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AHMAD NAWAF ABDELHAMID TARAWNEH
Faculty of Engineering
AHMAD NAWAF ABDELHAMID TARAWNEH
Faculty of Engineering
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Welcome to the Hashemite University faculty staff website.
Ahmad Nawaf Tarawneh
Associate Professor
Civil/Structural Engineering
Structural Engineering
Faculty of Engineering
Department of Civil Engineering
AhmadN@hu.edu.jo
http://staff.hu.edu.jo/atarawneh
ORCID ID :
299457582
Office No. :
E3014
EXT :
C.V. Document file as PDF:
Ph.D.
Clemson University
The United States of America,2019
Master
The University of Jordan
Jordan,2015
Bachelor
The University of Jordan
Jordan,2013
-Anchorage to Concrete -Fiber Reinforced Polymer Reinforcement -Prestressed Concrete -Earthquake Engineering
• Tarawneh, A.N., Saleh, E.F., Alghossoon, A.M., Almasabha, G.S., Alajarmeh, O.S., Manalo, A. and Benmokrane, B., 2024. Modified Shear Design Model for Steel-and Fiber-Reinforced Polymer-Reinforced Concrete Beams. ACI Structural Journal, 121(1), pp.147-158. • Tarawneh, A., Alajarmeh, O., Alawadi, R., Amirah, H. and Alramadeen, R., 2024. Database evaluation and reliability calibration for flexural strength of hybrid FRP/steel-RC Beams. Composite Structures, 329, p.117758. • Alghossoon, A., Tarawneh, A., Hatamleh, M. and Alhusban, M., 2024. Generalizing AISC360–22's high-strength CFT member design equations for economical and safety-enhanced design. Journal of Constructional Steel Research, 215, p.108541. • Tarawneh, A., Saleh, E., Alghossoon, A. and Naser, M.Z., 2023. Proposing a one-way shear design model for FRP-RC members: Evaluation and reliability calibration. Engineering Structures, 292, p.116527. • Tarawneh, A., Almasabha, G., Saleh, E., Alghossoon, A. and Alajarmeh, O., 2023, November. Data-driven machine learning methodology for designing slender FRP-RC columns. In Structures (Vol. 57, p. 105207). Elsevier. • Alajarmeh, O., Manalo, A., Ferdous, W., Almasabha, G., Tarawneh, A., Awwad, K.E., Safonov, A., Zeng, X. and Schubel, P., 2023. Fatigue behavior of unidirectional fiber?reinforced pultruded composites with high volume fiber fraction. Fatigue & Fracture of Engineering Materials & Structures, 46(6), pp.2034-2048. • Saleh, E., Murad, Y., Tarawneh, A., Alghossoon, A. and Almasabha, G., 2024. Automated analysis and design for recycled aggregate reinforced concrete beams. Structural Concrete. • Momani, Y., Alawadi, R., Jweihan, Y.S., Tarawneh, A.N., Al-Kheetan, M.J. and Aldiabat, A., 2024. Machine learning-based evaluation of punching shear resistance for steel/FRP-RC slabs. Ain Shams Engineering Journal, p.102668. • Tarawneh, A., Alawadi, R.J., Almahmood, H., Saleh, E., Al-Asi, A. and Alghossoon, A., 2024. Unified two-way shear model for steel and FRP-RC slabs: Evaluation and reliability calibration. Results in Engineering, 21, p.101790. • Alghossoon, A., Tarawneh, A., Almasabha, G., Murad, Y., Saleh, E. and Sahawneh, H., 2023. Shear strength of circular concrete-filled tube (CCFT) members using human-guided artificial intelligence approach. Engineering Structures, 282, p.115820. • Tarawneh, A., Saleh, E., Almasabha, G. and Alghossoon, A., 2023. Hybrid Data-Driven Machine Learning Framework for Determining Prestressed Concrete Losses. Arabian Journal for Science and Engineering, pp.1-15. • Almomani, Y., Tarawneh, A., Alawadi, R., Taqieddin, Z.N., Taha, S., Sheikh, N.A. and Momani, Z., 2023. Confinement model for circular concrete columns transversely reinforced with GFRP spirals and hoops. Results in Engineering, 17, p.100918. • Dwairi, H.M., Tarawneh, A.N. and Saleh, E.F., 2023. Prediction of inelastic displacement demand for SDOF structures built on firm soils under near-and far-fault records using neural networks. Innovative Infrastructure Solutions, 8(1), p.55. • Momani, Y., Alawadi, R., Majdalaweyh, S., Tarawneh, A. and Jweihan, Y.S., 2022. Data-driven machine learning prediction models for the tensile capacity of anchors in thin concrete. Innovative Infrastructure Solutions, 7(5), pp.1-13. • Saleh, E., Tarawneh, A.N. and Naser, M.Z., 2022. Failure mode classification and deformability evaluation for concrete beams reinforced with FRP bars. Composite Structures, 292, p.115651. • Tarawneh, A., Saleh, E., Murad, Y., 2022. ColumnsNet: Neural Network Model for Constructing Interaction Diagrams and Slenderness Limit for FRP-RC Columns. Journal of Structural Engineering,148(8), p. 04022089. • Saleh, E., Tarawneh, A., Alghossoon, A., 2022. A critical assessment of existing prediction models on the shear capacity of recycled aggregate concrete beams. Innovative Infrastructure Solutions, 7(239), pp.1-17 • Saleh, E., Alghossoon, A., Tarawneh, A., 2022, June. Optimal allocation of material and slenderness limits for the rectangular concrete-filled columns. Journal of Constructional Steel