oterkus, E. and Oterkus, S., 2020, “In-plane and Out-of-plane Failure of An Ice Sheet Using Peridynamics,” Journal of Mechanics.
[6] Zhu, N. and Oterkus, E., 2020, “Calculation of Stress Intensity Factor Using Displacement Extrapolation Method in Peridynamic Framework,” Journal of Mechanics.
[7] Yang, Z., Vazic, B., Diyaroglu, C., Oterkus, E. and Oterkus, S., 2020, “A Kirchhoff Plate Formulation in a State-Based Peridynamic Framework,” Mathematics and Mechanics of Solids, Vol. 25(3), pp. 727-738.
2019
[1] Celik, E., Oterkus, E., and Guven, I., 2019, “Investigation of Thickness-Dependent Elastic Moduli of Polymer Thin Films Using Peridynamics,” Journal of Peridynamics and Nonlocal Modeling, Vol. 1, pp. 36-44.
[2] Nguyen, C. T. and Oterkus, S., 2019, “Peridynamics formulation for beam structures to predict damage in offshore structures,” Ocean Engineeering, Vol. 173, pp. 244-267.
[3] Gao, Y., and Oterkus, S., 2019, “Fully coupled thermomechanical analysis of laminated composites by using ordinary state based peridynamic theory,” Composite Structures, Vol. 207, pp. 397-424.
[4] Liu, X., Bie, Z., Wang, J., Sun, L., Tian, M., Oterkus, E. and He, X., 2019, “Investigation on Fracture of Pre-cracked Single-layer Graphene Sheets,” Computational Materials Science, Vol. 159, pp. 365-375.
[5] Kefal, A., Maruccio, C., Quaranta, G. and Oterkus, E., 2019, “Modelling and Parameter Identification of Electromechanical Systems for Energy Harvesting and Sensing,” Mechanical Systems and Signal Processing, Vol. 121, pp. 890-912.
[6] Hemmati, A., Oterkus, E. and Khoransanchi, M., 2019, “Vibration Suppression of Offshore Wind Turbine Foundations using Tuned Liquid Column Dampers and Tuned Mass Dampers,” Ocean Engineering, Vol. 172, pp. 286-295.
[7] Imachi, M., Tanaka, S., Bui, T. Q., Oterkus, S. and Oterkus, E., 2019, “A computational approach based on ordinary state-based peridynamics with new transition bond for dynamic fracture analysis,” Engineering Fracture Mechanics, Vol. 206, pp. 359-374.
[8] Yang, Z., Oterkus, E., Nguyen, C. T. and Oterkus, S., 2019, “Implementation of Peridynamic Beam and Plate Formulations in Finite Element Framework,” Continuum Mechanics and Thermodynamics, Vol. 31(1), pp. 301-315.
[9] Basoglu, M. F., Zerin, Z., Kefal, A. and Oterkus, E., 2019, “Peridynamic Model for Deflecting Propagation of Cracks with Micro-cracks,” Computational Materials Science, Vol. 162, pp. 33-46.
[10] Gao, Y. and Oterkus, S., 2019, “Nonlocal Numerical Simulation of Low Reynolds Number Laminar Fluid Motion by Using Peridynamic Differential Operator,” Ocean Engineering, Vol. 179, pp. 135-158.
[11] Galadima, Y., Oterkus, E. and Oterkus, S. “Two-dimensional Implementation of the Coarsening Method for Linear Peridynamics,” AIMS Materials Science, Vol. 6(2), pp. 252-275.
[12] Diyaroglu, C., Oterkus, E. and Oterkus, S., 2019, “An Euler-Bernoulli Beam Formulation in Ordinary-State Based Peridynamic Framework,” Mathematics and Mechanics of Solids, Vol. 24(2), pp. 361-376.
[13] Jaen Sola, P., McDonald, A. and Oterkus, E., 2019, “Lightweight Design of Direct-Drive Wind Turbine Electrical Generators: A Comparison Between Steel and Composite Material Structures,” Ocean Engineering, Vol. 181, pp. 330-341.
[14] Gao, Y. and Oterkus, S., 2019, “Non-local Modeling for Fluid Flow Coupled with Heat Transfer by Using Peridynamic Differential Operator,”Engineering Analysis with Boundary Elements, Vol. 105, pp. 104-121.
[15] Hemmati, A., Oterkus, E. and Barltrop, N., 2019, “Fragility reduction of offshore wind turbines using tuned liquid column dampers,” Soil Dynamics and Earthquake Engineering, Vol. 125, 105705.
[16] Xia, W., Galadima, Y.K., Oterkus, E. and Oterkus, S., 2019, “Representative Volume Element Homogenisation of a Composite Material by Using Bond-Based Peridynamics” Journal of Composites and Biodegradable Polymers, Vol. 7, pp. 51-56.
[17] Huang, Y., Oterkus, S., Hou, H., Oterkus, E., Wei, Z. and Zhang, S., 2019, “Peridynamic model for visco-hyperelastic material deformation in different strain rates,” accepted to Continuum Mechanics and Thermodynamics on 06/11/2019.
[18] Ntavarinos N., Davies, P. and Oterkus, E., 2019, “Assessment of Energy Storage Technologies for Case Studies with Increased Renewable Energy Penetration,” Annals of Limnology and Oceanography, Vol. 4(1), pp. 001-014.
[19] Kefal, A., Sohouli, A., Oterkus, E., Yildiz, M. and Suleman, A., 2019, “Topology optimization of cracked structures using peridynamics,” Continuum Mechanics and Thermodynamics, Vol. 31(6), pp. 1645-1672.
[20] Nguyen, C. T. and Oterkus, S., 2019, “Peridynamics for the Thermomechanical Behavior of Shell Structures,” Engineering Fracture Mechanics, Vol. 219, 106623.
2018
[1] Gao, Y. and Oterkus, S., 2018, “Ordinary state-based peridynamic modelling for fully coupled thermoelastic problems,” Continuum Mechanics and Thermodynamics, 1-31.
[2] Gao, Y. and Oterkus, S., 2018, “Peridynamic Analysis of Marine Composites under Shock Loads by Considering Thermomechanical Coupling Effects,” Journal of Marine Science and Engineering, Vol. 6(2), p.38.
[3] Diyaroglu, C., Madenci, E., Oterkus, S. and Oterkus, E., 2018, “A Novel Moisture Diffusion Modeling Approach Using Finite Element Analysis,” Electronics, Vo.7(12), 438.
[4] Liu, X., He, X., Wang, J., Sun, L. and Oterkus, E., 2018, “Ordinary State-based Peridynamics Based Study of Fracture in Single Layer Graphene Sheets,” Proceedings of the Royal Society A, Vol. 474, 20180019.
[5] Javili, A., Morasata, R., Oterkus, E. and Oterkus, S., 2018, “Peridynamics Review,” Mathematics and Mechanics of Solids, p.1081286518803411.
[6] Hemmati, A. and Oterkus, E., 2018, “Semi-active structural control of offshore wind turbines considering damage development,” Journal of Marine Science and Engineering, Vol. 6(3), 102.
