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Julian Lord Natasian
Pusat Penelitian Nanoteknologi dan Rekayasa Inovatif, Lembaga Penelitian (PPNRI-LEMLIT)
Agriculture, Biological Sciences & Forestry Astronomy Biochemistry, Genetics & Molecular Biology Chemical Engineering, Chemistry & Bioengineering Chemistry Civil Engineering, Building, Construction & Architecture Control & Systems Engineering Energy Engineering Materials Science & Nanotechnology Mathematics Physics

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SIMPLE VISUALIZATION THEORY FOR INVESTIGATING THE MECHANICAL BEHAVIOR OF A NOVEL FIBER Julian Lord Natasian; Hendry Izaac Elim
Pattimura Proceeding 2017: Proceedings of the 3rd International Seminar of Basic Science
Publisher : Pattimura University

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1339.532 KB) | DOI: 10.30598/PattimuraSci.2017.ICBS3.101-116

Abstract

In this paper, a simple theoretical and visualized explanation of a novel fiber with their mechanical behaviors have been derived to investigate a novel fabricated fibers made by the changing a natural garbage structure. By solving a simple string theory consisted of two to three coupled differential equations, the internal frequencies (w) and the fiber string constants (k) of two different fiber structures which have a uniform fiber structure and a not uniform fibers structure, respectively were obtained as follows: ω1,2 = ± 7.312 Hz, for the value of k1 = k2 = k = 0.46 kg/s2, and ω1,2 = ± 12.657 Hz, for the values of k1 = 0.5 kg/s2, and k2 = 0.426 kg/s2. While the w and k of three different fiber structures in one fiber were found in the following values: ω1,2 = ± 7.313 Hz, for k1 = 1.974 kg/s2, k2 = 0.353 kg/s2, and k3 = 0.989 kg/s2 , and ω1,2 = ± 7.313 Hz, for the value of k1 = k2 =k3 = k = 0.69 kg/s2, respectively. In addition, by incorporating a scientific mathematica 10.3 software, the visualizations from the coupled-two and coupled-three differential equations closely related to mechanical fiber behaviors produce the amplitude (A) ratio in those coupled equations.
Co-Authors Elim, Hendry Izaac