Dr Mohd Ikram Ramli

Email: [email protected]

Dr. Mohd Ikram Bin Ramli is a highly qualified and experienced academic with a strong background in mechanical and materials engineering. He obtained his Bachelor of Engineering in Metallurgical Engineering from Universiti Malaysia Perlis, his Master of Science in Mechanical and Materials Engineering, and his PhD in Mechanical and Materials Engineering from Universiti Kebangsaan Malaysia.

In addition, he is a registered graduate engineer with the Board of Engineering Malaysia (BEM) and a graduate technologist with the Malaysia Board of Technologists. Dr. Ramli also has postdoctoral experience, having worked as a Postdoctoral Researcher at Universiti Kebangsaan Malaysia on the processability mechanism of copper-aluminium-manganese shape memory alloys (SMAs) through the powder injection moulding process. His research work on the ‘Powder injection moulding of alloy titanium–wollastonite (Ti6Al4V/WA) composite’ has been published in several reputable journals, and he has presented his findings at international conferences.

As a lecturer, he has a proven track record of developing and delivering engaging and informative courses, and is committed to providing his students with the knowledge and skills they need to succeed in their academic and professional endeavors. Dr. Ramli’s current research interests are focused on the Development of Metal Fused Filament Fabrication (MFFF) for additive manufacturing, and he is excited to continue exploring new avenues of research in this field.

PhD in Mechanical and Materials Engineering Universiti Kebangsaan Malaysia (UKM)

Master of Science in Mechanical and Materials Engineering Universiti Kebangsaan Malaysia (UKM)

Bachelor of Engineering in Metallurgical Engineering Universiti Malaysia Perlis (UNIMAP)

Year Title
2022 Shanmuganantha, L., Khan, M. U. A., Sulong, A. B., Ramli, M. I., Baharudin, A., Ariffin, H. M., … Ng, M. H. (2022). Characterization of titanium ceramic composite for bone implants applications. Ceramics International, 48(16), 22808–22819.
2021 Mahmud, N. N., Azam, F. A., Ramli, M. I., Foudzi, F. M., Ameyama, K., & Sulong, A. B. (2021). Rheological properties of irregular-shaped titanium-hydroxyapatite bimodal powder composite moulded by powder injection moulding. Journal of Materials Research and Technology, 11, 2255–2264.

Zakaria, Mohd Yusuf, Ramli, M. I., Sulong, A. B., Muhamad, N., & Ismail, M. H. (2021). Application of sodium chloride as space holder for powder injection molding of alloy Titanium–Hydroxyapatite composites. Journal of Materials Research and Technology, 12, 478–486.

2020 Radzuan, N. A. M., Sulong, A. B., Foudzi, F. M., Zakaria, M. Y., & Ramli, M. I. (2020). Study on the influence mechanism of sintering hydroxyapatite (HA). Journal of Ceramic Processing Research, 21(6), 662–666.
2019 Ramli, Mohd Ikram, Sulong, A. B., Muhamad, N., Muchtar, A., & Zakaria, M. Y. (2019). Effect of sintering on the microstructure and mechanical properties of alloy titanium-wollastonite composite fabricated by powder injection moulding process. Ceramics International, 45(9), 11648–11653.

Zakaria, Mohd Yusuf, Sulong, A. B., Muhamad, N., Raza, M. R., & Ramli, M. I. (2019). Incorporation of wollastonite bioactive ceramic with titanium for medical applications: An overview. Materials Science and Engineering: C, 97, 884–895.

Ramli, Mohd Ikram, Sulong, A. B., Muhamad, N., Muchtar, A., Arifin, A., & Park, S. J. (2019). Processing of Stainless Steel (SS316L)-Hydroxyapatite (HA) Powder Composite through Powder Injection Molding. Journal of Physics: Conference Series, 1198, 042017. IOP Publishing.

Zakaria, Mohd Yusuf, Sulong, A. B., Muhamad, N., & Ramli, M. I. (2019). Rheological properties of titanium-hydroxyapatite with powder space holder composite feedstock for powder injection moulding. The International Journal of Advanced Manufacturing Technology, 102, 2591–2599.

2018 Zakaria, M. Y., Sulong, A. B., Ramli, M. I., Ukwueze, B., Harun, W. S. W., & Mahmud, R. L. (2018). Fabrication of porous titanium-hydroxyapatite composite via powder metallurgy with space holder method. Journal of Advanced Manufacturing Technology (JAMT), 12(1), 37–48.