[7] Ji, X., Karr, D. G. and Oterkus, E., 2018, “A Non-simultaneous Dynamic Ice-structure Interaction Model,” Ocean Engineering, Vol. 166, pp. 278-289.
[8] Wang, H., Oterkus, E. and. Oterkus, S., 2018, “Three-Dimensional Peridynamic Model to Predict Fracture Evolution during Lithiation Process,” Energies, Vol. 11(6), 1461.
[9] Jaen Sola, P., McDonald, A. and Oterkus, E., 2018, “Dynamic Structural Design of Offshore Direct-Drive Wind Turbine Electrical Generators,” Ocean Engineering, Vol. 161, pp. 1-19.
[10] Wang, H., Oterkus, E. and Oterkus, S., 2018, “Predicting Fracture Evolution During Lithiation Process by Using Peridynamics,” Engineering Fracture Mechanics, Vol. 192, pp. 176-191.
[11] Wang, H., Oterkus, E. and Oterkus, S., 2018, “Peridynamic Modelling of Fracture in Marine Lithium-Ion Batteries,” Ocean Engineering, Vol. 151, pp. 257-267.
[12] Ji, X. and Oterkus, E., 2018, “Physical Mechanism of Ice-Structure Interaction,” Journal of Glaciology, Vol. 64, Issue 244, pp. 197-207.
[13] Kefal, A., Mayang, J. B., Oterkus, E. and Yildiz, M., 2018, “Three Dimensional Shape and Stress Monitoring of Bulk Carriers Based on iFEM Methodology,” Ocean Engineering, Vol. 147, pp. 256-267.
[14] Diyaroglu, C. and Oterkus, E., 2018, “Peridynamics for Marine Structures Applications,” Yildiz Technical University Naval Architecture and Marine Engineering Electronic Bulletin, Vol. 2018/1, pp. 1-10.
[15] Chung, W.-J., Oterkus, E. and Lee, J.-M., 2018, “Peridynamic Modeling for Crack Propagation Analysis of Materials,” Journal of the Computational Structural Engineering Institute of Korea, Vol. 31 (2), pp. 105-114.
[16] Huang, Y., Hou, H., Oterkus, S., Yang, J., and Zhang, S. 2018, “Mechanical and Acoustic Performance Prediction Model for Elastomers in Different Environmental Condition,” Journal of the Acoustical Society of America, Vol.144 (4), pp. 2269-2280.
[17] Young, D.G., Ng, C., Oterkus, S., Li, Q. and Johanning, L., 2018, “Assessing the mechanical stresses of dynamic cables for floating offshore wind applications,” In Journal of Physics: Conference Series, Vol. 1102, No. 1, p. 012016.
2017
[1] Oterkus, S. and Madenci, E., 2017, “Peridynamic modeling of fuel pellet cracking,” Engineering Fracture Mechanics, Vol. 176, pp. 23-37.
[2] Madenci, E. and Oterkus, S., 2017, “Ordinary state-based peridynamics for thermoviscoelastic deformation,” Engineering Fracture Mechanics, Vol. 175, pp. 31-45.
[3] Diyaroglu, C., Oterkus, S., Oterkus, E. and Madenci, E., 2017, “Peridynamic Modeling of Diffusion by Using Finite Element Analysis,” IEEE Transactions on Components, Packaging and Manufacturing Technology, Vol. 7 (11), pp. 1823-1831.
[4] Amirafshari, P., Barltop, N. Wright, M., Bharadwaj, U. and Oterkus, S., 2017, “A review of NDE Methods for New-Built Ships Undergoing Class Inspections,” Journal of Ship Production and Design, Vol. 33 (2), pp. 1-11.
[5] Kefal, A., Tessler, A. and Oterkus, E., 2017, “An Enhanced Inverse Finite Element Method for Displacement and Stress Monitoring of Multilayered Composite and Sandwich Structures,” Composite Structures, Vol. 179, pp. 514-550.
[6] Wang, H., Oterkus, E., Celik, S. and Toros, S., 2017, “Thermomechanical Analysis of Porous Solid Oxide Fuel Cell by Using Peridynamics,” AIMS Energy, Vol. 5(4), pp. 585-600.
[7] De Meo, D. and Oterkus, E., 2017, “Finite Element Implementation of a Peridynamic Pitting Corrosion Damage Model,” Ocean Engineering, Vol. 135, pp. 76-83.
[8] De Meo, D., Russo, L. and Oterkus, E., 2017, “Modeling of the Onset, Propagation and Interaction of Multiple Cracks Generated from Corrosion Pits by Using Peridynamics,” ASME Journal of Engineering Materials and Technology, Vol. 193(4), 041001.
[9] Oterkus, S., Madenci, E. and Oterkus, E., 2017, “Fully Coupled Poroelastic Formulation for Fluid-Filled Fractures,” Engineering Geology, Vol. 225, pp. 19-28.
[10] Yang, Z. and Oterkus, E., 2017, “Corrosion Detection in Pipelines Based on Measurement of Natural Frequencies,” Open Journal of Oceanography, Vol. 2 (1), pp. 1-6.
[11] Diyaroglu, C., Oterkus, S., Madenci, E., Oterkus, E., Han, S. W. and Hwang, Y., 2017, “Peridynamic Wetness Approach for Moisture Concentration Analysis in Electronic Packages,” Microelectronics Reliability, Vol. 70, pp. 103-111.
[12] Vazic, B., Wang, H., Oterkus, S. and Oterkus, E., 2017, “Dynamic Propagation of a Macrocrack Interacting with Parallel Small Cracks,” AIMS Materials Science Journal, Vol. 4(1), pp. 118-136.
[13] Park, S., Jeong, B., Lee, B.S., Oterkus, S. and Zhou, P., 2017, “Potential risk of vapour cloud explosion in FLNG liquefaction modules,” Ocean Engineering, Vol. 149, pp. 423-437.
2016
[1] Madenci E. and Oterkus S., 2016, “Ordinary state-based peridynamics for plastic deformation according to von Mises yield criteria with isotropic hardening,” Journal of the Mechanics and Physics of Solids, Vol. 86, pp. 192-219.
[2] Zhu, N., De Meo, D. and Oterkus, E., 2016, “Modeling of Granular Fracture in Polycrystalline Materials by Using Ordinary State-Based Peridynamics,” Materials, Vol. 9(12), 977.
[3] Ji, X. and Oterkus, E., 2016, “A Dynamic Ice-Structure Interaction Model for Ice-Induced Vibrations by Using van der Pol Equation,” Ocean Engineering, Vol. 128, pp. 147-152.
[4] Kefal, A. and Oterkus, E., 2016, “Displacement and stress monitoring of a Panamax containership using inverse finite element method,” Ocean Engineering, Vol. 119, pp. 16-29.
[5] De Meo, D., Zhu, N. and Oterkus, E., 2016, “Peridynamic Modeling of Granular Fracture in Polycrystalline Materials,” ASME Journal of Engineering Materials and Technology, Vol. 138 (4), 041008.
