Effect of Nanofiller on Flexing Mechanism of HDPE/EPR Nanocomposite for Sport Shoe Sole Application

Lutpi, Husniyah Aliyah; Anuar, Hazleen; Shaffiar, Norhashimah

doi:10.4028/www.scientific.net/amr.1115.382

Cited by 2 publications

(2 citation statements)

References 11 publications

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“…Composites are widely applied in products, including sports equipment, vehicles, and aerospace materials, because of their excellent mechanical properties. − The combination of polymers and inorganic nanomaterials is a common and simple strategy to improve the mechanical properties of materials. Traditional composites were fabricated by mixing organic and inorganic components; however, in recent years, more novel nanocomposites have been developed to meet the demands of society.…”

Section: Introductionmentioning

confidence: 99%

Fabrication and Deformation of Mechanochromic Nanocomposite Elastomers Based on Rubbery and Glassy Block Copolymer-Grafted Silica Nanoparticles

et al. 2020

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The strength of silica-based mechanochromic nanocomposites was improved by a novel nanocomposite synthesized by grafting poly(butyl acrylate) (PBA)-b-poly(methyl methacrylate) (PMMA) from silica nanoparticles (SiNP). Samples with different PMMA/PBA ratios were prepared to clarify the effect of the rubbery/glassy block copolymer ratios on the mechanical properties of the nanocomposites. The nanocomposites formed a face-centered cubic paracrystal-like structure and exhibited structural color. Timeresolved ultrasmall-angle X-ray scattering was carried out to investigate the structural evolution of the nanocomposites by uniaxial and biaxial mechanical deformation. Changes in color and mechanochromic properties were observed at varying distances between the particles by mechanical deformation. The nanocomposites exhibited elastic and plastic properties and became more rubber-like as the rubbery PBA weight ratio increased. The polymer brush deformed into a prolate spheroid by uniaxial stretching, and the distance between SiNP decreased in the direction perpendicular to elongation, which resulted in the color change by mechanical deformation. Moreover, the distance between SiNP increased isotropically by biaxial stretching. The polymer brush was elongated isotropically toward the in-plane direction and deformed into an oblate spheroid.

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Section: Introductionmentioning

confidence: 99%

Fabrication and Deformation of Mechanochromic Nanocomposite Elastomers Based on Rubbery and Glassy Block Copolymer-Grafted Silica Nanoparticles

et al. 2020

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“…Considering the popularization and risks of running, Bassiri et al [5] applied nanotechnology in the manufacture of shoe sole to prevent different injuries. Lutpi et al [6] proposed that the application of nanocomposite in the sole of running shoes had been a new development direction. Ramsay et al [7] considered that the application of nanotechnology could enhance the exercise capacity and technical level of athletes.…”

Section: Introductionmentioning

confidence: 99%

The shock absorption functionality of nanomaterials based shoes during body motion

Shen¹,

Chen²

2018

LFJ

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THE SHOCK ABSORPTION FUNCTIONALITY OF NANOMATERIALS BASED SHOES DURING BODY MOTION ABSTRACT. The violent movement of human body will bring great impact to feet; therefore the shock absorption function of sports shoes is very important. The main factors affecting the shock absorption function is the material and structure of sole. In order to investigate the effect of nanomaterials on the shock absorption function of sports shoes, the impact tests were carried out on the thermoplastic elastomer (TPE) soles which were added or not added with nano-carbon black and the ordinary rubber soles. The impact energy was set as 6 J and 10 J, and the shock absorption performance was determined according to the test results. Thirty volunteers attended comfort tests which were designed to test the comfortability of the three kinds of sports shoes. The results demonstrated that the sport shoes which were added with the nano-carbon black had the best shock absorption performance. The impact peak value and G value of the sports shoes which were added with nano-carbon black were 13.57% and 17.86% lower than the shoes with the ordinary rubber soles when the impact energy was 6 J; the impact peak value and G value of the shoes with the ordinary TPE soles were 1.54% and 10.71% lower. When the impact energy was 10 J, the peak value and G value of the shoes which were added with nano-carbon black were 8.96% and 13.51% lower, while the impact peak value and G value of the shoes which were equipped with the ordinary TPE soles were 4.32% and 8.11% lower. The findings suggested that nanomaterials was effective in enhancing the shock absorption performance of sports shoes and that the shock absorption performance of sports shoes which were produced using nanomaterials was better than that of ordinary sports shoes. Moreover the results demonstrated that the shock absorption effect of sports shoes was limited, excessively large impact might weaken shock absorption effect.

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Effect of Nanofiller on Flexing Mechanism of HDPE/EPR Nanocomposite for Sport Shoe Sole Application

Cited by 2 publications

References 11 publications

Fabrication and Deformation of Mechanochromic Nanocomposite Elastomers Based on Rubbery and Glassy Block Copolymer-Grafted Silica Nanoparticles

Fabrication and Deformation of Mechanochromic Nanocomposite Elastomers Based on Rubbery and Glassy Block Copolymer-Grafted Silica Nanoparticles

The shock absorption functionality of nanomaterials based shoes during body motion

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