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cheah
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Cheah Chee Ban (Dr. Engr.)
E49/102,
School of HBP USM 11800 Penang, Malaysia
Tel : 604-6532827/ 0164846502
Email : cheahcheeban@usm.my

PROFILE

Academic Qualifications  
  • PhD (Building Materials and Reinforced Concrete Structures)
  • Bachelor of Engineering (Hons.) (Civil Engineering)

 

     
Personal Details
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Professional Membership   Registered Engineer (Board of Engineers Malaysia)
     

RESEARCH

Titles (Duration) Level of Involvement Funding Agency (Sum)
Utilization Of Coal Ash A Primary Binder In Cementless Bricks
(2013-2016)
Principal Researcher USM-RU
Geopolymerization Hydration Kinetics Governing The Solidification Of Coal And Wood Biomass Ash Cementless Concrete
(2013-2016)
Principal Researcher KPM-FRGS
The Development of an Ultra Durable and High Strength Polymer Modified Fibrous Cementitious Composite (2014-2016) Principal Researcher USM-STG
The novel accelerated curing regime for polymer modified precast elements using biomass energy
(2014-2017)
Co-researcher MOSTI
Development of Supplementary binder in high Performance concrete production
(2011-2014)
Co-researcher MOHE-ERGS
Accelerated Curing Model for SBR Modified Cementitious Composite
(2013-2015)
Co-researcher MOHE-ERGS
Enhancing Polymer Modified Cement System Using Innovative Approach of Accelerated Curing Regimes Co-researcher MOHE-ERGS
Development of high performance concrete for Structural system by partial replacement of cement With Ultra Reactive Saw Dust Ash (URSDA) (2010-2013) Individual USM-RU-PRGS

 

SUPERVISION

STUDENT SUPERVISION

Name of Student   Level of Study (field)
Part Wei Ken   PhD (Construction Materials)
Azamuddin b. Husin   PhD (Construction Materials)
Gobi a/l Velayutham   Undergraduate (Building Technology)
Noor Shazea Ahmad Noordin   Undergraduate (Building Technology)
Muhammad Hasnolhadi Samsudin   MSc (Construction Materials)
Mohammad Aiman Ishak   Undergraduate (Building Technology)
Fatin Farhana Hassian   Undergraduate (Building Technology)
Nurul Nadiah Binti Maliki   Undergraduate (Building Technology)

 

PUBLICATION

MASTER OF ARCHITECTURE SYARAT KEMASUKAN

Journal Papers

  1. Cheah C.B., Part W. K, Ramli M.  (2015). The hybridizations of coal fly ash and wood ash for the fabrication of low alkalinity geopolymer load bearing block cured at ambient temperature. Journal of Construction and Building Materials, Vol.88. p.41-55  

  2. Part W. K, Ramli M. Cheah C.B. (2015). An overview on the influence of various factors on the properties of geopolymer concrete derived from industrial by-products. Journal of Construction and Building Materials, Vol. 77. p. 370-395.     

  3. Kwan W. H, Ramli M. Cheah C.B. (2014). Impact and flexural resistance of fiber reinforced concrete in simulated aggressive environment. Journal of Construction and Building Materials, Vol. 63. p. 62-71.

  4. Cheah, C. B. & Ramli, M. (2014).The fluid transport properties of HCWA-DSF hybrid supplementary binder mortar. Composite Part B, 56, p. 681-690

  5. Cheah C.B, Ahmad Nordin, N.S, Part, W.K, Ramli, M.  and Kwan W.H. (2014). The high volume reuse of hybrid biomass ash as a primary binder in cementless mortar block. American Journal of Applied Sciences, Volume 11(8) 2014 p. 1369-1378 doi: 10.3844/ajassp.2014.1369.1378

  6. Cheah C.B and Velayutham, G. (2014). The Effects of Steel Fibre on the Mechanical Strength and Durability of Steel Fibre Reinforced High Strength Concrete (SFRHSC) Subjected to Normal and Hygrothermal Curing. MATEC Web of Conferences 10

  7. Cheah, C. B. & Ramli, M. (2013) The structural behaviour of HCWA ferrocement–reinforced concrete composite slabs. Composite Part B, 51,p. 68-78.

  8. Cheah, C. B. & Ramli, M. (2013) The engineering properties of high performance concrete with HCWA–DSF supplementary binder. Construction and Building Materials, 43,p. 93-103.

  9. Cheah, C. B. & Ramli, M. (2012) Mechanical strength, durability and drying shrinkage of structural mortar containing HCWA as partial replacement of cement. Construction and Building Materials, 30,p. 320-329.

  10. Cheah, C. B. & Ramli, M. (2012) Load capacity and crack development characteristics of HCWA-DSF high strength mortar ferrocement panels in flexure. Construction and Building Materials , 36,p. 348-357.

  11. Cheah, C. B. & Ramli, M. (2012). The effects of the incorporation of wood biomass ash on water demand, setting and mechanical properties of blended cement. Energy Procedia, 14,p. 140-145.

  12. Cheah, C. B. & Ramli, M. (2011) The implementation of wood waste ash as a partial cement replacement material in the production of structural grade concrete and mortar: An overview. Resources, Conservation and Recycling, 55,p. 669-685.

  13. Cheah, C. B. & Ramli, M. (2011) Properties of high calcium wood ash and densified silica fume blended cement. International Journal of Physical Sciences, 6 (28),p. 6596-6606.

  14. Cheah, C. B. & Ramli, M. (2011) Characterisation of high calcium wood ash for use as a constituent in wood ash-silica fume ternary blended cement. Advanced Materials Research, 346,p. 3-11.

  15. Cheah, C. B. & Ramli, M. (2011) Mechanical strength and durability of high performance mortar containing densified silica fume. American Journal of Applied Sciences, 8 (1),p. 82-91.

  16. Cheah, C. B. & Ramli, M. (2010) Optimization of mix proportion of high performance mortar for structural applications. American Journal of Engineering and Applied Sciences, 3 (4),p. 643-649. 

Conference Papers

  1. Cheah, C. B. & Ramli, M. (2011) Properties of wood ash-silica fume ternary blended cementitious system. In:Sulaiman, O. 2nd Symposium of USM Fellowship 2011, 23 November, Penang, Malaysia.Institute of Postgraduate Studies. p. 36

  2. Cheah, C. B. & Ramli, M. (2011) Characterisation of high calcium wood ash for use as mineral admixture in concrete. International Building and Infrastructure Technology Conference 2011, 7-8 June, Penang, Malaysia. p. 154

 

Thesis and Dissertations

  1. Cheah, C.B. (2012) Development of high performance mortar containing high calcium wood ash as a partial cement replacement material for ferrocement structural applications. PhD thesis, Universiti Sains Malaysia.

  2. Cheah, C.B. (2009) Experimental study on concentrically loaded hollow square columns bonded externally using discrete glass fiber reinforced polymer strips. Dissertation, Universiti Sains Malaysia.

 

OTHERS

AWARDS

Bil  Title of Award   Issuing Organisation Year

1.

2.

Hadiah Sanggar Sanjung (Penerbitan Jurnal)

Hadiah Sanggar Sanjung (Penerbitan Jurnal)

Universiti Sains Malaysia

Universiti Sains Malaysia

2013

2012

3. USM Gold Medal Universiti Sains Malaysia 2009
4. First Prize in IBS/MC Competition Construction Industry Development Board (CIDB) 2009
5. Outstanding performance in Structure Design The Institution of Structural Engineers (IStructE) 2009
6. Gamuda Excellence Award Gamuda Berhad 2008
7. Gamuda Excellence Award Gamuda Berhad 2007