Books

  • Madenci, E., Barut A., and Dorduncu M., 2019, Peridynamic Differential Operator for Numerical Analysis, Springer, Boston, MA (ISBN 978-3-030-02646-2)

https://www.springer.com/us/book/9783030026462

Refereed Articles

  1. Dengiz CG., Dorduncu M., 2023 “A unified phase-field approach for failure prediction in modulus graded adhesively bonded single-lap joints”, Theoretical and Applied Fracture Mechanics (Q1), Vol. 127, 104062.

  2. Dorduncu M., Madenci E., 2023 “Finite element implementation of ordinary state-based peridynamics with variable horizon”, Engineering with Computers (Q1), Vol. 39, 641–654.

  3. Dorduncu M., Kutlu A., Madenci E., Rabczuk T., 2023 “Nonlocal modeling of bi-material and modulus graded plates by using peridynamic differential operator”, Engineering with Computers (Q1), Vol. 39, 893–909.

  4. Altay U., Dorduncu M., Kadioglu S., 2023, “A peridynamic approach for fatigue analysis of two dimensional functionally graded materials”, Theoretical and Applied Fracture Mechanics (Q1), (Under review).

  5. Muscati I., Jahwari F., Pervez T., Dorduncu M., 2023 “Molecular dynamics investigation for mechanical and failure behaviors of carbon nanotube-reinforced functionally graded aluminum-copper nanocomposites”, Mechanics of Advanced Materials and Structures (Q1), (Under review).

  6. Yurtsever B., Bab Y., Kutlu A., Dorduncu M., 2023 “A new c0 continuous refined zigzag 1,2 finite element formulation for flexural and free vibration analyses of laminated composite beams” Composite Structures (Q1), (Under review).

  7. Dorduncu M., Kutlu A., Madenci E., 2022 “Triangular C0 continuous finite elements based on refined zigzag theory 2,2 for free and forced vibration analyses of laminated plates”, Composite Structures (Q1), Vol. 281, 115058.

  8. Dorduncu M., Olmus I., Rabczuk T., 2022 “A peridynamic approach for modeling of two dimensional functionally graded plates”, Composite Structures (Q1), Vol. 279, 114743.

  9. Kaya K., Olmus I., Dorduncu M., 2022 “An investigation of fracture behavior of one-dimensional functionally graded plates using peridynamic theory”, Journal of the Faculty of Engineering and Architecture of Gazi University (Q3), Vol. 38(1), pp. 319-330.

  10. Dorduncu M., 2021, “Peridynamic modeling of delaminations in laminated composite beams using refined zigzag theory”, Theoretical and Applied Fracture Mechanics (Q1), Vol.112, 102832.

  11. Kutlu A., Dorduncu M., Rabczuk T., 2021 “A novel mixed finite element formulation based on the refined zigzag theory for the stress analysis of laminated composite plates”, Composite Structures (Q1), Vol. 267, 113886.

  12. Dorduncu M., 2021, “Coupling of peridynamics and timoshenko beam theory for the stress analysis of laminated composite materials”, Journal of Aeronautics and Space Technologies, Vol. 14(1), pp. 53-62.

  13. Dorduncu M., 2020, “Stress analysis of sandwich plates with functionally graded cores using peridynamic differential operator and refined zigzag theory”, Thin-walled Structures (Q1), Vol. 146, 106468.

  14. Dorduncu M., 2020, “Peridynamic modeling of adhesively bonded beams with modulus graded adhesives using refined zigzag theory”, International Journal of Mechanical Sciences (Q1), Vol. 185, 105866.

  15. Dorduncu M., Kaya K., Ergin O.F., 2020 “Peridynamic analysis of laminated composite plates based on first order shear deformation theory”, International Journal of Applied Mechanics (Q1), Vol. 12(3), 2050031.

  16. Dorduncu M., Apalak M.K., 2020 “Elastic flexural analysis of adhesively bonded similar and dissimilar beams using refined zigzag theory and peridynamic differential operator”, International Journal of Adhesion and Adhesives (Q1), Vol. 101, 102631.

  17. Dorduncu M., 2019, “Stress analysis of laminated composite beams using refined zigzag theory and peridynamic differential operator”, Composite Structures (Q1), Vol.218, pp. 193-203.

