Parametric Analysis for forming meso fractals from nanoparticle seeded resin in Hele Shaw cell

Development of meso and micro size fractal structures is required to mimic various biological systems for various functions. Meso and micro size fractal structures are fabricated by several processes in Engineering. A number of fluid flows are exhaustively analyzed and investigated in the direction...

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Bibliographic Details
Published in:IOP conference series. Materials Science and Engineering 2019-11, Vol.577 (1), p.12154
Main Authors: Kale, Bharatbhushan S, Bhole, Kiran
Format: Article
Language:English
Subjects:
Computational fluid dynamics
Fluid flow
Fractal analysis
Fractal models
Fractals
Hoisting
Nanoparticles
Parallel plates
Parametric analysis
Parametric statistics
Photoinitiators
Photopolymers
Process parameters
Resins
Viscosity
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Summary:Development of meso and micro size fractal structures is required to mimic various biological systems for various functions. Meso and micro size fractal structures are fabricated by several processes in Engineering. A number of fluid flows are exhaustively analyzed and investigated in the direction of development of meso and micro fractal structures. Hele-Shaw flow is one of the flows which fabricated meso and micro structure. Formation of fractals in Hele-Shaw cell can be done by compressing fluid in two flat parallel plates and lifting of upper plate in the upward direction. Lifting velocity of the upper plate, a gap between the plates, and fluid properties viz. density, viscosity are the major parameters in the formation of fractal. This paper presents the characterization of the fluid, study and analysis of microfractals followed by a mathematical model. The characterization of the fluid consists of photopolymer seeded with the nanopowder in the lifting plate of Hele-Shaw. The resin is prepared by mixing photoinitiator Benzoyl Ethyl Ether (BEE), Hexanediol Diacrylate (HDDA) added with ceramic nanopowder. Through the design of the experiment, micro fractal growth is observed and analysed. The fractals growth controlling parameters viz. gap between plates, velocity causes fluid separation are varied through the experimental setup. Effect of variation in viscosity set by varying loading fraction of seeded ceramic nanoparticles in a resin is observed for formation of fractals. Effect of process parameters on formation and growth of fractals is studied and presented. A dimensionless model of fractal growth is presented to analyse the effect of various parameters. Experimental methodology introduced a new style for the formation of controlled fractals or to imitate different meso and micro fractals available in nature or living things.
ISSN:1757-8981
1757-899X
DOI:10.1088/1757-899X/577/1/012154