AIT Asian Institute of Technology

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Effects of chemical treatment of sisal fibers on strength and durability of composites
Author	Rungsima Chunahaswasdikul
Call Number	AIT Thesis no.ST-91-3
Subject(s)	Composite materials
Note	A thesis submitted in partial fulfillment of the requirements for the degree of Master of Engineering, School of Engineering and Technology
Publisher	Asian Institute of Technology
Abstract	The durability of the natural fiber-mortar composite has been an interesting subject of study since natural fibers were developed and used as reinforcement in thin concrete sheet. An extensive experimental investigation is conducted on the long-term durability of natural fibers in cement mortar. The purpose of this study is to investigate the effect of chemical treatment of sisal fiber and RHA as pozzolan on durability of composites. The different chemicals having different concentration and duration of treatment were used in order to determine the optimum fiber treatment. 30% by weight of rice husk ash was used to replace a part of the ordinary Portland cement. The durability of the composite was investigated by using simulated aging process. Test results showed that soap water and alum solution can be effectively employed in the treatment of natural fiber. The optimum fiber treatment condition was obtained when the fiber was immersed in soap water for 24 hours and subsequently put in alum solution having concentration equal to 0.75% by weight for another 30 min. This treatment resulted in higher water absorption and tensile strength of sisal fiber. It also indicated that, after simulated aging cycles, the sisal fiber-mortar composite using both fiber treatment and RHA as pozzolan showed a higher modulus ofrupture, modulus of resilience as well as modulus of toughness as compared to those having fiber treatment alone, using RHA alone and none of both. In addition, it was found that the decreasing rath was also lower. Hence, it obviously indicated that the embrittlement is reduced somewhat in sisal fiber-mortar composite in which 30% of the binder weight consists of rice husk ash and in which treated fibers are used compared with composite in which only the binder replacement or the fiber treatment is utilized.
Year	1991
Type	Thesis
School	School of Engineering and Technology (SET)
Department	Other Field of Studies (No Department)
Academic Program/FoS	Structural Engineering (STE) /Former Name = Structural Engineering and Construction (ST)
Chairperson(s)	Pichai Nimityongskul
Examination Committee(s)	Pama, Ricardo P. ;Ogunlana, Stephen O.
Scholarship Donor(s)	The King's Scholarship from the Royal Thai Government
Degree	Thesis (M.Eng.) - Asian Institute of Technology, 1991