| 1. | J. Dhainaut, G. Cheng, and C. Mei, “Response of plates under statistically unsynchronized uniform random
loads using Monte-Carlo simulation,” JCAM 9 (2014), No. 1,
3–18. |  |
| 2. | W. A. Aissa and A. A. Mohammadien, “Joule heating effects on a micropolar fluid past a stretching sheet with variable electric conductivity,” JCAM 6 (2005), No. 1,
3–13. |  |
| 3. | Zs. Gáspár and R. Németh, “Shape finding of an extremaly twisted ring,” JCAM 6 (2005), No. 1,
39–52. |  |
| 4. | F. Kovács, “Mobility and stress analysis of highly symmetric generalized bar-and-joint structures,” JCAM 5 (2004), No. 1,
65–78. |  |
| 5. | M. Ferdows, M.Ota, M. A. Sattar, and M. Alam, “Similarity solution for MHD flow through vertical porous plate with suction,” JCAM 6 (2005), No. 1,
15–25. |  |
| 6. | R. Górski and P. Fedelinski, “Analysis, optimization and identification of composite structures using
boundary element method,” JCAM 6 (2005), No. 1,
53–65. |  |
| 7. | E. Bertóti, “Applicability of a constant Young's modulus in
geometrically nonlinear elasticity,” JCAM 1 (2000), No. 1,
3–12. |  |
| 8. | R. Kandasamy and K. Periasamy, “Nonlinear hydromagnetic flow, heat and mass transfer over an accelerating vertical surface with internal heat generation and thermal stratification,” JCAM 6 (2005), No. 1,
27–37. |  |
| 9. | M. Svantner, “Numerical support for residual stress measurement by the hole drilling method,” JCAM 6 (2005), No. 1,
129–143. |  |
| 10. | L. Écsi and P. Élesztös, “Finite element analysis of structures on the base of heterogeneous models,” JCAM 5 (2004), No. 1,
33–48. |  |
| 11. | V. Kutis and J. Murin, “Bar element with variation of cross-section for geometricaly non-linear analysis,” JCAM 6 (2005), No. 1,
83–94. |  |
| 12. | Z. Milas, “Numerical prediction of airfoil stall,” JCAM 6 (2005), No. 1,
95–105. |  |
| 13. | Gy. Patkó and T. Kollányi, “On trensverse vibration of belts,” JCAM 6 (2005), No. 1,
115–128. |  |
| 14. | O. Weckner and E. Emmrich, “Numerical simulation of the dynamics of a nonlocal
inhomogeneous infinite bar,” JCAM 6 (2005), No. 2,
311–319. | |
| 15. | R. Kandasamy and S. P. Anjali Devi, “Effects of chemical reaction, heat and mass transfer on non
linear laminar boundary - layer flow over a wedge with suction or injection,” JCAM 5 (2004), No. 1,
21–31. |  |
| 16. | T. Czibere, “Three dimensional stochastic model of turbulence,” JCAM 2 (2001), No. 1,
7–20. |  |
| 17. | A. Horváth and Z. Horváth, “Application of CFD numerical simulation for intake port shape design of a diesel engine,” JCAM 4 (2003), No. 2,
129–146. |  |
| 18. | B. Mochnacki and E. Pawlak, “Application of generalized FDM for numerical solution of non linear thermal diffusion problems,” JCAM 6 (2005), No. 1,
107–113. |  |
| 19. | K. Jármai, “Preface,” JCAM 5 (2004), No. 1,
3–5. |  |
| 20. | G. Béda, “Generalized Mindlin's method for the determination of
constitutive equations of solids,” JCAM 6 (2005), No. 2,
153–158. |  |
| 21. | A. Lengyel and Zs. Gáspár, “Compatibility paths of an infinitely degenerate mechanism,” JCAM 6 (2005), No. 2,
277–284. |  |
| 22. | E. Bertóti, “On the principle of complementary virtual work in the
non-linear theory of elasticity,” JCAM 1 (2000), No. 2,
109–122. |  |
| 23. | Ji-Huan He, “Variational theory for 2-dimensional free surface flow: Why are G.L. Liu's variational principles incorrect?,” JCAM 5 (2004), No. 1,
7–19. | |
| 24. | L. Baranyi, “Computation of unsteady momentum and heat transfer from a fixed circular cylinder in laminar flow,” JCAM 4 (2003), No. 1,
13–25. |  |
| 25. | I. Ecsedi, “Stress functions for torsion-free axisymmetric