[6] Kefal, A., Oterkus, E., Tessler, A. and Spangler, J., 2016, “A quadrilateral inverse-shell element with drilling degrees of freedom for shape sensing and structural health monitoring,” Engineering Science and Technology, an International Journal, Vol. 19 (3), pp. 1299-1313.
[7] De Meo, D., Diyaroglu, C., Zhu, N., Oterkus, E. and Siddiq, A., 2016, “Modelling of stress corrosion cracking by using peridynamics,” International Journal of Hydrogen Energy, Vol. 41 (15), pp. 6593-6609.
[8] Diyaroglu, C., Oterkus, E., Madenci, E., Rabczuk, T. and Siddiq, A., 2016, “Peridynamic modeling of composite laminates under explosive loading,” Composite Structures, Vol. 144, pp. 14-23.
[9] Kefal, A. and Oterkus, E., 2016, “Displacement and Stress Monitoring of a Chemical Tanker Based on Inverse Finite Element Method,” Ocean Engineering, Vol. 112, pp. 33-46.
[10] Amani, J., Oterkus, E., Areias, P. M., Zi, G., Nguyen-Thoi, T. and Rabczuk, T., 2016, “A non-ordinary state-based peridynamics formulation for thermoplastic fracture,” International Journal of Impact Engineering, Vol. 87, pp. 83-94.
[11] Oterkus, E. and Oterkus, S., 2016, “Peridynamics: A novel approach for material and structural modelling,” Journal of New Turkey, Vol. 90, Science and Technology Special Issue – III, pp. 378-381.
2015
[1] Oterkus S. and Madenci E., 2015, “Peridynamics for Anti-plane Shear and Torsional Deformations,” Journal of Mechanics of Materials and Structures, Vol. 10 (2), pp. 167-193.
[2] Diyaroglu, C., Oterkus, E., Oterkus, S. and Madenci, E., 2015, “Peridynamics for bending of beams and plates with transverse shear deformation,” International Journal of Solids and Structures, Vol. 69-70, pp. 152-168.
2014
[1] Oterkus S., Madenci E. and Agwai A., 2014, “Fully Coupled Peridynamic Thermomechanics,” Journal of the Mechanics and Physics of Solids, Vol. 64, pp. 1-23.
[2] Oterkus S., Madenci E. and Agwai A., 2014, “Peridynamic Thermal Diffusion,” Journal of Computational Physics, Vol. 265, pp. 71-96.
2012
[1] Oterkus, E., Guven, I. and Madenci, E., 2012, “Impact Damage Assessment by Using Peridynamic Theory,” Central European Journal of Engineering, Vol. 2, No. 4, pp. 523-531.
[2] Oterkus, E. and Madenci, E., 2012, “Peridynamic Analysis of Fiber Reinforced Composite Materials,” Journal of Mechanics of Materials and Structures, Vol. 7, No. 1, pp. 45-84.
[3] Oterkus, E. and Madenci, E., 2012, “Peridynamic Theory for Damage Initiation and Growth In Composite Laminate,” Key Engineering Materials, Vol. 488-489, 355-358.
[4] Oterkus, E., Madenci, E., Weckner, O., Silling, S., Bogert, P. and Tessler, A., 2012, “Combined finite element and peridynamic analyses for predicting failure in a stiffened composite curved panel with a central slot,” Composite Structures, Vol. 94, pp. 839-850.
2009
[1] Das, M., Oterkus, E., Madenci, E., and Razi, H., 2009, “Residual Strength of Sandwich Panels with Hail Damage,” Composite Structures, Vol. 88, No. 3, pp. 403-412.
2007
[1] Oterkus, E., Madenci, E., and Nemeth M.P., 2007, “Stress Analysis of Composite Cylindrical Shells with an Elliptical Cutout,” Journal of Mechanics of Materials and Structures, Vol. 2, No. 4, pp. 695-727.
2006
[1] Oterkus, E., Barut, A., Madenci, E., Smeltzer III, S.S. and Ambur, D.R., 2006, “Bonded lap joints of composite laminates with tapered edges,” International Journal of Solids and Structures, Vol. 43, No. 6, pp. 1459-1489.
2005
[1] Oterkus, E., Barut, A., Madenci, E. and Ambur, D.R., 2005, “Nonlinear Analysis of a Composite Panel with a Cutout Repaired by a Bonded Tapered Composite Patch,” International Journal of Solids and Structures, Vol. 42, No. 18-19, pp. 5274-5306.
[2] Alpay S., Bilir L., Ozdemir S. and Ozerdem B., 2005, “Wind Speed Time Series Characterization by Hilbert Transform,” International Journal of Energy Research, Vol. 30, pp. 359-364.
2000
[1] Alpay, S. and Ilken, Z., 2000, “Utilization of Downhole Heat Exchangers in Geothermal Energy,” Termodinamik, Journal of Heating, Cooling, Ventilation& Air Conditioning, Natural Gas, Vol. 98, pp. 66-71.
Conference proceedings/Presentations
2019
[1] Basoglu, M. F., Zerin, Z., Kefal, A. and Oterkus, E., 2019, “Increasing Toughness by Introducing Micro-cracks” ASME 2019 International Mechanical Engineering Congress & Exposition, 11-14 November 2019, Salt Lake City, UT, USA.
[2] Lu, W., Li, M., Vazic, B., Oterkus, S. and Oterkus, E., 2019, “Polycrystalline Ice Modelling Using Peridynamics” ASME 2019 International Mechanical Engineering Congress & Exposition, 11-14 November 2019, Salt Lake City, UT, USA.
[3] Li, M., Kefal, A., Cerik, B. C. and Oterkus, E., 2019, “Dent Damage Prediction by Using iFEM” ASME 2019 International Mechanical Engineering Congress & Exposition, 11-14 November 2019, Salt Lake City, UT, USA.
[4] Kefal, A. and Oterkus, E., 2019, “Isogeometric iFEM Analysis” ASME 2019 International Mechanical Engineering Congress & Exposition, 11-14 November 2019, Salt Lake City, UT, USA.
[5] Oterkus, E., 2019, “Novel Approaches for Safety Assurance in Ships and Offshore Structures,” 4th International Conference on Ships and Offshore Structures (ICSOS), 4-8 November 2019, Melbourne, Florida, USA.
[6] Heo, J., Yang, Z., Xia, W., Oterkus, S. and Oterkus, E., 2019, “Free Vibration Analysis of Cracked Plates using Peridynamics,” 4th International Conference on Ships and Offshore Structures (ICSOS), 4-8 November 2019, Melbourne, Florida, USA.
[7] Kochan, C. and Oterkus, E., 2019, “Preliminary Results of New 2D Fatigue Model by Peridynamic Theory,” The International Conference on Material Science and Technology, 18-20 October 2019, Kizilcahamam/Ankara, Turkey.
[8] Oterkus, E., 2019, “Recent Advances in Peridynamics Research,” Computational Modelling of Complex Materials Across the Scales Conference, 1-4 October 2019, Glasgow, UK.
[9] Oterkus, E., 2019, “Peridynamics: Past, Present and Future,” 29th International Workshop on Computational Mechanics of Materials, 15-18 September 2019, Dubrovnik, Croatia.
