I am Godswill Maduabuchi, a Civil Engineer and Architect with strong specialization in Structural Engineering, Geotechnical Engineering, Materials Science, and Building Design. My work bridges advanced academic research with real-world engineering practice, allowing me to deliver solutions that are scientifically rigorous, structurally sound, and practically sustainable. With deep experience in structural behaviour, soil–structure interaction, alternative binder systems, concrete technology, and large-scale laboratory testing, I bring an evidence-driven approach to every project and research engagement.

My academic interests focus on performance-based structural systems, sustainable construction materials, geotechnical innovations, and material characterization for low-carbon infrastructure. I design and execute detailed experimental programs, analyse complex datasets, interpret geotechnical and structural failure mechanisms, and translate research outcomes into industry-ready engineering strategies. I am committed to developing resilient and sustainable solutions for rapidly growing cities, with a strong focus on the Global South.

Alongside research, I actively work across the engineering industry, providing structural design, geotechnical assessment, building design consultancy, construction supervision, and engineering surveying. I combine analytical precision with practical project delivery—ensuring that every design or recommendation is validated through field experience, material evidence, and regulatory compliance. My work spans residential, commercial, and infrastructure projects, where I integrate structural safety, material performance, and cost-effective construction planning.

I am passionate about advancing civil engineering through collaborative research, professional consulting, technical training, and innovation in sustainable materials such as slag binders, calcined clays, and agricultural by-product pozzolans. My long-term purpose is to contribute globally to safer structures, better soils, improved materials, and more resilient infrastructure systems through high-impact research and engineering practice.