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Carbon Nanotube Composites: Proper2es, Problems and Poten2al Samuel Chuah Department of Civil Engineering, Monash University, Australia (E-‐mail: tjchu3@student.monash.edu)
Acknowledgements This study is currently in progress for the Final Year Project. This Poster is made possible with the help of my supervisor, Asghar Korayem and Unit Coordinator Dr. Wen Hui Duan
Table 1: Time planner for Semester 1 2012.
Objec2ves 1. IncorporaPng the properPes of carbon nanotube to
nanocomposites 2. Understand the reinforcement mechanisms of carbon
nanotube in an epoxy and cement matrix 3. Conduct the experiments in a safe and proper manner 4. Study the role and properPes of epoxy in facilitaPng a
successful composite 5. InvesPgate possible failure modes in carbon nanotube
Fig. 1: Growing demand for steel
Data to Collect
Conclusion Further studies and tests are required to fully understand and hence, maximise the potenPal of carbon nanotubes as a composite material.
Scope/Methodology 1. Conduct literature review on
carbon nanotubes, nano material reinforced polymers, nano cement and concrete composites
2. Fabricate and idenPfy the characterisPcs of nano epoxy composites
3. Perform laboratory tests to invesPgate the relevant characterisPcs of carbon nanotube composites.
4. Provide a comprehensive report regarding the project outcomes.
Time Schedule
Fig. 6: Experimental variables. Fig. 5: Tensile test.
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Aim Ø Ensuring a reliable and easily available building material to meet the market demand Ø Exploring carbon nanotubes as an alternaPve construcPon material to convenPonal steel Ø Harnessing the superior characterisPcs of nanocarbons in the construcPon industry specifically
Fig. 2: Conceptual design of Shimizu City
ProperPes
Mechanical
Density Young’s Modulus Tensile
Strength Flexural strength
Flexural modulus
Hardness
Thermal
Tg
Storage modulus
Loss modulus
Fig. 4: Laboratory work.
Fig. 3: Sample fabrication.
Current Progress
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