[10] Oterkus, E. and Oterkus, S., 2019, “Structural Health Monitoring of Ship Structures,” Europe-Korea Conference on Science and Technology (EKC2019), 15-18 July 2019, Vienna, Austria.
[11] Oterkus, E., 2019, “Overview on the Progress Activities of RO-FDP Project,” Workshop on “Floating Desalination Platforms Powered by Offshore Renewable Energy”, 21 June 2019, Glasgow, UK.
[12] Ozdemir, M., Kefal, A. and Oterkus, E., 2019, “Dynamic Behavior of Functionally Graded Plates using Bond-based Peridynamics,” International Conference on Nonlinear Solid Mechanics (ICONSOM), 16-19 June 2019, Rome, Italy.
[13] Lu, W., Li, M., Vazic, B. Oterkus, S. and Oterkus, E., 2019, “Peridynamic Modelling of Polycrystalline Ice,” 25th International Conference on Port and Ocean Engineering under Arctic Conditions (POAC), 9-13 June 2019, Delft, Netherlands.
[14] Oterkus, E., 2019, “Peridynamics and Its Applications,” Dissemination Serire of Scientific Researches at the University of Dunaujvaros, 4 June 2019, Dunaujvaros, Hungary.
[15] Li, M., Kefal, A., Cerik, B. and Oterkus, E., 2019, “Structural Health Monitoring of Submarine Pressure Hull Using Inverse Finite Element Method,” 7th International Conference on Marine Structures MARSTRUCT 2019, Dubrovnik, Croatia.
[16] Vazic, B., Oterkus, E. and Oterkus, S., 2019, “Peridynamic approach for modelling ice-structure interactions,” 7th International Conference on Marine Structures MARSTRUCT 2019, Dubrovnik, Croatia.
[17] Amin, I., Oterkus, E., Oterkus, S., Vazic, B., Shawky, H., Abdelfattah, M. E., Abozaid, D., Saied, M. M., Balah, A. and Bayoumi, S., 2019, “Hydrodynamics Evaluation of Hull Forms for an Offshore Desalination Plant (ODP) Supporting Wind Turbine” 3rd International Water Desalination Conference, 26-28 February 2019, Cairo, Egypt.
[18] Oterkus, E., 2019, “An Overview of Offshore Renewable Energy” 3rd International Water Desalination Conference, 26-28 February 2019, Cairo, Egypt.
[19] Richards, B., Dimakopoulos, A., Kees, C., Thies, P., Oterkus, S., Bruce, T. 2019, “2D Coupled CFD Model of an Oscillating Water Column using PROTEUS,” 4th International Conference on Offshore Renewable Energy, 29-30 August 2019, Glasgow, UK.
[20] Ogbeifun, A. M., Oterkus, S., Race, J., Naik, H., Decnop, E., Moorthy, D. and Bhowmik, S., 2019, “The Branched Steel Catenary Riser Interference Study,” Offshore Technology Conference Brasil, 29-31 October 2019, Rio de Janeiro, Brazil.
[21] Khalili,H., Oterkus,S., Barltrop, N., Bharadwaj U. and Tipping M., 2019, “System Reliability Calculation of Jacket Platforms Including Fatigue and Extreme Wave Loading,” 7th International Conference on Marine Structures (MARSTRUCT 2019), 6-8 May 2019, Dubrovnik, Croatia.
[22] Ogbeifun, A. M., Oterkus, S., Race, J., Naik, H., Decnop, E. and Moorthy, D., 2019, “The Branched Riser Systems: Concept Development,” 38th International Conference on Ocean, Offshore and Arctic Engineering (OMAE), 9-14 June 2019, Glasgow, UK.
2018
[1] Oterkus, E. and Oterkus, S., 2018, “Peridynamic Theory and Its Applications” Shechtman – Suresh Convocation & Honorary Symposium, 30 November -3 December 2018, Thessaloniki, Greece.
[2] Oterkus, E., Oterkus, S., Amin I. and Vazic, B., 2018, “Seawater Desalination Powered by Marine Renewable Energy” Workshop on Water Desalination & Renewable Energy for Sustainable Development, 25 November 2018, Cairo, Egypt.
[3] Yang, Z., Li, M., Oterkus, E. and Oterkus, S., 2018, “Peridynamic Modeling Using a Commercial Finite Element Software” ASME 2018 International Mechanical Engineering Congress & Exposition, 9-15 November 2018, Pittsburgh, PA, USA.
[4] Wang, H., Oterkus, E. and Oterkus, S., 2018, “Peridynamic Model to Predict Fracture Evolution During Lithiation Process” ASME 2018 International Mechanical Engineering Congress & Exposition, 9-15 November 2018, Pittsburgh, PA, USA.
[5] Galadima, Y. K., Oterkus, E. and Oterkus, S., 2018, “A Two-Dimensional Implementation of the Coarsening Method for Linear Peridynamics” ASME 2018 International Mechanical Engineering Congress & Exposition, 9-15 November 2018, Pittsburgh, PA, USA.
[6] Hong, K. and Oterkus, S., 2018, “Peridynamic Modelling of Fatigue Crack Growth In Welded Joints” ASME 2018 International Mechanical Engineering Congress & Exposition, 9-15 November 2018, Pittsburgh, PA, USA.
[7] Gao,Y. and Oterkus, S., 2018, “Fully Coupled Thermomechanical Peridynamic Analysis of Composite Structures” ASME 2018 International Mechanical Engineering Congress & Exposition, 9-15 November 2018, Pittsburgh, PA, USA.
[8] Oterkus, E., 2018, “Peridynamic theory and its applications,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[9] Oterkus, S., 2018, “Peridynamics for Multiphysics Problems,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[10] Gao, Y., Oterkus, S., 2018, “Thermomechanical Analysis of Underwater Shock Response of Marine Composites Using Peridynamic Theory”, ISOPE, Japan, 2018.
[11] Yang, Z. and Oterkus, E., 2018, “Timoshenko beam and Mindlin plate implementations in peridynamics,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[12] Kefal, A., Maruccio, C., Quaranta, G., Montegiglio, P and Oterkus, E., 2018, “Synchronization-based approach for parameters identification in linear and nonlinear energy harvesting systems dynamics,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[13] Basoglu, M. F., Zerin, Z., Kefal, A. and Oterkus, E., 2018, “Peridynamics simulations on the deflecting propagation of cracks with minor cracks,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[14] Vazic, B. and Oterkus, E., 2018, “Peridynamic model for fracture prediction of ice,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[15] Zhu, N. and Oterkus, E., 2018, “Ordinary state based peridynamic model to predict fracture in polycrystalline materials,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[16] Kefal, A., Sohouli, A., Oterkus, E., Yildiz, M. and Suleman, A., 2018, “Topology optimization of cracked structures using peridynamics,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[17] Gao, Y. and Oterkus, S., 2018, "Fully coupled thermomechanical analysis of composite structures by using bond based peridynamic theory", 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[18] Nguyen, C. and Oterkus, S., 2018, "Damage prediction in lattice structures by using peridynamics", 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[19] Huang, Y. and Oterkus, S., 2018, "Peridynamic modelling of viscoelastic materials", 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[20] Jaen Sola, P., McDonald, A. and Oterkus, E., 2018, “Dynamically designing an offshore direct-drive wind turbine electrical generator structure,” 28th International Workshop on Computational Mechanics of Materials, 10-12 September 2018, Glasgow, UK.