Ramli, Mohd Ikram, Sulong, A. B., Muhamad, N., Muchtar, A., Arifin, A., Mohd Foudzi, F., & Hammadi Al-Furjan, M. S. (2018). Effect of sintering parameters on physical and mechanical properties of powder injection moulded stainless steel-hydroxyapatite composite. PloS One, 13(10), e0206247.

Mas’ood, N. N., Sulong, A. B., Muhamad, N., Mohamed, I. F., Foudzi, F. M., Ramli, M. I., & Salleh, F. M. (2018). Flow Behavior and Injectability of SS17-4PH with PS and PE Binders in Powder Injection Molding. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 49(2), 121–125.

Ramli, Mohd Ikram, Sulong, A. B., Muhamad, N., Muchtar, A., & Zakaria, M. Y. (2018a). Optimization of Injection folding Parameter towards Density of Green Part for Titanium Alloy-Wollastonite Composite. SAINS MALAYSIANA, 47(11), 2869–2875.

2017 Zakaria, Mohd Yusuf, Sulong, A. B., Ramli, M. I., & Raza, M. R. (2017). Determination of critical powder loading of titanium-hydroxyapatite with powder space holder for powder injection molding feedstocks. Journal of Mechanical Engineering (JMechE), (1), 11–21.

Ramli, Mohd Ikram, Sulong, A. B., Muhamad, N., Muchtar, A., & Zakaria, M. Y. (2017). Rheological Properties Of Titanium Alloy (Ti6Al4V)–Wollastonite (W) Composite Using Palm Stearin as Based Binder. Journal of Mechanical Engineering (JMechE), (2), 87–96.

Ramli, M. I., Sulong, A. B., Muhamad, N., Muctar, A., Ng, M. H., Shanmuganantha, L., & Zakaria, M. Y. (2017). Ti6Al4V/Wollastonite composite through powder injection molding process for bone implant application. Proceedings of the International Medical Device and Technology Conference, Skudai, Johor, Malaysia, 6–7.

2015 Arifin, A., Sulong, A. B., Muhamad, N., Syarif, J., & Ramli, M. I. (2015). Powder injection molding of HA/Ti6Al4V composite using palm stearin as based binder for implant material. Materials & Design (1980-2015), 65, 1028–1034.
2014 Arifin, A. (2014). Development of HA/TI Composite for Biomedical Application via Powder Injection Molding. Regenerative Research, 3(2).

Arifin, A., Sulong, A. B., Muhamad, N., Syarif, J., & Ramli, M. I. (2014a). HA/Ti6Al4V powder with palm stearin binder system-Feedstock characterization. Applied Mechanics and Materials, 564, 372–375. Trans Tech Publications Ltd.

Arifin, A., Sulong, A. B., Muhamad, N., Syarif, J., & Ramli, M. I. (2014b). Material processing of hydroxyapatite and titanium alloy (HA/Ti) composite as implant materials using powder metallurgy: a review. Materials & Design, 55, 165–175.

Ramli, M. I., Sulong, A. B., Muhamad, N., Muchtar, A., & Arifin, A. (2014). Stainless steel 316L–hydroxyapatite composite via powder injection moulding: rheological and mechanical properties characterisation. Materials Research Innovations, 18(sup6), S6-100.

2013 Sulong, A. B., Ramli, M. I., Hau, S. L., Sahari, J., Muhamad, N., & Suherman, H. (2013). Rheological and mechanical properties of carbon nanotube/Graphite/SS316L/ polypropylene nanocomposite for a conductive polymer composite. Composites Part B: Engineering, 50, 54–61.
2012 Ramli, Mohd Ikram, Sulong, A. B., Arifin, A., Muchtar, A., & Muhamad, N. (2012). Powder injection molding of SS316L/HA composite: rheological properties and mechanical properties of the green part. Journal of Applied Sciences Research, 8(11), 5317–5321.

RESEARCH GRANT

Title: Recovery of Phase Transformation Mechanism Changes in Copper-Aluminum-Manganese Shape Memory Alloys (SMAs) Processed by Powder Injection Molding (PIM)
Sponsors/Grant: Fundamental Research Grant Scheme (FRGS/1/2021/TK0/UKM/01/2) – (RM178,590)

 

CONSULTANCY

2022

Reviewer of Sains Malaysiana

2023

Postgraduate Supervision
Nur Aisyah Binti Ahmad Tamizi (UKM) – PhD

  • Awards & Recognitions Graduate Engineer of Board of Engineers Malaysia (BEM)
  • Graduate Technologist of Malaysia Board of Technologist (MBOT)