Tayyab Ali

I am a Material Engineer knowledgeable of material requirements for multiple manufacturing and product development applications. Extensive knowledge of failure analysis and the effect of Corrosion on materials. Placed environmental concerns as a priority during projects.

Metals and Alloys lab:

Study structure-property relationships, alloy design, mechanical testing, corrosion analysis, and microstructure analysis.

Heat Treatment lab:

Explore heat treatment processes, such as annealing and quenching, to manipulate material properties for desired applications.

Polymers lab:

Investigate polymer synthesis, characterization, processing techniques, mechanical testing, and polymer composite development.

Ceramics lab:

Research ceramic processing methods, characterization of properties like hardness and thermal conductivity, and explore applications in industries like electronics and aerospace.

Composite lab:

Focus on the fabrication, testing, and analysis of composite materials to understand their mechanical behavior and optimize their performance for specific applications.

Inspection and Testing of materials lab:

Perform non-destructive testing, material characterization, quality control, and failure analysis using techniques like microscopy, spectroscopy, and mechanical testing.

Welding and Joining lab:

Study various welding and joining techniques, assess their mechanical properties, analyze weld defects, and explore advancements in welding technology.

Health and safety:

Emphasize safety protocols, risk assessment, hazard management, and regulatory compliance to ensure a secure working environment in materials engineering laboratories.

TITLE: INVESTIGATION OF INTERNAL CORROSION IN OIL AND GAS PIPELINES; ASSESSMENT AND MITIGATION

SUMMARY OF THE PROJECT: Successfully concluding the final year project, I led a comprehensive investigation into the internal corrosion mechanisms affecting the oil and gas pipeline managed by MOL Company. Through meticulous analysis and testing, we gained deep insights into the root causes of corrosion at the pipeline's bend, assessed its extent, and proposed mitigation strategies to ensure the safety and reliability of operations.

Our approach included inspection, advanced characterization techniques, and a thorough evaluation of corrosion control methods. Leveraging state-of-the-art equipment and methodologies, we provided detailed recommendations aimed at preventing further corrosion and enhancing the pipeline's longevity.

The project was executed within the allocated timeline and budget, culminating in the delivery of a comprehensive technical report. This report encapsulates the project's executive summary, methodology, findings, mitigation strategies, and cost-benefit analysis, providing valuable insights for MOL Company of Oil to implement proactive corrosion management practices.

The successful completion of this project underscores my ability to lead multidisciplinary teams, conduct thorough research, and deliver actionable solutions to complex engineering challenges. By addressing a critical industry concern, our project not only demonstrates technical proficiency but also underscores a commitment to excellence and problem-solving in the field of engineering.