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Coating and insulation effect using emulsified modification bitumen
Graphical abstract Display Omitted
Highlights Emulsified Modification Bitumen (EMB) is used for coating and insulation purposes. The optimum formulation of EMB is identified. EMB coating performances are measured through adhesion and aging analysis. EMB thermal insulation properties are measured by heat transfer analysis. The adhesion, aging and thermal insulation are improved with a higher percentage of bitumen.
Abstract An operation theatre has to maintain a temperature lower than the ambient condition which may result in condensation which leads to fungi problems. This research aims to eradicate the fungi problems by analyzing the effect on coating and insulation using Emulsified Modification Bitumen (EMB). Bitumen with a penetration value of 60/70 will be modified with a recycled base oil at five different ratios and mixed with a cationic emulsifier and deionized water. Next, the EMB will be coated and dried on the top surface of a substrate (drywall) and will be compared with an industrial grade bitumen emulsion. From the analysis, EMB 05 is the best formulated bitumen emulsion with a percentage area removal of more than 65%. The accelerated, natural and cooling aging period are 296 days, 1107 days and 893 days. The total heat transfer (q) at temperatures of 60 °C, 45 °C, 30 °C, and 27 °C are 1.14 W, 0.79 W, 0.70 W and 0.65 W, respectively. The results obtained in this study have exposed the capability of EMB in coating and insulation in the operation theatre. Further work is nevertheless required to provide a deeper understanding of the mechanisms involved to facilitate the development of an optimum system applicable to the industry.
Coating and insulation effect using emulsified modification bitumen
Graphical abstract Display Omitted
Highlights Emulsified Modification Bitumen (EMB) is used for coating and insulation purposes. The optimum formulation of EMB is identified. EMB coating performances are measured through adhesion and aging analysis. EMB thermal insulation properties are measured by heat transfer analysis. The adhesion, aging and thermal insulation are improved with a higher percentage of bitumen.
Abstract An operation theatre has to maintain a temperature lower than the ambient condition which may result in condensation which leads to fungi problems. This research aims to eradicate the fungi problems by analyzing the effect on coating and insulation using Emulsified Modification Bitumen (EMB). Bitumen with a penetration value of 60/70 will be modified with a recycled base oil at five different ratios and mixed with a cationic emulsifier and deionized water. Next, the EMB will be coated and dried on the top surface of a substrate (drywall) and will be compared with an industrial grade bitumen emulsion. From the analysis, EMB 05 is the best formulated bitumen emulsion with a percentage area removal of more than 65%. The accelerated, natural and cooling aging period are 296 days, 1107 days and 893 days. The total heat transfer (q) at temperatures of 60 °C, 45 °C, 30 °C, and 27 °C are 1.14 W, 0.79 W, 0.70 W and 0.65 W, respectively. The results obtained in this study have exposed the capability of EMB in coating and insulation in the operation theatre. Further work is nevertheless required to provide a deeper understanding of the mechanisms involved to facilitate the development of an optimum system applicable to the industry.
Coating and insulation effect using emulsified modification bitumen
Razali, Mohd Najib (author) / Mohd Ramli, Najmuddin (author) / Mohd Zuhan, Khairul Nizam (author) / Musa, Musfafikri (author) / Hamid Nour, Abdurahman (author)
2020-05-31
Article (Journal)
Electronic Resource
English
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