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\def\makelabel##1{\upshape ##1}}% } {\end{list}\end{raggedright}} \newenvironment{specHead}[2]% {\vspace{20pt}\hrule\vspace{10pt}% \phantomsection\label{#1}\markright{#2}% \pdfbookmark[2]{#2}{#1}% \hspace{-0.75in}{\bfseries\fontsize{16pt}{18pt}\selectfont#2}% }{} \def\TheFullDate{2019-01-15 (revised: 15 January 2019)} \def\TheID{\makeatother } \def\TheDate{2019-01-15} \title{Impact of Fabric Density, Color and Composition of Plain Weave Fabric on Ultraviolet Protective Factor} \author{}\makeatletter \makeatletter \newcommand*{\cleartoleftpage}{% \clearpage \if@twoside \ifodd\c@page \hbox{}\newpage \if@twocolumn \hbox{}\newpage \fi \fi \fi } \makeatother \makeatletter \thispagestyle{empty} \markright{\@title}\markboth{\@title}{\@author} \renewcommand\small{\@setfontsize\small{9pt}{11pt}\abovedisplayskip 8.5\p@ plus3\p@ minus4\p@ \belowdisplayskip \abovedisplayskip \abovedisplayshortskip \z@ plus2\p@ \belowdisplayshortskip 4\p@ plus2\p@ minus2\p@ \def\@listi{\leftmargin\leftmargini \topsep 2\p@ plus1\p@ minus1\p@ \parsep 2\p@ plus\p@ minus\p@ \itemsep 1pt} } \makeatother \fvset{frame=single,numberblanklines=false,xleftmargin=5mm,xrightmargin=5mm} \fancyhf{} \setlength{\headheight}{14pt} \fancyhead[LE]{\bfseries\leftmark} \fancyhead[RO]{\bfseries\rightmark} \fancyfoot[RO]{} \fancyfoot[CO]{\thepage} \fancyfoot[LO]{\TheID} \fancyfoot[LE]{} \fancyfoot[CE]{\thepage} \fancyfoot[RE]{\TheID} \hypersetup{citebordercolor=0.75 0.75 0.75,linkbordercolor=0.75 0.75 0.75,urlbordercolor=0.75 0.75 0.75,bookmarksnumbered=true} \fancypagestyle{plain}{\fancyhead{}\renewcommand{\headrulewidth}{0pt}} \date{} \usepackage{authblk} \providecommand{\keywords}[1] { \footnotesize \textbf{\textit{Index terms---}} #1 } \usepackage{graphicx,xcolor} \definecolor{GJBlue}{HTML}{273B81} \definecolor{GJLightBlue}{HTML}{0A9DD9} \definecolor{GJMediumGrey}{HTML}{6D6E70} \definecolor{GJLightGrey}{HTML}{929497} \renewenvironment{abstract}{% \setlength{\parindent}{0pt}\raggedright \textcolor{GJMediumGrey}{\rule{\textwidth}{2pt}} \vskip16pt \textcolor{GJBlue}{\large\bfseries\abstractname\space} }{% \vskip8pt \textcolor{GJMediumGrey}{\rule{\textwidth}{2pt}} \vskip16pt } \usepackage[absolute,overlay]{textpos} \makeatother \usepackage{lineno} \linenumbers \begin{document} \author[1]{Marzia Islam} \author[2]{Tarifun Akter} \author[3]{Jannatul Ferdush} \author[4]{ Kamrunnahar} \affil[1]{ Northern University Bangladesh} \renewcommand\Authands{ and } \date{\small \em Received: 7 December 2018 Accepted: 31 December 2018 Published: 15 January 2019} \maketitle \begin{abstract} In this study, the effect of fabric density and different colors (black and red) on ultraviolet protection factor of woven fabric investigated. The fabric of different composition (100% cotton, 60/40 CVC), two color (black, red) and various density (Ends per inch, Picks per inch) collected. Then UPF rating was measured by spectrophotometer in vitro method. Experimental result showed that higher the fabric density and weight; higher the protection from ultraviolet rays. Besides, it also revealed that black fabric has more UV protection ability than the red one. Another finding of this study is that polyester content increases the UPF value. \end{abstract} \keywords{fabric density, composition, color, fabric weight, ultraviolet protective factor.} \begin{textblock*}{18cm}(1cm,1cm) % {block width} (coords) \textcolor{GJBlue}{\LARGE Global Journals \LaTeX\ JournalKaleidoscope\texttrademark} \end{textblock*} \begin{textblock*}{18cm}(1.4cm,1.5cm) % {block width} (coords) \textcolor{GJBlue}{\footnotesize \\ Artificial Intelligence formulated this projection for compatibility purposes from the original article published at Global Journals. However, this technology is currently in beta. \emph{Therefore, kindly ignore odd layouts, missed formulae, text, tables, or figures.}} \end{textblock*} \let\tabcellsep& \section[{Introduction}]{Introduction}\par kin disease including skin cancer has become very common now a days. UV radiation from sun is the primary cause for skin cancer according to many researchers \hyperref[b0]{[1,}\hyperref[b1]{2]}. Sun radiation has a continuous energy spectrum radiates from sun in the wavelength range of about 0.7 nm to 3000 nm. Only 280 nm to 3000 nm solar radiation can reach on the earth surface \hyperref[b2]{[3]}, where the wavelength of the ultraviolet spectrum lies between 290 nm to 400 nm. Overexposure to UVR has the most adverse impact onerythema and skin cancer, which increased the public awareness of adopting personal UV protective schemes such as the use of sunscreen on the exposed parts of body \hyperref[b3]{[4]}. Besides using sunscreen and shading, people can also cover their body by wearing textile garments to protect from UVR \hyperref[b4]{[5,}\hyperref[b5]{6,}\hyperref[b6]{7]}. But before selection of garments the fabric parameters like fabric density, color, weight should be considered to get better UV protection. I. M. Algaba, Achwal, B. R Daset al. showed the effect of thickness and weight on UV protection of cellulosic woven fabric \hyperref[b7]{[8,}\hyperref[b8]{9,}\hyperref[b9]{10]}. Moon and Pailthorpe found that stretching elastane-based garments have lower UPF than unstretched garment \hyperref[b10]{[11]}. To make a comparison of the ultraviolet protection factor of different composition, weight and color plain fabric is the aim of this study. \section[{II.