[21] Wang, H. and Oterkus, E., 2018, “Failure analysis of marine batteries by using peridynamics,” 4th International Symposium on Ocean Science and Technology, 30 August 2018, Glasgow, UK.
[22] Oterkus, E., 2018, “Peridynamic modeling of materials and structures,” 1st International Symposium on Mechanics, 9-12 July 2018, Aberdeen, UK.
[23] Oterkus, E., Yang, Z., Li, M. and Oterkus, S., 2018, “Finite element implementation of peridynamics,” 10th European Solid Mechanics Conference, 2-6 July 2018, Bologna, Italy.
[24] Young, D., Lars, J., Oterkus, S., Li, Q. “Predicting Failure of Dynamic Cables for Floating Offshore Wind”, Global Offshore Wind conference, 19-29 June 2018, Manchester, UK
[25] Ji, X., Karr, D. G. and Oterkus, E., 2018, “A Dynamic Ice-structure Interaction Model for Non-simultaneous Ice Failure” 28th International Ocean and polar Engineering Conference (ISOPE-2018), 10-15 June 2018, Sapporo, Hokkaido, Japan.
[26] Oterkus, E., 2018, “Peridynamics for Modelling Ice Fracture,” Prediction and Data Assimilation for Nonlocal Diffusions Workshop, 4-5 June 2018, Edinburgh, UK.
[27] Diyaroglu, C., Madenci, E., Oterkus, S. and Oterkus, E., 2018, “A Novel Finite Element Technique for Moisture Diffusion Modeling Using ANSYS,” 68th Electronic Components & Technology Conference, San Diego, California, USA.
[28] Oterkus, E., Oterkus, S., Diyaroglu, C. and Madenci, E., 2018, “Beam and Plate Formulations in Peridynamic Framework,” Workshop on “Encounter of the third kind” on “Generalized continua and microstructures”, Arpino, Italy.
[29] Oterkus, S.,2018, "Peridynamic modelling of fully coupled thermomechanics", Workshop on “Encounter of the third kind” on “Generalized continua and microstructures”, Arpino, Italy
[30] Oterkus, E., Diyaroglu, C., De Meo, D., Vazic, B., Wang, H. and Oterkus, S., 2018, “Peridynamics and Its Applications in Marine Structures,” Workshop on Ships and Offshore Structures 2018 (WSOS 2018), Glasgow, UK.
[31] Oh, D., Race, J., Oterkus, S. “Burst Pressure Prediction Method for API5LX pipeline”, Workshop on Ships and Offshore Structures 2018 (WSOS 2018), Glasgow, UK.
[32] Nho,H.,Race,J. , Oterkus, S. and Lee, J. “The Impact of Double Dents on Pipeline Integrity” Workshop on Ships and Offshore Structures 2018 (WSOS 2018), Glasgow, UK.
2017
[1] Sen, S., Karacuha, E., Oterkus, E., Kefal, A., Erdem, Z., Balci, B., Kerey, I. E. and Tuncer, G., 2017, “Deformation Risks of the Marmaray Tunnel and Requirement of Real-Time Monitoring Based on iFEM Method” International Tunneling Symposium in TURKEY, 2-3 December 2017, Istanbul, Turkey.
[2] Oterkus, E., Vazic, B., Ji, X. and Oterkus, S., 2017, “Peridynamic Modelling of Ice Fracture” Ice Fracture and Cracks Workshop (SIPW04), Isaac Newton Institute for Mathematical Sciences, Cambridge, UK.
[3] Hemmati, A., Oterkus, E., Khoransanchi, M. and Barltrop, N., 2017, “Effect of Tuned Mass Dampers on Fixed Offshore Wind Turbine Foundations,” Proceedings of Wind Europe Conference, November 28-30, 2017, Amsterdam, Netherlands.
[4] Vazic, B., Ji, X., Oterkus, E. and Oterkus, S., 2017, “Ice-Structure Interactions by Using Peridynamics” ASME 2017 International Mechanical Engineering Congress & Exposition, Tampa, FL, USA.
[5] Wang, H. and Oterkus, E., 2017, “Failure Analysis of Porous Solid Oxide Fuel Cells by Using Peridynamics” ASME 2017 International Mechanical Engineering Congress & Exposition, Tampa, FL, USA.
[6] Diyaroglu, C., Madenci, E., Oterkus, S. and Oterkus, E., 2017, “Moisture Diffusion Modelling by Using Peridynamics” ASME 2017 International Mechanical Engineering Congress & Exposition, Tampa, FL, USA.
[7] Chung, W.-J., Oterkus, E. and Lee, J.-M., 2017, “Bond-Based Peridynamic Damage Modeling of Fiber Reinforced Composite Lamina Materials” Proceedings of the Annual Autumn Conference, SNAK, 2-3 November 2017, Yeosu, South Korea.
[8] Chung, W.-J., Oterkus, E. and Lee, J.-M., 2017, “The Suggestion of Peridynamic Damage Analysis of 2-dimensional Isotropic Material” The Korean Society of Marine Engineering, 26-28 October 2017, Seoul, South Korea.
[9] Oterkus, E., 2017, “Corrosion Damage Modelling for Offshore Renewable Energy,” 7th IIW Welding Research and Collaboration Colloquium, 19-20 September 2017, Cambridge, UK.
[10] Jamieson, W., Bateman, W., Oterkus, E., Thies, P. and Robinson, A., 2017, “Composite Design of a Curved Oscillating Surge Wave Energy Converter,” 12th European Wave and Tidal Energy Conference (EWTEC 2017), 27 August-1 September 2017, Cork, Ireland.
[11] Kefal, A., Bunga Mayang, J. and Oterkus, E., 2017, “A Novel Methodology to Determine Optimum Sensor Locations for Bulk Carriers,” 4th Symposium on Fluid-Structure-Sound Interactions and Control, 21-24 August 2017, Tokyo, Japan.
[12] Tessler, A., Kefal, A. and Oterkus, E., 2017, “An Inverse Finite Element Method Based on Refined Zigzag Theory for Structural Health Monitoring of Laminated Composite and Sandwich Shell Structures,” 14th USNCCM Conference, Montreal, Canada.
[13] Oterkus, S., Madenci, E., 2017, “Peridynamics for Damage Prediction in Composite Laminates due to Thermo-Oxidation,” 14th USNCCM Conference, Montreal, Canada.
[14] Oterkus, E., De Meo, D. and Russo, L., 2017, “Peridynamic Modelling of Pit-to-Crack Transition,” 14th USNCCM Conference, Montreal, Canada.
[15] Kefal, A., Yildiz, M. and Oterkus, E., 2017, “Structural Health Monitoring of a Wing-Shaped Sandwich Panel using iFEM-RZT Methodology,” 3rd Joint Turkey-Japan Workshop on Polymeric Composite Materials, 6-7 July 2017, Kyoto, Japan.
