| 81 | A Cell Centered Finite Volume Formulation for the Calculation of Stress Intensity Factors in Mindlin - Reissner Cracked Plates | A Amraei, N. Fallah | Civil Engineering Journal | 2017 |
| 82 | Three types of meshless finite volume method for the analysis of two-dimensional elasticity problems | M. Ebrahimnejad, N. Fallah, A.R. Khoei | COMPUTATIONAL and APPLIED MATHEMATICS | 2017 |
| 83 | Three types of meshless finite volume method for the analysis of two-dimensional elasticity problems | M. Ebrahimnejad, N. Fallah, A.R. Khoei | COMPUTATIONAL and APPLIED MATHEMATICS | 2017 |
| 84 | A Finite Volume Formulation for the Elasto-Plastic Analysis of Rectangular Mindlin-Reissner Plates a Non-Layered Approach | N. Fallah, A. Parayandeh Shahrestany, H. Golkoubi | Civil Engineering Infrastructures Journal-CEIJ | 2017 |
| 85 | A Cell Centered Finite Volume Formulation for the Calculation of Stress Intensity Factors in Mindlin - Reissner Cracked Plates | A Amraei, N. Fallah | Civil Engineering Journal | 2017 |
| 86 | A Finite Volume Formulation for the Elasto-Plastic Analysis of Rectangular Mindlin-Reissner Plates a Non-Layered Approach | N. Fallah, A. Parayandeh Shahrestany, H. Golkoubi | Civil Engineering Infrastructures Journal-CEIJ | 2017 |
| 87 | Three types of meshless finite volume method for the analysis of two-dimensional elasticity problems | M. Ebrahimnejad, N. Fallah, A.R. Khoei | COMPUTATIONAL and APPLIED MATHEMATICS | 2017 |
| 88 | A Cell Centered Finite Volume Formulation for the Calculation of Stress Intensity Factors in Mindlin - Reissner Cracked Plates | A Amraei, N. Fallah | Civil Engineering Journal | 2017 |
| 89 | A Finite Volume Formulation for the Elasto-Plastic Analysis of Rectangular Mindlin-Reissner Plates a Non-Layered Approach | N. Fallah, A. Parayandeh Shahrestany, H. Golkoubi | Civil Engineering Infrastructures Journal-CEIJ | 2017 |
| 90 | Three types of meshless finite volume method for the analysis of two-dimensional elasticity problems | M. Ebrahimnejad, N. Fallah, A.R. Khoei | COMPUTATIONAL and APPLIED MATHEMATICS | 2017 |
| 91 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
| 92 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
| 93 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
| 94 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
| 95 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
| 96 | A Development in the Finite Volume Method for the Crack Growth Analysis without Global Remeshing | A. Amraei, N. Fallah | International Journal of Engineering, Transactions A: Basics | 2016 |