Research, 334, p. 107283. • Tarawneh, A.N., Saleh, E., Dwairi, H.M. and Majdalaweyh, S.A., 2022, June. Design and strength reduction factors calibration of adhesive anchors embedded in thin concrete members. In Structures (Vol. 40, pp. 213-222). Elsevier. • Saleh, E.F., Tarawneh, A.N. and Katkhuda, H.N., 2022. A comprehensive evaluation of existing and new model-identification approaches for non-destructive concrete strength assessment. Construction and Building Materials, 334, p.127447. • Tarawneh, A.N., Saleh, E.F. and Majdalaweyh, S.A., 2022. Reliability Assessment and Strength Reduction Factor Calibration for Screw Anchors Concrete Breakout. ACI Structural Journal, 119(2), pp.113-122. • Saleh, E., Tarawneh, A., Naser, M. Z., Abedi, M., & Almasabha, G. (2022). You only design once (YODO): Gaussian Process-Batch Bayesian optimization framework for mixture design of ultra-high performance concrete. Construction and Building Materials, 330, 127270. • Almasabha, G., Tarawneh, A., Saleh, E. and Alajarmeh, O., 2022. Data-Driven Flexural Stiffness Model of FRP-Reinforced Concrete Slender Columns. Journal of Composites for Construction, 26(3), p.04022024. • Saleh, E., Tarawneh, A., Almasabha, G. and Momani, Y., 2022, April. Slenderness limit of FRP-confined rectangular concrete columns. In Structures (Vol. 38, pp. 435-447). Elsevier. • Saleh, E., Tarawneh, A., Dwairi, H., and AlHamaydeh, M., 2022. Guide to non-destructive concrete strength assessment: Homogeneity tests and sampling plans. Journal of Building Engineering, p.104047. • Momani, Y., Tarawneh, A., Alawadi, R. and Momani, Z., 2022. Shear strength prediction of steel fiber-reinforced concrete beams without stirrups. Innovative Infrastructure Solutions, 7(1), pp.1-15. • Dwairi, H.M. and Tarawneh, A.N., 2022. Artificial neural networks prediction of inelastic displacement demands for structures built on soft soils. Innovative Infrastructure Solutions, 7(1), pp.1-15. • Tarawneh, A., Majdalaweyh, S. and Dwairi, H., 2021, October. Equivalent viscous damping of steel members for direct displacement based design. In Structures (Vol. 33, pp. 4781-4790). Elsevier. • Tarawneh, A.N., Dwairi, H.M., Almasabha, G.S. and Majdalaweyh, S.A., 2021. Effect of Fiber-Reinforced Polymer-Compression Reinforcement in Columns Subjected to Concentric and Eccentric Loading. ACI Structural Journal, 118(3). • Tarawneh, A., Almasabha, G., Alawadi, R. and Tarawneh, M., 2021, August. Innovative and reliable model for shear strength of steel fibers reinforced concrete beams. In Structures (Vol. 32, pp. 1015-1025). Elsevier. • Murad, Y., Tarawneh, A., Arar, F., Al-Zu'bi, A., Al-Ghwairi, A., Al-Jaafreh, A., and Tarawneh, M., 2021, October. Flexural strength prediction for concrete beams reinforced with FRP bars using gene expression programming. In Structures (Vol. 33, pp. 3163-3172). Elsevier. • Tarawneh, A. and Majdalaweyh, S., 2020, December. Design and reliability analysis of FRP-reinforced concrete columns. In Structures (Vol. 28, pp. 1580-1588). Elsevier. • Tarawneh, A., Momani, Y. and Alawadi, R., 2021, August. Leveraging artificial intelligence for more accurate and reliable predictions of anchors shear breakout capacity in thin concrete members. In Structures (Vol. 32, pp. 1005-1014). Elsevier. • Tarawneh, A. and Majdalaweyh, S., 2020, December. Design and reliability analysis of FRP-reinforced concrete columns. In Structures (Vol. 28, pp. 1580-1588). Elsevier. • Tarawneh, Ahmad N., Brandon E. Ross, and Thomas E. Cousins. "Tensile Behavior and Design of Screw Anchors in Thin Concrete Members." ACI Structural Journal 117.1 (2020). • Tarawneh, Ahmad N., Brandon E. Ross, and Thomas E. Cousins. " Shear Behavior and Design of Post-Installed Anchors in Thin Concrete Members." ACI Structural Journal, 117(3), pp.311-322. • Tarawneh, A.N., Ross, B.E. and Cousins, T.E., 2020. Tensile behavior and design of adhesive anchors embedded in thin concrete members. PCI Journal, 65(5). • Tarawneh, A, Majdalaweyh, S., Mahasneh, B. "The Effect of Using Hysteresis Models (Bilinear and Modified Clough) on Seismic Demands of Single Degree of Freedom Systems" American Journal of Applied Sciences, Vol, 13. DOI: 10.3844/ajassp.2016.913.923.
• The Hashemite University, Zarqa, Jordan – Associate Professor, 2023 – Present • The Hashemite University, Zarqa, Jordan – Assistant Professor, Aug. 2019 – 2023
- Prestressed Concrete - Reinforced Concrete Design - Structural Analysis - Advanced Concrete Theory
Hashemite University , September 2019 - Present
- Professional Engineer - South Carolina, USA -American Concrete Institute (ACI)- Committee 355 Anchorage -Precast/Prestressed Concrete Institute (PCI) -Jordan Engineers Association
Member in the American Concrete Institute - Committee 355 Anchorage to Concrete - Committee 440 FRP
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