[16] Sepulveda, M., Davies, P., Shek, J., Thies, P. E., Oterkus, E. and Spring, M., 2017, “Physics-Based Gearbox Failure Model for Multi-MW Offshore Wind Turbines,” ASME 2017 36th International Conference on Ocean, Offshore and Arctic Engineering, 25-30 June, 2017, Trondheim, Norway.
[17] Diyaroglu, C., Madenci, E., Oterkus, S. and Oterkus, E., 2017, “Peridynamic Solution of Wetness Equation with Time Dependent Saturated Concentration in ANSYS Framework,” 67th Electronic Components & Technology Conference, Lake Buena Vista, Florida, USA.
[18] Kefal, A. and Oterkus, E., 2017, “Shape and Stress Sensing of Offshore Structures by Using inverse Finite Element Method,” 6th International Conference on Marine Structures MARSTRUCT 2017, Lisbon, Portugal.
[19] Zhu, N., De Meo, D., Oterkus, S. and Oterkus, E., 2017, “Modeling Microstructure of Materials by Using Peridynamics,” 6th International Conference on Marine Structures MARSTRUCT 2017, Lisbon, Portugal.
[20] Ji, X. and Oterkus, E., 2017, “A New Van der Pol Equation Based Ice-Structure Interaction Model for Ice-Induced Vibrations,” 6th International Conference on Marine Structures MARSTRUCT 2017, Lisbon, Portugal.
[21] Oterkus, E., 2017, “Peridynamic Modeling of Stress Corrosion Cracking,” EUROMECH-Colloquium 579 on Generalized and Microstructured Continua, Arpino, Italy.
[22] Oterkus, S., 2017, “Thermo-Oxidative Damage Evolution in a Composite Lamina by using Peridynamics” Euromech Colloquium 579 Generalized and Microstructured Continua: New Ideas in Modelling and/or Applications to Structures with nearly Inextensible Fibers 3-8 April 2017, Arpino, Italy.
[23] Oterkus, S., Oterkus, E., Madenci, E. and Diyaroglu, C., 2017, “Hygro-Thermo-Vapor Analysis of Electronic Packages by Using Peridynamics,” iMAPS MICROTECH 2017, Didcot, UK.
[24] De Meo, D., Russo, L., Oterkus, E., Gunasegaram, D. and Cole, I., 2017, “Peridynamics for Predicting Pit-to-Crack Transition” 58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Grapevine, TX, Paper No.2017-0568.
[25] Kefal, A. and Oterkus, E., 2017, “Shape Sensing of Aerospace Structures by Coupling Isogeometric Analysis and Inverse Finite Element Method” 58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Grapevine, TX, Paper No.2017-0427.
[26] Sepulveda, M. A., Shek, J., Thies, P., Oterkus, E., Davies, P. and Spring, M., 2017, “Pitch System Failure Identification Using a Combination of Subject Matter Expert Knowledge of Offshore Wind Turbines and Machine Learning Techniques” Offshore Wind Energy 2017 Conference, London, UK.
[27] Sepulveda, M. A., Shek, J., Thies, P., Oterkus, E., Davies, P. and Spring, M., 2017, “Offshore Wind Farm O&M Optimisation: Using an Integral Approach for Failure Diagnosis and Prognosis” All-Energy Conference and Exhibition, Glasgow, UK.
[28] Oterkus, S. and Madenci, E., 2017, “Peridynamic Modeling of Thermo-Oxidative Damage Evolution in a Composite Lamina,” In 58th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference (p. 0197)
2016
[1] Oterkus, S., 2016, “Peridynamic modeling of materials and structures”, School of the CNRS International Associate Laboratory Coss & Vita On Models of Generalized Continua characterized by Quasi-Inextensible Fibrous Structures: New Ideas for Models and Applications 19-23 September 2016, Arpino, Italy.
[2] Oterkus, E., 2016, “Peridynamic modelling of microstructure and corrosion damage” Multiscale Mechanics of Deformation and Failure in Materials Symposium, Aberdeen, UK.
[3] Zhu, N., De Meo, D., Diyaroglu, C., Oterkus, E. and Oterkus, S., 2016, “Fracture Modelling of Polycrystalline Materials by Using Peridynamics” ASME 2016 International Mechanical Engineering Congress & Exposition, Phoenix, AZ, USA.
[4] Vazic, B., Ji, X., Diyaroglu, C., Oterkus, S. and Oterkus, E., 2016, “Ice Fracture Modelling by Using Peridynamics” ASME 2016 International Mechanical Engineering Congress & Exposition, Phoenix, AZ, USA.
[5] Wang, H., Oterkus, E. and Oterkus, S., 2016, “Fracture Modelling of Marine Lithium-Ion Batteries by Using Peridynamics” ASME 2016 International Mechanical Engineering Congress & Exposition, Phoenix, AZ, USA.
[6] Dipasquale, D., Oterkus, E., Sarego, G., Zaccariotto, M. and Galvanetto, U., 2016, “Refinement and Scaling Effects on Peridynamic Numerical Solutions” ASME 2016 International Mechanical Engineering Congress & Exposition, Phoenix, AZ, USA.
[7] Ji, X. and Oterkus, E., 2016, “A novel dynamic ice-structure interaction model for ice-induced vibrations,” Techno-Ocean 2016 Conference, Kobe, Japan.
[8] Han, S. W., Diyaroglu, C., Oterkus, S., Madenci, E., Oterkus, E., Hwang, Y. and Bae, J., 2016, “Peridynamic Direct Concentration Approach by Using ANSYS,” 66th Electronic Components & Technology Conference, Las Vegas, Nevada, USA.
[9] Madenci, E., Colavito, K., Oterkus, E., and Diyaroglu, C., 2016, “Peridynamics for Damage Prediction in Composites Due to Under Water Explosion” 11th International Conference on Sandwich Structures, South Ft. Lauderdale, FL, USA.
[10] Kefal, A. and Oterkus, E., 2016, “Shape- and Stress-Sensing of A Container Ship by Using Inverse Finite Element Method” The Royal Institution of Naval Architects (RINA) International Conference on Smart Ship Technology 2016, London, UK.
[11] Sepulveda, M. A., Shek, J., Thies, P., Oterkus, E., Davies, P., Spring, M. and Yilmaz, C., 2016, “Remaining Useful Life Estimation of Gearboxes through Combined Statistical and Physics-based Offshore Wind Turbine Modelling” American Wind Energy Association (AWEA) Conference, Warwick, RI, USA.
[12] Sepulveda, M. A., Spring, M., Davies, P., Shek, J., Thies, P. and Oterkus, E., 2016, “Risk Management in O&M for Offshore Wind Generation” Offshore Wind Operations & Maintenance Forum, London, UK.
2015
[1] Wang, H. and Oterkus, E., 2015, “Failure Analysis of Marine Lithium-Ion Batteries by Using Peridynamics” Shipping in Changing Climates Conference, Glasgow, UK.
