Breadcrumbs Breadcrumbs

Engr. Dr. Muhammad Basit Ehsan Khan Profile

profile
  • Name: Engr. Dr. Muhammad Basit Ehsan Khan
  • Designation:Assistant Professor
  • Phone:basit.khan@nfciet.ed
  • Email:basit.khan@nfciet.edu.pk

 

Name: Engr. Dr. Muhammad Basit Ehsan Khan
Designation: Assistant Professor
Department: Civil Engineering
Email: basit.khan@nfciet.edu.pk

Qualifications

• Ph.D. Civil Engineering
• M.S. Structural Engineering
• B.Sc. Civil Engineering

Professional Experience

Total Experience: 11 years in teaching and research in national and international universities and organizations

Academic Teaching Experience: 8 years
Industrial Professional Experience: 3 years
Research Experience: 9 years

Research Publications

  1. Khaliq, W., Ehsan, M. B. (2016). Crack healing in concrete using various bio-influenced self-healing techniques. Construction and Building Materials, Vol. 102, pp. 349–357.

  2. Ehsan Khan, M. B., Shen, L., & Dias-da-Costa, D. (2020). Characterisation of autogenous healing in cracked mortars under marine water exposure. Magazine of Concrete Research, pp. 1–16.

  3. Huang, J., Luo, Z., Ehsan Khan, M. B. (2020). Impact of aggregate type and size and mineral admixtures on the properties of pervious concrete: An experimental investigation. Construction and Building Materials, Vol. 265, 120759.

  4. Ehsan Khan, M. B., Shen, L., & Dias-da-Costa, D. (2021). Self-healing behaviour of bio-concrete in submerged and tidal marine environments. Construction and Building Materials, Vol. 277, 122332.

  5. Ehsan Khan, M. B., Shen, L., & Dias-da-Costa, D. (2021). Crack healing performance of bacteria-based mortar under sustained tensile loading in marine environment. Cement and Concrete Composites, Vol. 120, 104055.

  6. Huang, J., He, Z., Khan, M. B. E., Zheng, X., & Luo, Z. (2021). Flexural behaviour and evaluation of ultra-high-performance fibre-reinforced concrete beams cured at room temperature. Scientific Reports, 11(1), pp. 1–16.

  7. Akhtar, M. K., Kanwal, M., Khushnood, R. A., & Khan, M. B. E. (2023). Assessment of mechanical attributes and microstructural densification of self-healing recycled coarse aggregate concrete using various bacterial immobilizers. Journal of Building Engineering, Vol. 69, 106229.

  8. Khan, M. B. E., Dias-da-Costa, D., & Shen, L. (2023). Factors affecting the self-healing performance of bacteria-based cementitious composites: A review. Construction and Building Materials, Vol. 384, 131271.

  9. Khan, M. B. E., Dias-da-Costa, D., & Shen, L. (2023). Effect of crack orientation on bacterial self-healing of bio-mortar in marine environment. Materials Today Sustainability, 100608.