state of stress,” JCAM 1 (2000), No. 1,
13–21. |  |
| 26. | M. Gabi and T. Klemm, “Numerical and experimental investigations of cross flow fans,” JCAM 5 (2004), No. 2,
251–261. |  |
| 27. | K. Jármai, “Optimum design of stiffened plates,” JCAM 1 (2000), No. 1,
49–69. |  |
| 28. | I. Páczelt and A. Baksa, “Examination of contact optimization and wearing problems,” JCAM 3 (2002), No. 1,
61–84. |  |
| 29. | L. Forrai, “A finite element model for stability analysis
of symmetrical rotor systems with internal damping,” JCAM 1 (2000), No. 1,
37–47. |  |
| 30. | B. Kovács, “Transverse shear and normal deformation
theory for vibration analysis of curved bands,” JCAM 5 (2004), No. 1,
49–64. | |
| 31. | Z. Virág, “Optimum design of stiffened plates for different loads and shapes of ribs,” JCAM 5 (2004), No. 1,
165–179. |  |
| 32. | I. Ecsedi and K. Dluhi, “A reciprocal theorem for steady-state heat conduction problems,” JCAM 6 (2005), No. 2,
175–182. |  |
| 33. | L. Baranyi, “Numerical simulation of flow past a cylinder in orbital motion,” JCAM 5 (2004), No. 2,
209–222. |  |
| 34. | G. Lvov and S. Lysenko, “Contact problem for the autofrettage of thick cylinders,” JCAM 3 (2002), No. 1,
51–60. |  |
| 35. | J. Égert, “Comparison of some contact elements and iterative algorithms for the solution of frictionless contact problems,” JCAM 1 (2000), No. 1,
23–36. |  |
| 36. | G. Kovács, “Optimal design of a composite multicellular
plate structure,” JCAM 5 (2004), No. 1,
79–88. |  |
| 37. | G. Popper, B. Paláncz, and Zs. Gáspár, “Stability analysis of an orthotropic plate via mathematica,” JCAM 4 (2003), No. 1,
37–51. |  |
| 38. | S. Abboudi, J. Deng, and M. Imbert, “Thermal wall influence on the behavior of axisymmetric laminar compressible flow in nozzle,” JCAM 8 (2007), No. 1,
5–19. | |
| 39. | A. Csébfalvi, “Evolution methods for discrete minimal weight design of
space trusses with stability constraints,” JCAM 6 (2005), No. 2,
159–173. |  |
| 40. | P. Béda, “A dynamic theory of material instability,” JCAM 3 (2002), No. 1,
5–13. |  |
| 41. | Z. Wu and L. Fuchs, “Large eddy simulation of dispersion of particles in turbulent jets,” JCAM 2 (2001), No. 1,
21–35. |  |
| 42. | V. Shchukin and I. Timár, “Calculation of stresses in isotropic plates with two circular
holes,” JCAM 5 (2004), No. 1,
141–150. |  |
| 43. | G. Béda, “A consequence of the generalized Clapeyron's theorem,” JCAM 1 (2000), No. 2,
123–128. |  |
| 44. | E. Bertóti, “Equilibrated stress space for nonlinear dimensionally reduced shell models in terms of first-order stress functions,” JCAM 15 (2020), No. 2,
81–100. | |
| 45. | I. Kozák, “Tensors of finite rotations and small strains
on the middle surface of a shell,” JCAM 6 (2005), No. 2,
257–276. |  |
| 46. | J. Uj, “A finite element model of delamination in cross-ply laminates,” JCAM 5 (2004), No. 1,
151–155. |  |
| 47. | I. Páczelt, F. Nándori, and T. Szabó, “Numerical treatment of elastoplastic problems by the p-version of the finite element method,” JCAM 1 (2000), No. 2,
235–258. |  |
| 48. | L. Kullmann, “Numerical computation of the transient change of flow in a pipe from partial to full depth,” JCAM 2 (2001), No. 1,
53–59. | |
| 49. | L. Forrai, “Instability due to internal damping of symmetrical rotor-bearing systems,” JCAM 1 (2000), No. 2,
137–147. |  |
| 50. | J. Farkas, “Cost-effective structural optimization,” JCAM 1 (2000), No. 1,
91–98. |  |
| The other papers altogether |
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| Total downloads | 27238
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