Zainab Al-Hajaj

Zainab Al-Hajaj

Assistant Professor

Mechanical
Email: z.hajaj@ack.edu.kw
Qualification: Doctorate in Mechanical Engineering

  • Composite Material
  • Natural fibers
  • Mechanical testing
  • Damage mechanics
  • Heat transfer
Al-Hajaj, Z., Bougherara, H., New Insights into Tensile Fatigue Response of a Novel Carbon/Flax/Epoxy Hybrid Composite under Strain-Controlled Amplitude and Stress-Controlled Amplitude, Material Science and Engineering C, 2020, –in press Al-Hajaj, Z., TavakkoliAvval, P., Bougherara, H., How Bone Remodels after Total Hip Arthroplasty with a Silent Short Hip Stem? 2020, – in press Alhajaj, z., saghir, m. Z., & rahman, m. M., 2020, Convective heat transfer of mono and hybrid nanofluid in porous micro-channel: experimental and numerical approach Alhajaj, Z., Bayomy, A. M., Saghir, M. Z., & Rahman, M. M. (2020). Flow of nanofluid and hybrid fluid in porous channels: Experimental and numerical approach. International Journal of Thermofluids, 1, 100016.‏ Alhajaj, Z., Bayomy, A. M., & Saghir, M. Z. (2020). A comparative study on best configuration for heat enhancement using nanofluid. International Journal of Thermofluids, 100041.‏ Z. Al-Hajaj, A. Sarwar, R. Zdero, and H. Bougherara, " Damage Assessment of a Novel Carbon/Flax/Epoxy Hybrid Composite using Stiffness Degradation, Permanent Strain, and Crack Density under Tensile and Compressive Cyclic Loading, " Journal of Composite Materials, pp. 1-14, 2019 Z. Al-Hajaj, B. Sy, R. Zdero and H. Bougherara, " Impact Properties of a New Hybrid Composite Material made from Woven Carbon Fibres plus Flax Fibres in an Epoxy Matrix," Composite Structures, vol. 208, pp. 346-356, 2018 Z. Al-Hajaj, R. Zdero and H. Bougherara, "Mechanical, Morphological, and Water Absorption Properties of a New Hybrid Composite Material made from 4 Harness Satin Woven Carbon Fibres and Flax Fibres in an Epoxy Matrix," Composites Part A: Applied Science and Manufacturing, vol. 115, pp. 46-56, 2018