Academic Lecturer and researcher, Cape Peninsula University of Technology,South Africa
Muribwathoho Oritonda is a dedicated researcher and academic lecturer at Cape Peninsula University of Technology (CPUT). With a passion for advanced materials and manufacturing techniques, Oritonda earned a Master of Engineering (Summa Cum Laude) from CPUT. Specializing in friction stir welding and composite fabrication, they have made substantial contributions to academia and industry with impactful research and publications. With an h-index of 4 and i10-index of 2, Oritonda’s work has been well-recognized and frequently cited in the field. They are also known for their innovative teaching approaches, positively influencing student learning outcomes. Oritonda is currently pursuing a PhD, focusing on composite fabrication, with particular emphasis on Aluminium Metal Matrix Composites. Despite no industry partnerships or patents, their academic work remains pivotal in advancing the understanding and application of modern manufacturing techniques.
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Education
Muribwathoho Oritonda holds a Master of Engineering degree (Summa Cum Laude) from Cape Peninsula University of Technology (CPUT), specializing in advanced materials and manufacturing techniques. This achievement highlights not only Oritonda’s exceptional academic aptitude but also their dedication to innovation in the field. Their undergraduate studies provided a foundation in mechanical engineering, leading them to explore advanced manufacturing methods like friction stir welding and composite materials. Oritonda’s academic journey reflects a deep commitment to both learning and research, with an emphasis on producing high-quality, impactful work. Their ongoing doctoral research focuses on developing Aluminium Metal Matrix Composites, contributing significantly to the field of materials engineering. As a dedicated academic, Oritonda’s educational achievements and ongoing research trajectory position them as an emerging expert in the field of advanced manufacturing and materials science.
Experience
Oritonda Muribwathoho has extensive experience as both a researcher and an academic lecturer at Cape Peninsula University of Technology (CPUT). Having contributed to academia through numerous high-impact publications, Oritonda has developed expertise in advanced materials, particularly in friction stir welding (FSW) and composite fabrication. They have taught and mentored students in mechanical engineering, utilizing innovative teaching approaches that enhance student engagement and learning outcomes. Beyond the classroom, Oritonda’s research has focused on improving materials and manufacturing processes, with an emphasis on the development of Aluminium Metal Matrix Composites. Although they have yet to engage in consultancy or industry collaborations, their research publications in peer-reviewed journals indicate a growing academic influence. Their expertise is recognized globally, with several of their papers being cited in major engineering and materials science journals. Oritonda continues to push the boundaries of manufacturing technologies through ongoing academic research.
Research Focus
Muribwathoho Oritonda’s research focuses primarily on advanced materials and manufacturing techniques, with a particular emphasis on friction stir welding (FSW) and composite fabrication. Their doctoral research, centered on Aluminium Metal Matrix Composites, aims to develop high-performance materials with applications in aerospace, marine, and automotive industries. By optimizing the FSW process, Oritonda seeks to improve the mechanical properties and microstructure of aluminum alloys, enhancing their suitability for various industrial applications. Their studies involve detailed analysis of material behavior under different processing conditions, such as multi-pass FSW and the incorporation of composite reinforcements like silicon carbide and coal. This research also explores the use of Taguchi methods to optimize processing parameters for fabricating advanced composites. Oritonda’s work contributes to the growing field of sustainable and efficient manufacturing, focusing on the development of materials that meet the stringent demands of modern engineering applications.
Publications
- Effect of tool geometry on microstructure and mechanical properties of submerged friction stir processed AA6082/AA8011 joints 📘 (2021)
- The microstructure and mechanical properties of the friction stir processed TIG-welded aerospace dissimilar aluminium alloys 📘 (2021)
- Impact of multi-pass friction stir processing on microhardness of AA1050/AA6082 dissimilar joints 📘 (2021)
- Microstructural and mechanical properties of submerged multi-pass friction stir processed AA6082/AA8011 TIG-welded joint 📘 (2021)
- Metal Matrix Composite Fabricated with 5000 Series Marine Grades of Aluminium Using FSP Technique: State of the Art Review 📘 (2022)
- Metal Matrix Composite Developed with Marine Grades: A Review 📘 (2023)
- An Analysis Comparing the Taguchi Method for Optimizing the Process Parameters of AA5083/Silicon Carbide and AA5083/Coal Composites That Are Fabricated via Friction Stir Processing 📘 (2024)
- The mechanical properties of AA6082/AA1050 dissimilar joints subjected to multi-pass friction stir processing 📘 (2021)
- The effect of material position of multi-pass friction stir processing on friction stir welded AA1050/AA6082 dissimilar joints 📘 (2021)
- Review on Multi-Pass Friction Stir Processing of Aluminium Alloys 📘 (2020)
- Optimization and Regression Analysis of Friction Stir Processing Parameters of AA5083/Coal Composites for Marine Applications 📘 (2024)
- Optimization of FSP parameters in fabricating AA5083/Coal composites using Taguchi method 📘 (2024)
- The Influence of Material Position towards the Bending Strength of the 4 Pass AA1050/AA6082 and AA6082/AA1050 FSPed Joints 📘 (2022)
- Characterization of multi-pass friction stir processed AA1050 and AA6082 dissimilar joint 📘 (2021)