Faculty Profile

Mohaiminul Haque

Assistant Professor

Contact Information

  • Office Address: Assistant Professor Institute of Shahjalal University of Science and Technology, Sylhet-3114, Bangladesh
  • Phone: +8801719351373
  • Email: mohaiminul-cee@sust.edu, pallab87.sust@gmail.com

Biography

Mr. Mohaiminul Haque completed his graduation from Shahjalal University of Science and Technology (SUST) in 2011. He worked as a lecturer in Leading University, Sylhet in 2014 for three months. Mr. Mohaiminul Haque has joined as a lecturer in the department of Civil and Environmental Engineering (CEE) of Shahjalal University of Science and Technology in 2014. Since then he has been teaching courses like Design of concrete structure, Structural Analysis, Mechanics of solids and Engineering Mechanics, Surveying.
Mr. Haque’s main research interest is in the area of Structural Engineering more specifically; research focuses on Structural Dynamics, Structural Analysis and Design and Utilization of waste as construction materials.
Besides teaching he is also working as a consultant (professional engineer) in the Center for Research, Testing and Consultancy (CRTC) of CEE department.

Education

  • BSc (2011) in Civil and Environmental Engineering, ShahjalalUniversity of Science &Technology, Sylhet, Bangladesh.

Research Interests

  • Concrete Technology
  • Waste Utilization as Construction Materials
  • Integrated structural analysis and design
  • Retrofitting of Structure
  • Seismic Performance Analysis of RC Building Frame
  • Performance based Engineering

Active Research Project

  • Modelling and optimization of concrete properties made with nylon fiber and stone dust using response surface methodology

Previous Research Project

  • Ray, S. (PI), Haque, M. (CO-I), “Properties of concrete prepared with glass waste as fine aggregate and tin can as fiber reinforcement.” SUST Research Center. Amount: 2,16,000 BDT; Fiscal Year: 2019-20.
  • Haque, M. (PI), Mitu, K. N. (CO-I), "Properties and crack pattern analysis of concrete prepared with granite powder as partial replacement of fine aggregate and aluminium wire as fiber reinforcement." SUST Research Center. Amount: 2,55,000 BDT; Fiscal Year: 2020-21.
  • Mita, A. F. (PI), Haque, M. (CO-I), "Analysis and optimization of the properties of concrete incorporated with ceramic tile waste and stone dust as natural aggregates replacement" SUST Research Center. Amount: 3,90,000 BDT; Fiscal Year: 2022-23.

Journal Publish

  • 1. Prediction and optimization of hardened properties of concrete prepared with granite dust and scrapped copper wire using response surface methodology
  • 2. Prediction and optimization of properties of concrete containing crushed stone dust and nylon fiber using response surface methodology
  • 3. Engineering properties of concrete incorporating waste glass as natural sand substitution with tin can fiber: experimental and ANN application
  • 4. Predicting the strength of concrete made with stone dust and nylon fiber using artificial neural network
  • 5. Optimization of properties of concrete prepared with waste glass aggregate and condensed milk can fiber using response surface methodology
  • 6. Prediction and Optimization of the Fresh and Hardened Properties of Concrete Containing Rice Husk Ash and Glass Fiber Using Response Surface Methodology
  • 7. Performance evaluation of SVM and GBM in predicting compressive and splitting tensile strength of concrete prepared with ceramic waste and nylon fiber
  • 8. Comparison of artificial neural network (ANN) and response surface methodology (RSM) in predicting the compressive and splitting tensile strength of concrete prepared with glass waste and tin (Sn) can fiber
  • 9. Use of Ceramic Wastes as Aggregates in Concrete Production: A Review
  • 10. Experimental investigation and SVM-based prediction of compressive and splitting tensile strength of ceramic waste aggregate concrete
  • 11. Analysing properties of concrete made with stone dust and jute fibre using response surface methodology
  • 12. A study on b-value and investigation of seismic hazard in Sylhet seismic region, Bangladesh using Gumbel’s extreme value distribution method
  • 13. Seismic Performance Analysis of RCC Multi-Storied Buildings with Plan Irregularity
  • 14. Use of stone powder with sand in concrete and mortar: A waste utilization approach
  • 15. Experimental and numerical investigation of the properties of concrete with ceramic tile waste and stone dust as substitutes for natural aggregates

External Affiliations

  • Member of Institute of Engineers Bangladesh (IEB)

Awards & Recognition

  • University Merit Scholarship, 2008-10

Conference

  • 1. Utilization of Waste in Concrete by Using Crushed Glass as Fine Aggregate and Tin-Can (Sn) as Fiber Reinforcement
  • 2. Properties of Recycled Aggregate Concrete with Coconut Fibers
  • 3. Utilization of waste by using stone dust as fine aggregate and condensed milk-can as fiber reinforcement in concrete
  • 4. Properties of concrete made with recycled concrete aggregate as replacement of normal stone and tin (Sn) as fiber reinforcement
  • 5. Effective placement of multiple tuned mass dampers in irregular shaped reinforced concrete building

Teaching

  • AutoCAD for Civil and Environmental Engineering
  • Computer Aided Structural Analysis and Design Sessional
  • Design of Concrete Structure
  • Engineering Materials
  • Engineering Mechanics
  • Mechanics of Solids
  • Structural Analysis
  • Surveying

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