[2] Oterkus, S. and Madenci, E., 2015, “Peridynamics for Fully Coupled Fluid Flow and Deformation Fields in a Porous Medium” ASME 2015 International Mechanical Engineering Congress & Exposition, Houston, TX, USA
[3] Oterkus, E., De Meo, D., Zhu, N. and Diyaroglu, C., 2015, “Stress Corrosion Cracking Modelling by Using Peridynamics” ASME 2015 International Mechanical Engineering Congress & Exposition, Houston, TX, USA.
[4] Diyaroglu, C., Oterkus, E., Oterkus, S. and Madenci, E., 2015, “An Ordinary State-Based Euler Beam Formulation in Peridynamics” ASME 2015 International Mechanical Engineering Congress & Exposition, Houston, TX, USA.
[5] Sola, P. J., McDonald, A. S. and Oterkus, E., 2015, “A Lightweight Approach for Airborne Wind Turbine Drivetrains” Europe’s Premier Wind Energy Event (EWEA) Conference, Paris, France.
[6] Oterkus, E., De Meo, D., Zhu, N. and Diyaroglu, C., 2015, “Peridynamic Modelling of Granular Fracture in Polycrystalline Materials” Sustainable Industrial Processing Summit & Exhibition – Aifantis International Symposium, Antalya, Turkey.
[7] Kefal, A., Hizir, O. and Oterkus, E., 2015, “A Smart System to Determine Sensor Locations for Structural Health Monitoring of Ship Structures” 9th International Workshop on Ship and Marine Hydrodynamics, Glasgow, UK.
[8] Madenci, E. and Oterkus, S., 2015, “Peridynamics for Modeling Crack Formation and Growth in Nuclear Fuel Pellets” USNCCM Conference, San Diego, CA, USA.
[9] Diyaroglu, C., Oterkus, E., De Meo, D. and Madenci, E., 2015, “Peridynamic Modelling of Underwater Shock Response of Marine Composite Structures” USNCCM Conference, San Diego, CA, USA.
[10] Han, S., Lim, S., Bae, J., Hwang, Y., Lee, S., Oterkus, S., Madenci, E., Diyaroglu, C. and Oterkus, E., 2015, “Equivalent Acceleration Assessment of JEDEC Moisture Sensitivity Levels Using Peridynamics,” 65th Electronic Components & Technology Conference, San Diego, California, USA.
[11] Diyaroglu, C., De Meo, D. and Oterkus, E., 2015, “A computational framework for underwater shock response of marine structures” 5th International Conference on Marine Structures MARSTRUCT 2015, Southampton, UK, appeared in Analysis and Design of Marine Structures V, Eds. C. Guedes Soares and R. A. Shenoi
[12] Kefal, A. and Oterkus, E., 2015, “Structural health monitoring of marine structures by using inverse finite element method” 5th International Conference on Marine Structures MARSTRUCT 2015, Southampton, UK, appeared in Analysis and Design of Marine Structures V, Eds. C. Guedes Soares and R. A. Shenoi
[13] De Meo, D., Diyaroglu, C., Zhu, N., Oterkus, E. and Siddiq, M. A., 2015, “Multiphysics modelling of stress corrosion cracking by using peridynamics” 5th International Conference on Marine Structures MARSTRUCT 2015, Southampton, UK, appeared in Analysis and Design of Marine Structures V, Eds. C. Guedes Soares and R. A. Shenoi
[14] Yolum, U., Tastan, A., Kahraman, T., Guler, M. A., Madenci, E. and Oterkus, E., 2015, “Modeling of Mode I Delamination Growth in Composites by Using Peridynamics Implemented in Abaqus” International Conference on Advances in Composite Materials and Structures, Istanbul, Turkey.
2014
[1] Madenci, E. and Oterkus, S., 2014, “Peridynamics for Stress and Strain Fields”, Society of Engineering Science 51st Annual Technical Meeting, 1-3 Oct 2014, West Lafayette, IN
[2] Oterkus, S., Madenci, E. and Oterkus, E., 2014, “Failure Prediction in Electronic Packages by Using Peridynamics” ASME 2014 International Mechanical Engineering Congress & Exposition, Montreal, Canada.
[3] Diyaroglu, C., Oterkus, E., Oterkus, S. and Madenci, E., 2014, “A Non-local Mindlin Plate Formulation in Peridynamics” ASME 2014 International Mechanical Engineering Congress & Exposition, Montreal, Canada.
[4] Oterkus, E. and Diyaroglu, C., 2014, “Multiscale Modelling of Ice-Structure Interactions by Using Peridynamics” Offshore Marintec Russia International Specialized Offshore Exhibition and Conference, St. Petersburg, Russia.
[5] Oterkus, E. and Dávila, C. G., 2014, “Investigating Path Dependency in Mixed-mode Fracture by Using Cohesive Zone Models” 11th World Congress on Computational Mechanics, Barcelona, Spain.
[6] Oterkus, S., Madenci, E. and Oterkus, E., 2014, “Hydraulic Fracturing Simulations by Using Peridynamics” 1st International Symposium on Energy Challenges & Mechanics, Aberdeen, Scotland, UK.
[7] Oterkus, S., Madenci, E. and Oterkus, E., 2014, “Peridynamic Modelling of Hydraulic Fracturing” 17th U.S. National Congress of Theoretical and Applied Mechanics, East Lansing, Michigan, USA.
[8] Madenci, E., Oterkus, S. and Barut, A., 2014, “Peridynamic J-2 Flow Theory with Isotropic Hardening,” 17th U.S. National Congress of Theoretical and Applied Mechanics, East Lansing, MI, USA
[9] Oterkus, S., Madenci, E., Oterkus, E., Hwang Y., Bae, J. and Han, S., 2014, “Hygro-Thermo-Mechanical Analysis and Failure Prediction in Electronic Packages by Using Peridynamics,” 64th Electronic Components & Technology Conference, Lake Buena Vista, Florida, USA.
[10] Oterkus, E., Madenci, E. and Oterkus, S., 2014, “Peridynamic Modeling of Structures Subjected to Shock Loading” NATO Applied Vehicle Technology Specialists’ Meeting, Copenhagen, Denmark.
[11] Oterkus, S. and Madenci, E., 2014, “Peridynamics for Fully Coupled Thermomechanical Analysis of Fiber Reinforced Laminates,” 55th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, National Harbor, Maryland, Paper No. AIAA 2014-0694
2013
[1] Oterkus, E., Diyaroglu, C., Oterkus, S. and Madenci, E., 2013, “Peridynamic Formulation for Beam and Shell Type Structures” USNCCM Conference, Raleigh, NC, USA.
[2] Oterkus, S. and Madenci, E., 2013, “Peridynamics for Anti-plane Shear and Torsional Deformations” USNCCM Conference, Raleigh, NC, USA.
[3] Oterkus, E., Zhu, N., Oterkus, S. and Madenci, E., 2013, “Utilization of Peridynamic Theory for Modeling at The Nano-scale” Nanopackaging Workshop, Grenoble, France.
[4] Oterkus, E., Oterkus, S. and Madenci, E., 2013, “Overview of Peridynamic Theory: Past and Present” IWPMEO Workshop, Antalya, Turkey.
