Science and Technology

Science and Engineering provides an international channel for the publication of theoretical and experimental studies. The journal publishes issues of rigorous and original contributions devoted to a wide range of subfields in the engineering and sciences.

Saiful Amri Mazlan

Editorial Board Member of Science and Technology

Lecturer, University Technology of Malaysia, Malaysia

Research Areas

Smart Materials, Magnetorheological Fluids, Electromagnetics, Field-Responsive Materials

Education

2010Post-Doctoral Dublin City University, Dublin, Ireland
2008Ph.DSmart Materials, Dublin City University, Dublin, Ireland
2002M. EngManufacturing Systems, Universiti Kebangsaan Malaysia, Bangi, Selangor
1998DegreeMechanical, Universiti Kebangsaan Malaysia, Bangi, Selangor

Experience

PresentSenior Lecturer, Department Mechanical Department, UTM Razak School of Engineering and Advanved Technology
2011–presentHead of Mechanical Laboratory. UTM Razak School
2009–2011Student Accomodation’s Fellow. Kampus Siswa Jaya, UTM, KL

Membership

ASEAN Chartered Professional Engineer (ASEAN CP Eng.)
EMF Engineer (Int. PE (My)), EMF International Register of Professional Engineer
APEC Engineer (APEC Eng.), APEC Engineer Register Malaysia
ASEAN Engineer (ASEAN Eng.), ASEAN Engineers Register (2534)
Professional Engineer (P. Eng.), Board of Engineers Malaysia (11692)
Corporate Member (MIEM), Institute of Engineers Malaysia (18974)
Ordinary Member (MIEI), Institute of Engineers Ireland (053831)
Member, American Physical Society (61033188)
Member, IEEE (85034318)
Member, Society of Engineering Education Malaysia (P0113)
Member, Malaysian Irish Alumni Association, MIAA

Publications: Journals

[1]  S.A. Mazlan, I. Ismail, H. Zamzuri and A.Y.A. Fatah, Compressive and Tensile Stresses of Magnetorheological Fluids in Squeeze Mode, International Journal of Applied Electromagnetics and Mechanics, Vol. 36, 2011, 327-337. (IF: 0.328)
[2]  Z. Salleh, E.M. Mazlan, S.A. Mazlan, N.A. Hassan and F.A. Patakor, A Case Study on the Efficacy of Technical Laboratory Safety in Polytechnic, proceedings of World Academy of Science, Engineering and Technology, Vol. 77, 2011, 760-764. (Indexed by ISI, Scopus)
[3]  I. Ismail, S.A. Mazlan and A.G. Olabi, Magnetic Circuit Simulation for Magnetorheological (MR) Fluids Testing Rig in Squeeze Mode, Advanced Materials Research, Vols. 123-125, 2010, 991-994. (Indexed by ISI, Scopus)
[4]  S.A. Mazlan, A. Issa, H.A. Chowdhury and A.G. Olabi, Magnetic Circuit Design for the Squeeze Mode Experiments on Magnetorheological Fluids, Materials and Design, Vol. 30, 2009, 1985-1993. (IF: 1.518)
[5]  S.A. Mazlan, A. Issa, H.A. Chowdhury and A.G. Olabi, Tensile Stress-Strain Relationships of Magnetorheological Fluids under Various Factors, Diffusion and Defect Data Pt. B: Solid State Phenomena, Vol. 154, 2009, 127-132. (IF: 0.493)
[6]  H.A. Chowdhury, S.A. Mazlan and A.G. Olabi, A Simulation Study of Magnetostrictive Material Terfenol-D in Automotive CNG Fuel Injection Actuation, Diffusion and Defect Data Pt. B: Solid State Phenomena, Vol. 154, 2009, 41-46. (IF: 0.493)
[7]  S.A. Mazlan, A. Issa and A.G. Olabi, Magnetorheological Fluids Behaviour in Tension Loading Mode, Advanced Materials Research, Vols. 47-50, 2008, 242-245. (Indexed by ISI, Scopus)
[8]  H.A. Chowdhury, S.A. Mazlan and A.G. Olabi, Implementation of Magnetostrictive Material Terfenol-D in CNG Fuel Injection Actuation, Advanced Materials Research, Vols. 47-50, 2008, 630-633. (Indexed by ISI, Scopus)
[9]  S.A. Mazlan, N.B. Ekreem and A.G. Olabi, An Investigation of the Behaviour of Magnetorheological Fluids in Compression Mode, Journal of Materials Processing Technology, Vol. 241, Nos. 1-3, 2008, 780-785. (IF: 1.567)
[10]  S.A. Mazlan, N.B. Ekreem and A.G. Olabi, Apparent Stress-Strain Relationships in Experimental Equipment where Magnetorheological Fluids Operate under Compression Mode, Journal of Physics D: Applied Physics, Vol. 41, No. 9, 2008, 095002. (IF: 2.105)
[11]  S.A. Mazlan, N.B. Ekreem and A.G. Olabi, The Performance of a Magnetorheological Fluid in Squeeze Mode, Smart Materials and Structures, Vol. 16, No. 5, 2007, 1678-1682. (IF: 2.094)