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Natural jute laminate for the improvement of strength properties of concrete specimen

Zulfikar Achmad Jusuf, Yaakob Mohd Yuhazri, Umarfaruq Hel Mee, Syah Rahmad

Engineering Transactions

2023

Vol. 71, iss. 4

507--518

In the last decade, the exploration and investigation of natural ingredients as alternative materials for metal substitutes have been continuously conducted to produce eco-friendly products with sufficiently good strength. The climate and geography of countries like Indonesia provide that such materials are available abundantly and can be easily replanted. Thus, these materials have considerable potential for application in various products. The purpose of this study is to analyze the compressive and tensile strength of a cylindrical column concrete structure reinforced externally with laminate composite materials derived from jute fabric sheets. The specimen manufacturing method uses a vacuum bagging technique with the specimen size specified in the ASTM C39 test standard. After manufacturing, the specimens underwent the treatment of immersion in clean water for 28 days, followed by drying at room temperature for additional 28 days. The column concrete specimens were wrapped with laminate composite materials with variations in several layers of jute fabric. Compressive strength and splitting tensile tests were conducted according to ASTM C39 and ASTM C496 test standards, respectively. The test results showed that applying laminate composite sheaths on the outer surface of the column concrete structure resulted in an increase in strength of up to 100% for both compressive strength and splitting tensile strength. The magnitude of such an increase in strength is reported in this article.

Effect of Gamma Radiation on the Mechanical Properties of Natural Fabric Reinforced Polyester Composites

Motaleb K.Z.M. Abdul, Islam Md Shariful, Milašius Rimvydas

Fibres & Textiles in Eastern Europe

2019

Vol. 27, no. 4 (136)

88--93

Two types of composites: (1) pineapple fabric reinforced polyester resin (pineapple/PR) and (2) jute fabric reinforced polyester resin (jute/PR) were prepared and the mechanical properties investigated for various gamma radiation doses ranging from 100-500 krad. Properties like tensile strength, Young’s modulus, elongation-at-break, bending strength, bending modulus and impact strength were increased significantly by 19%, 32%, 45%, 32%, 47% and 20%, respectively, at a dose of 300 krad for pineapple/PR, and by 47%, 49%, 42%, 45%, 52% and 65%, respectively, at a dose of 200 krad for the jute/PR composite in comparison to the non-irradiated composite. Gamma radiation improved the mechanical properties, but overdoses of radiation even caused a reduction in them.

W pracy przygotowano dwa rodzaje kompozytów (1) żywica poliestrowa wzmocniona tkaniną ananasową (Pineapple/PR) i (2) żywica poliestrowa wzmocniona tkaniną jutową (Jute/PR), a następnie zbadano wpływ na właściwości mechaniczne kompozytów różnych dawek promieniowania gamma w zakresie od 100-500 krad. Właściwości takie jak wytrzymałość na rozciąganie, moduł Younga, wydłużenie przy zerwaniu, wytrzymałość na zginanie, moduł zginania i wytrzymałość na uderzenia zostały znacznie polepszone odpowiednio o 19%, 32%, 45%, 32%, 47% i 20% w dawce 300 krad dla Pineapple/PR, podczas gdy odpowiednio 47%, 49%, 42%, 45%, 52% i 65% w dawce 200 krad dla kompozytu Jute/PR w porównaniu z kompozytem nienapromieniowanym. Stwierdzono, że promieniowanie gamma poprawia właściwości mechaniczne kompozytów, ale przy zastosowaniu nadmiernych dawek promieniowania właściwości te ulegają pogorszeniu.