[5] Oterkus, S., and Madenci, E., 2013, “Crack Growth Prediction in Fully-Coupled Thermal and Deformation Fields Using Peridynamic Theory” 54th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Boston, MA, Paper No.2013-1477.
[6] Oterkus, S., Fox, J., and Madenci, E., 2013, "Simulation of Electro-migration through Peridynamics," Proceedings of the 63th Electronic Components & Technology Conference, Las Vegas, NV.
[7] Madenci, E. and Oterkus, S., 2013, “Peridynamic Theory Fully-Coupled Thermal and Deformation Field” Workshop on Nonlocal Damage and Failure: Peridynamics and Other Nonlocal Models, San Antonio, TX.
2012
[1] Oterkus, E. and Madenci, E., 2012, “Ordinary State-Based Peridynamic Material Parameters for Fiber-reinforced Laminates” ASME Congress, Houston, TX, USA.
[2] Oterkus, E., Comlekci, T., Madenci, E. and Colavito, K., 2012, “Fatigue Failure Model by Using Ordinary State Based Peridynamic Theory” 10th World Congress on Computational Mechanics, Sao Paulo, Brazil.
[3] Oterkus, E., Barut, A. and Madenci, E., 2012, “Peridynamics Based on Principle of Virtual Work” 53th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Honolulu, HI, Paper No.2012-1540.
[4] Oterkus, E. and Madenci, E., 2012, “Peridynamics for Failure Prediction in Composites” 53th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Honolulu, HI, Paper No.2012-1692.
[5] Oterkus, E. and Madenci, E., 2012, “Ordinary State-Based Peridynamic Material Constants” 53th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Honolulu, HI, Paper No.2012-1946.
2011
[1] Oterkus, E., and Madenci, E., 2011, “Damage Prediction in Graphene Thermoplastics for Potential Electronic Packaging Applications,” Proceedings of the 61st Electronic Components & Technology Conference, Orlando, Florida.
[2] Oterkus, E., and Madenci, E., 2011, “Structural Stability and Failure of Composite Laminates Using Peridynamic Theory,” 16th International Conference on Composite Structures ICCS 16 A. J. M. Ferreira (Editor), FEUP, Porto, Portugal.
[3] Oterkus, E. and E. Madenci, 2011, “An Alternative Derivation of Ordinary State-Based Formulation of Peridynamic Theory, ” 11th U.S. National Congress on Computational Mechanics, Minneapolis, Minnesota.
[4] Oterkus, E. and E. Madenci, 2011, “Peridynamic Theory for Damage Initiation and Growth in Composite Laminates,” 101th International Conference on Fracture and Damage Mechanics, Dubrovnik, Croatia.
[5] Oterkus, E. and E. Madenci, 2011, “Peridynamic Analysis for Predicting Damage Initiation and Growth in Metallic and Composite Structures,” MecSol 2011, III International Symposium on Solid Mechanics, Florianópolis, Brazil.
2010
[1] Oterkus, E., Guven, I. and Madenci, E., 2010, “Fatigue Failure Model with Peridynamic Theory” Proceedings of ITherm 2010, Las Vegas, NV.
[2] Oterkus, E., Barut, A. and Madenci, E., 2010, “Damage Growth Prediction from Loaded Composite Fastener Holes by Using Peridynamic Theory” 51th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Orlando, FL, Paper No.2010-3026.
[3] Oterkus, E., Guven, I. and Madenci, E., 2010, “Effect of Core Termination Features on Failure Modes in Sandwich Panels by Using Peridynamic Theory” 51th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Orlando, FL, Paper No.2010-2691.
[4] Alpay, S., Barut, A. and Madenci, E., 2010, “An Efficient Modeling Approach for Dynamic Simulation of Wind Turbine Blades” 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Orlando, FL, Paper No.2010-2739.
[5] Alpay, S., Barut, A., Madenci, E. and Tessler, A., 2010, “A Robust Shell Element with Consistent In-Plane and Transverse Bending Deformations for Analyzing Stiffened Strcutures” 51st AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Orlando, FL, Paper No.2010-2929.
2009
[1] Celik, E., Oterkus, E., Guven, I., and Madenci, E., 2009, "Mechanical Characterization of Ultra-thin Films by Combining AFM Nanoindentation Tests and Peridynamic Simulations," Proceedings of the 59th Electronic Components & Technology Conference, San Diego, CA.
[2] Oterkus, E., Agwai, A., Guven, I. and Madenci, E., 2009, “Peridynamic Theory for Simulation of Failure Mechanisms in Electronic Packages” Proceedings of InterPACK'09, San Francisco, CA, Paper No. IPACK2009-89107.
[3] Madenci, E., Guven, I. and Oterkus, E., 2009, “Residual Strength Prediction for Concrete Structures after Penetration” 80th Shock and Vibration Symposium, San Diego, CA.
2007
[1] Oterkus, E., Barut, A. and Madenci, E., 2007, “Analysis of Bolted-Bonded Composite Lap Joints,” 48th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Honolulu, HI.
2006
[1] Oterkus, E., Madenci, E., Smeltzer III, S.S. and Ambur, D.R., 2006, “Thermo-Mechanical Analysis of Bonded Cylindrically Curved Composite Shell Structures,” 47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Newport, RI.
[2] Oterkus, E. and Madenci, E., 2006, “Validated Analysis Method for Bolted Composite Lap Joints,” 47th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Newport, RI.
2005
[1] Oterkus, E., Madenci, E. and Nemeth, M.P., 2005, “Stress Analysis of Composite Cylindrical Shells with an Elliptical Cutout,” 46th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Austin, TX.
[2] Oterkus, E., Madenci, E., Smeltzer III, S.S. and Ambur, D.R., 2005, “Nonlinear Analysis of Bonded Composite Tubular Lap Joints,” 46th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Austin, TX.
[3] Alpay S., Ozerdem B. and Ilken Z., 2005, "CFD Modelling of a Draught Diverter Used in Domestic Water Heating Appliance”, 14th Conference on Thermal Engineering and Thermogrammetry, June 2005, Budapest, Hungary.
[4] Alpay S., Ilken Z. and Ozdemir S., 2005, "Numerical Analysis of Finned type Downhole Heat Exchangers", 1st International Symposium & Exhibition on Environment-Friendly Energy Sources and Technologies, İzmir,Turkey.
2004
[1] Oterkus, E., Barut, A. and Madenci, E., 2004, “Buckling of Composite Plates with a Reinforced Circular Cutout Subjected to Uniform and Non-Uniform Compression,” 45th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Palm Springs, CA.
[2] Oterkus, E., Madenci, E., Smeltzer III, S.S. and Ambur, D.R., 2004, “Nonlinear Analysis of Bonded Composite Single-Lap Joints,” 45th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Palm Springs, CA.
[3] Alpay S., Bilir L., Ozdemir S. and Ozerdem B. 2004, " Estimation of Wind Speed in Urla District Via Hilbert Transforms", CMES-04, Cappadocia, Turkey.
[4] Bilir L., Alpay S. and Ozdemir S., 2004, "Study of Population of Heterogeneous Individuals", 4th Int. Symposium on Intelligent Manufacturing Systems, Sakarya, Turkey.