  18. Madenci E., Dorduncu M., Gu X., 2019, “Peridynamic least squares minimization”, Computer Methods in Applied Mechanics and Engineering (Q1), Vol.348, pp. 846-874.

  19. Madenci E., Dorduncu M., Phan N.D., Gu X., 2019, “Weak form of bond-associated non-ordinary state-based peridynamics free of zero energy modes with uniform or non-uniform discretization”, Engineering Fracture Mechanics (Q1), Vol. 218, 106613.

  20. Dorduncu M., Apalak M.K., Reddy J.N., 2019, “Stress wave propagation in a through thickness functionally graded adhesive layer”, Journal of Adhesion Science and Technology (Q2), Vol. 33(21), pp.2329-2355.

  21. Dorduncu M., Apalak M.K., Reddy J.N., 2019, “Stress wave propagation in adhesively bonded functionally graded cylinders: an improved model “, Journal of Adhesion Science and Technology (Q2), Vol. 33(2), pp.156-186.

  22. Dorduncu M., Apalak M.K., Reddy J.N., 2019, “Stress wave propagation in a functionally graded adhesive layer between two identical cylinders”, The Journal of Adhesion (Q1), Vol. 95, pp. 1146-1181.

  23. Dorduncu M., 2019, “Peridynamics for the solution of the steady state heat conduction problem in plates with insulated cracks “, Journal of Aeronautics and Space Technologies, Vol. 12(2), pp. 145-155.

  24. Dorduncu M., 2019, “Flexure analysis of functionally graded plates using 2,2-refined zigzag theory “, Journal of Aeronautics and Space Technologies, Vol. 12(1), pp. 19-30.

  25. Madenci E., Dorduncu M., Barut A., Phan N.D., 2018, “Weak form of peridynamics for nonlocal essential and natural boundary conditions”, Computer Methods in Applied Mechanics and Engineering (Q1), Vol. 337, pp. 598-631.

  26. Madenci E., Dorduncu M., Barut A., Phan N.D., 2018, “A State-Based Peridynamic Analysis in a Finite Element Framework”, Engineering Fracture Mechanics (Q1), Vol. 195, pp. 104-128.

  27. Madenci, E., Dorduncu M., Barut, A., and Futch, M., 2017, “Numerical solution of linear and nonlinear partial differential equations by using the peridynamic differential operator,” Numerical Methods for Partial Differential Equations (Q1), Vol.33, pp.1726-1753.

  28. Dorduncu M., Apalak M.K., 2016, “Stress wave propagation in adhesively bonded functionally graded circular cylinders”, Journal of Adhesion Science and Technology (Q2), Vol.30, pp.1281-1309.

  29. Dorduncu M., Apalak M.K., Cherukuri H.P., 2015, “Elastic wave propagation in functionally graded circular cylinders”, Composites Part B- Engineering (Q1), Vol.73, pp.35-48.

  30. Dorduncu M., Apalak M.K., 2015, “Stress wave propagation in adhesively bonded similar and dissimilar circular cylinders”, Journal of Adhesion Science and Technology (Q2), Vol.29, pp.778-806.

Conference Proceedings

  1. Aydogan G., Ermis M., Dorduncu M., 2023, “Physics informed neural network for modeling laminated composite beams based on refined zigzag theory”, 1st International workshops on RZT and iFEM, Torino, Italy.

  2. Yurtsever B., Bab Y., Kutlu A., Dorduncu M., 2023, “Mixed finite element formulations for modeling of laminated composite beams and plates by using refined zigzag theory”, 1st International workshops on RZT and iFEM, Torino, Italy.

  3. Altay U., Dorduncu M., Kadioglu S., 2023, “Peridynamics for predicting fatigue behavior of modulus graded plates”, ASME 2023 Aerospace Structures, Structural Dynamics, and Materials Conference, San Diego, CA.

  4. Yurtsever B., Bab Y., Kutlu A., Dorduncu M., 2023, “Refined zigzag theory based finite element for static analysis of layered composite beams interacting with Winkler foundation”, 23rd National Congress of Mechanics, Konya, Turkey.

  5. Dengiz C.G., Dorduncu M., 2023, “Investigation of damage in bimetallic plates by using phase field approach”, 23rd National Congress of Mechanics, Konya, Turkey.

