Skip to main content

Dr Mohammad Hizam Shah Rusmi

Dr Mohammad Hizam Shah Rusmi
Name Mohammad Hizam Shah Rusmi
Position IAS Tutor
Section College for Indigenous Studies, Education and Research
Location Toowoomba Campus
Email
Qualifications BEng(Hons) UTP , MEng TechMalaysia , PhD USQ
Languages Malay (accredited translator)

Research interests
Composite and Hybrid materials, Structural connection, Structural integrity, Structural durability, Pultruded FRP, Construction materials

USQ Research affiliations

  • Centre for Future Materials (CFM)

Currently teaching courses/programs
ITAS Tutor at College for Indigenous Studies, Education and Research
Tutoring courses:
CIV2503 Structural Design I
CIV4508 Structural Design II
CIV3505 Structural Analysis
CIV1501 Engineering Statics
CIV2403 Geology and Geomechanics
ENG1100 Introduction to Engineering Design
ENM1600 Engineering Math.
MEC1201 Engineering Materials
MEC2402 Stress Analysis

Teaching experience(Tertiary)
6 Years



Publications in ePrints

Hizam, R. M. and Manalo, Allan C. and Karunasena, Warna and Bai, Yu (2020) Joint strength of single-bolted pultruded GFRP square hollow sections with mechanical inserts under elevated temperatures. Journal of Composites for Construction, 24 (1 - Article 04019056). pp. 1-15. ISSN 1090-0268

Hizam, R. M. and Manalo, Allan C. and Karunasena, Warna and Bai, Yu (2019) Behaviour of pultruded GFRP truss system connected using through-bolt with mechanical insert. Composites Part B: Engineering, 168. pp. 44-57. ISSN 1359-8368

Rusmi, Mohammad Hizam Shah (2018) Behaviour of bolted connection system in pultruded GFRP structures. [Thesis (PhD/Research)]

Hizam, R. M. and Manalo, Allan C. and Karunasena, Warna and Bai, Yu (2018) Effect of bolt threads on the double lap joint strength of pultruded fibre reinforced polymer composite materials. Construction and Building Materials, 181. pp. 185-198. ISSN 0950-0618

Hizam, R. M. and Karunasena, Warna and Manalo, Allan C. (2014) An experimental investigation on the effect of threaded bolt on the double lap joint strength of pultruded fibre reinforced polymer. In: Australasian Composites Conference (CA 2014): Materials for a Lighter and Smarter World, 7–9 Apr 2014, Newcastle, Australia.

View full listing in ePrints