Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology
If the coating is sufficiently flexible, no tears, cracks, or debond will occur. Although geopolymers have a great potential as a coating material, research on the flexural properties is very limited. In this study, a three-point bending test and scanning electron microscope were used to investigate...
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MDPI AG
2020-02-01
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| Online Access: | https://www.mdpi.com/2079-6412/10/2/165 |
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doaj-285aa1be404840b9be29d2e1b7e804502020-11-25T01:42:27ZengMDPI AGCoatings2079-64122020-02-0110216510.3390/coatings10020165coatings10020165Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface MethodologyMohd Salahuddin Mohd Basri0Faizal Mustapha1Norkhairunnisa Mazlan2Mohd Ridzwan Ishak3Department of Process and Food Engineering, Faculty of Engineering, Universiti Putra Malaysia, Serdang 43400 UPM, Selangor, MalaysiaDepartment of Aerospace Engineering, Faculty of Engineering, Universiti Putra Malaysia, Serdang 43400 UPM, Selangor, MalaysiaDepartment of Aerospace Engineering, Faculty of Engineering, Universiti Putra Malaysia, Serdang 43400 UPM, Selangor, MalaysiaDepartment of Aerospace Engineering, Faculty of Engineering, Universiti Putra Malaysia, Serdang 43400 UPM, Selangor, MalaysiaIf the coating is sufficiently flexible, no tears, cracks, or debond will occur. Although geopolymers have a great potential as a coating material, research on the flexural properties is very limited. In this study, a three-point bending test and scanning electron microscope were used to investigate the flexural properties and microstructure of the geopolymer composite coating (GCC), respectively. Response Surface Methodology (RSM) consists of a combination of mathematical and statistical techniques, which is useful in modelling, analyzing, and optimizing responses that are influenced by several factors. It was used in determining the relationship between each factor and determining the best composition for the composite coating. Several factors were considered including ratio of activated alkaline (AA) solution (<i>V</i><sub>1</sub>), RHA/AA ratio (<i>V</i><sub>2</sub>), and curing temperature (<i>V</i><sub>3</sub>). Results showed that the RHA/AA ratio mostly influenced the response, followed by curing temperature while the ratio of AA was not significant. Lower V<sub>2</sub> and V<sub>3</sub> values provided the highest flexural strength and modulus. The optimum composition which provided the best coating of flexural properties were <i>V</i><sub>1</sub> = 3.5, <i>V</i><sub>2</sub> = 0.39, and <i>V</i><sub>3</sub> = 45.7 °C. Microscopic images showed that coating with high flexural properties (ductile coating) exhibited minor and rough cracks as compared to that of coating with low flexural properties (brittle coating) which displayed a crack with a clean linear cut. Brittle coating was highly agglomerated and has a significant negative effect on the flexural properties. By developing the optimum composition, the GCC may potentially be a good alternative as a building construction coating material.https://www.mdpi.com/2079-6412/10/2/165rice husk ashgeopolymer composite coatingresponse surface methodologyflexural strengthflexural modulus |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Mohd Salahuddin Mohd Basri Faizal Mustapha Norkhairunnisa Mazlan Mohd Ridzwan Ishak |
| spellingShingle |
Mohd Salahuddin Mohd Basri Faizal Mustapha Norkhairunnisa Mazlan Mohd Ridzwan Ishak Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology Coatings rice husk ash geopolymer composite coating response surface methodology flexural strength flexural modulus |
| author_facet |
Mohd Salahuddin Mohd Basri Faizal Mustapha Norkhairunnisa Mazlan Mohd Ridzwan Ishak |
| author_sort |
Mohd Salahuddin Mohd Basri |
| title |
Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology |
| title_short |
Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology |
| title_full |
Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology |
| title_fullStr |
Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology |
| title_full_unstemmed |
Optimization of Rice Husk Ash-Based Geopolymers Coating Composite for Enhancement in Flexural Properties and Microstructure Using Response Surface Methodology |
| title_sort |
optimization of rice husk ash-based geopolymers coating composite for enhancement in flexural properties and microstructure using response surface methodology |
| publisher |
MDPI AG |
| series |
Coatings |
| issn |
2079-6412 |
| publishDate |
2020-02-01 |
| description |
If the coating is sufficiently flexible, no tears, cracks, or debond will occur. Although geopolymers have a great potential as a coating material, research on the flexural properties is very limited. In this study, a three-point bending test and scanning electron microscope were used to investigate the flexural properties and microstructure of the geopolymer composite coating (GCC), respectively. Response Surface Methodology (RSM) consists of a combination of mathematical and statistical techniques, which is useful in modelling, analyzing, and optimizing responses that are influenced by several factors. It was used in determining the relationship between each factor and determining the best composition for the composite coating. Several factors were considered including ratio of activated alkaline (AA) solution (<i>V</i><sub>1</sub>), RHA/AA ratio (<i>V</i><sub>2</sub>), and curing temperature (<i>V</i><sub>3</sub>). Results showed that the RHA/AA ratio mostly influenced the response, followed by curing temperature while the ratio of AA was not significant. Lower V<sub>2</sub> and V<sub>3</sub> values provided the highest flexural strength and modulus. The optimum composition which provided the best coating of flexural properties were <i>V</i><sub>1</sub> = 3.5, <i>V</i><sub>2</sub> = 0.39, and <i>V</i><sub>3</sub> = 45.7 °C. Microscopic images showed that coating with high flexural properties (ductile coating) exhibited minor and rough cracks as compared to that of coating with low flexural properties (brittle coating) which displayed a crack with a clean linear cut. Brittle coating was highly agglomerated and has a significant negative effect on the flexural properties. By developing the optimum composition, the GCC may potentially be a good alternative as a building construction coating material. |
| topic |
rice husk ash geopolymer composite coating response surface methodology flexural strength flexural modulus |
| url |
https://www.mdpi.com/2079-6412/10/2/165 |
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