  6. Akdogan G., Ermis M., Dorduncu M., 2023, “Modeling of laminated composite structures by using physics informed neural networks and Mindlin plate theory”, 23rd National Congress of Mechanics, Konya, Turkey.

  7. Altay U., Dorduncu M., Kadioglu S., 2023, “Investigation of stop hole effect on the dynamic crack propagation by using dual horizon peridynamic approach”, 23rd National Congress of Mechanics, Konya, Turkey.

  8. Kaya K., Dorduncu M., Madenci E., 2023, “Investigation of damage in materials by using bond-based peridynamic theory and finite element method”, 23rd National Congress of Mechanics, Konya, Turkey.

  9. Dorduncu M., Ergin OF. 2022, “Thermomechanical analysis of modulus graded plates by using peridynamic theory”, 2nd International Conference on Computations for Science and Engineering (ICCSE2), Rimini, Italy.

  10. Dorduncu M., Kaya K., Madenci E., 2021, “A truss element for ordinary state-based peridynamic analysis with uniform or non-uniform discretization”, ASME 2021 International Mechanical Engineering Congress & Exposition, Online, USA.

  11. Dorduncu M., Madenci E., 2021, “A novel ordinary state based peridynamic truss element with uniform/nonuniform discretization”, 2nd International Workshop on Plasticity, Damage and Fracture of Engineering Materials, Ankara, Turkey.

  12. Dorduncu M., Madenci E., 2021, “Weak form of peridynamics for modeling composite materials”, 2nd International Workshop on Plasticity, Damage and Fracture of Engineering Materials, Ankara, Turkey.

  13. Olmus I, Dorduncu M., 2021, “Peridynamic analysis of one dimensional functionally graded plates”, 24th International Conference on Composite Structures (ICCS24), Porto, Portugal.

  14. Madenci, E., Yaghoobi, A., Barut A., Dorduncu M., Phan N., 2021, “A peridynamic approach for modeling composite laminates”, AIAA SciTech Forum 2021, Virtual Conference.

  15. Bab Y., Kutlu A., Dorduncu M., 2021, ” Refined zigzag theory based mixed finite element formulation for flexural behavior of layered composite beams resting on elastic soil”, 22nd National Congress of Mechanics, Online, Turkey.

  16. Dorduncu M., Olmus I, 2020, “Peridynamics for predicting damage in functionally graded materials”, 23rd International Conference on Composite Structures (ICCS23), Porto, Portugal.

  17. Dorduncu M., Ergin OF, 2019, “Peridynamics for bending analysis of laminated composite plates based on refined zigzag theory”. 29th International Workshop on Computational Mechanics of Materials (IWCMM29), Dubrovnik, Croatia.

  18. Madenci, E., Dorduncu M., Gu X., 2019, “Non-ordinary state-based peridynamics free of zero energy modes”, 15th U.S. National Congress on Computational Mechanics (USNCCM15), Austin, TX.

  19. Dorduncu M., Madenci E., 2019, “Peridynamics and refined zigzag theory for progressive failure analysis of viscoelastic composites”, 19th International Conference on New Trends in Fatigue and Fracture, Tucson, AZ.

  20. Dorduncu M., Madenci E., 2019, “A state-based peridynamic truss element for progressive failure analysis of composites”, 1st International Workshop on Plasticity, Damage and Fracture of Engineering Materials, Ankara, Turkey.

  21. Dorduncu M., Ergin OF., 2019, “Bending behavior of laminated composite plates with embedded cracks by using refined zigzag theory”, 1st International Workshop on Plasticity, Damage and Fracture of Engineering Materials, Ankara, Turkey.

  22. Madenci, E., Dorduncu M., Barut A. Phan N., 2019, “Progressive failure analysis of composites based on peridynamics and refined zigzag theory”, 60th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, San Diego, CA.

  23. Madenci, E., Barut A., Dorduncu M., 2019, “Peridynamics for predicting thermal expansion coefficient of graphene”, 69th IEEE Electronic Components and Technology Conference (ECTC), Las Vegas, Nevada.

  24. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, “Weak form of peridynamics for nonlocal essential and natural boundary conditions”, 6th European Conference on Computational Mechanics (ECCM 6), Glasgow, Scotland.

  25. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, “Coupling of peridynamics with finite elements without an overlap zone”, 13th World Congress on Computational Mechanics and 2nd Pan American Congress on Computational Mechanics, New York, NY.

