Mohammed Abdul Azeem

Title: Innovations of Mohammed Abdul Azeem

Introduction

Mohammed Abdul Azeem is a notable inventor based in Dhahran, Saudi Arabia. He has made significant contributions to the field of materials science, particularly in the development of antimicrobial alloys and metal matrix composites. With a total of 5 patents, his work has implications for biomedical applications and advanced materials.

Latest Patents

One of his latest patents is an antimicrobial alloy composed of titanium, niobium, and silver. This alloy includes between 5 and 30 atomic percent niobium, up to 3 atomic percent silver, with the remaining atomic percentage being titanium. Notably, the alloy does not contain zirconium and exhibits a predominantly beta-titanium crystal structure, with an elasticity modulus ranging from 60 to 85 GPa. This antimicrobial alloy is particularly useful in bioimplants due to its unique properties. Another significant patent involves a method to form a metal matrix composite reinforced with eggshell. This method entails preparing an eggshell powder, blending it with metal powders such as magnesium and zirconium, and then compacting and sintering the mixture to create a composite with improved corrosion resistance. This composite can be utilized in various biomedical applications.

Career Highlights

Throughout his career, Mohammed Abdul Azeem has worked with prestigious organizations, including King Fahd University of Petroleum and Minerals and Saudi Arabian Oil Company. His experience in these institutions has allowed him to collaborate on innovative projects and contribute to advancements in material science.

Collaborations

He has collaborated with notable coworkers such as Dahiru Umar Lawal and Turki Nabieh Baroud, further enhancing his research and development efforts in the field.

Conclusion

Mohammed Abdul Azeem's contributions to the field of materials science through his innovative patents demonstrate his commitment to advancing technology for biomedical applications. His work continues to influence the development of new materials that can improve health outcomes.