  26. Madenci, E., Dorduncu M., Phan N., 2018, “Peridynamics for progressive failure analysis of composites”, ASC 33rd Annual Technical Conference, 18th US-Japan Conference on Composite Materials, and the ASTM D30, Seattle, Washington.

  27. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, “Peridynamic modeling of composite laminates”, ASME 2017 International Mechanical Engineering Congress & Exposition, Pittsburgh, PA.

  28. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, “Coupling of peridynamics with finite elements without an overlap zone”, 59th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Kissimmee, Florida.

  29. Madenci E., Dorduncu M., Barut A., Phan N.D., 2018 “Peridynamic modeling of impact damage in laminated composites”, 18th International Conference on New Trends in Fatigue and Fracture, Lisbon, Portugal.

  30. Madenci E., Dorduncu M., Barut A., Phan N.D., 2018 “A State-Based Peridynamic Element”, The 18th U.S. National Congress on Theoretical and Applied Mechanics, Chicago, IL.

  31. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, ” Isogeometric analysis using peridynamics and XFEM”, 59th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Kissimmee, FL.

  32. Madenci, E., Dorduncu M., Barut A. Phan N., 2018, “Weak Form of Peridynamics”, 59th AIAA/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Kissimmee, FL.

  33. Dorduncu M., Tessler A., Madenci E., 2017, “A three-node flat shell element based on Refined Zigzag Theory”, 3rd International Conference on Mechanics of Composites, Bologna, Italy.

  34. Madenci, E., Dorduncu M., Barut A. Phan N., 2017, “Weak form of peridynamic equilibrium equations”, ASME 2017 International Mechanical Engineering Congress & Exposition, Tampa, FL.

  35. Madenci, E., Dorduncu M., Barut A., 2017, “Isogeometric Analysis Using Peridynamics and XFEM”, ASME 2017 International Mechanical Engineering Congress & Exposition, Tampa, FL.

  36. Madenci, E., Dorduncu M., 2017, “Peridynamics for solving nonlinear partial differential equations”, 14th U.S. National Congress on Computational Mechanics (USNCCM14), Montreal, Canada.

  37. Dorduncu M., Barut, A., Madenci, E., and Pahn N, 2017, “Peridynamic augmented XFEM” 58th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Grapevine, TX.

  38. Apalak M.K., Dorduncu M., 2016. “Stress wave propagation in a functionally graded cylinder”, 14th International Symposium Functionally Graded Materials, Bayreuth, Germany.

  39. Dorduncu M., Barut, A., and Madenci E., 2016, “Peridynamic solution of free boundary problems” ASME 2016 International Mechanical Engineering Congress and Exposition, Phoenix, Arizona.

  40. Dorduncu M., Barut, A., and Madenci E., 2016, “Peridynamic truss element for viscoelastic deformation,” 57th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, San Diego, California.

  41. Dorduncu M., Barut, A., and Madenci, E., 2015, “Ordinary-state based peridynamic truss element,” 56th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics, and Materials Conference, Kissimmee, Florida.

  42. Dorduncu M., Barut, A., Madenci, E. and Tessler, A., 2015, “A refined zigzag element for modeling sandwich construction with embedded stiffeners,” 56th AIAA/ ASME/ ASCE/ AHS/ ASC Structures, Structural Dynamics, and Materials Conference, Kissimmee, Florida.

  43. Madenci, E., Barut, A. and Dorduncu M., 2014, “Ordinary-state based peridynamic truss element,” ASME 2014 International Mechanical Engineering Congress and Exposition, Montreal, Canada.

  44. Dorduncu M., Atila Barut, A. and Madenci, E., 2013, “Failure prediction in sandwich panels under blast loading using a refined zigzag element,” 54th AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials Conference, Boston, Massachusetts.

Invited Presentations at Scientific Meetings/Workshops

  1. Dorduncu M., 2022, Keynote Speech. “Peridynamics for failure prediction in materials”, The First International Graduate Studies Symposium- Dokuz Eylul University, Turkey.

  2. Dorduncu M., 2022, “Peridynamic theory and its applications”, Izmir High Technology Institute, Turkey.

  3. Dorduncu M., 2016, “Ordinary state-based truss element”, The University of North Carolina at Charlotte, USA.