}]{II.} \section[{Material and Method}]{Material and Method}\par Two color black and red 100\% cotton and 60\% cotton 40\% polyester plain fabric of different ends per inch, picks per inch collected from Evince limited. Then the samples are conditioned at relative humidity 65±2\%, Temperature 20±2 0 C at least 24 hours.\par UPF Measurement: In this study, ultraviolet protective factor (UPF) represented the UV protective capabilities of woven fabrics from sunburn as a quantitative indicator. UV protection ability of cotton and blended plain fabrics measured by vitro approach. Ultraviolet protection factor in the vitro measurement conducted with a spectrophotometer in accordance with the AS/NZS 4399 standard.\par Following is the equation of calculating UPF:? 400 290 ???????? Î?"?? UPF = ? 400 290 ???????????? Î?"??\par Where, ???? is the erythemal spectral effectiveness. ???? is the solar spectral irradiance (in W?m?2?Nm?1). ???? is the spectral transmission through the textile.\par Î?"?? is the bandwidth (in nm).\par And ?? is the wavelength (in nm) \hyperref[b11]{[12]}. Measurement of fabric density and weight: Fabric density means the ends per inch along the length and picks per inch along width measured according to ASTM D3775 -17e1. Fabric GSM measured according to ASTM D3776M -09a (2017). \section[{III.}]{III.} \section[{Result and Discussion}]{Result and Discussion}\par The value of UPF increases with the increasing fabric density and weight for similar composition. To inspect the relationship between UPF, weight, composition, color and density, two approaches used here. One is investigating the change of UPF having same construction on different composition and another one is an identical composition having a different construction. As shown in figure \hyperref[fig_1]{01}, 100\% cotton fabric has less UV protection power than the blended one. So polyester content in blended fabric enhances the UPF. Moreover, black color fabric has more UPF than red. Another finding of this study is the same color and identical composition fabric has different UPF because of different fabric density and weight. Higher the EPI and PPI values, higher the UPF value. \section[{Composition}]{Composition} \section[{IV.}]{IV.} \section[{Conclusion}]{Conclusion}\par This whole work is intended to establish a general idea on the issue of UV protection factor of a plain weave fabric simply. Considering fabric density, color and composition as main variables, UPF ratings are measured for different types of sample. UPF enhances with the increasing density, weight, the blended composition shows better value than the pure one, and black color shows excellent protection against UV. Though there are many other factors which can directly or indirectly influence the UV protection factor, here only a few represented. Also, establish a comparison among them. In addition, the most mentionable comparison is polyester has more UPF value than cotton. \begin{figure}[htbp] \noindent\textbf{}\includegraphics[]{image-2.png} \caption{\label{fig_0}}\end{figure} \begin{figure}[htbp] \noindent\textbf{1}\includegraphics[]{image-3.png} \caption{\label{fig_1}Figure 1 :}\end{figure} \begin{figure}[htbp] \noindent\textbf{2} \par \begin{longtable}{} \end{longtable} \par \caption{\label{tab_2}Table 2 :}\end{figure} \backmatter \begin{bibitemlist}{1} \bibitem[Kan ()]{b11}\label{b11} ‘A Study on ultraviolet protection of 100\% Cotton Knitted Fabric: Effect of Fabric Parameters’. C Kan . \textit{The Scientific World Journal} 2014. April 2008. (The Australian Radiation Protection and Nuclear Safety Agency) \bibitem[Algaba et al. ()]{b9}\label{b9} ‘Correlation between the ultraviolet protection factor and the weight and thickness of undyed cellulosic woven fabrics’. I M Algaba , M Pepi´o , A Riva . \textit{Fibres and Textiles in Eastern Europe}, 2008. 16 p. . \bibitem[Moon and Pailthorpe ()]{b10}\label{b10} ‘Effect of stretch and wetting on the UPF of elastane fabrics’. R Moon , M Pailthorpe . \textit{Australas Textiles} 1995. 15 p. . \bibitem[Wong et al. ()]{b3}\label{b3} ‘Influence of knitted fabric construction on the ultraviolet protection factor of greige and bleached cotton fabrics’. W Y Wong , J K C Lam , C W Kan , R Postle . \textit{Textile Research Journal} 2013. 83 (7) p. . \bibitem[Gies et al. ()]{b5}\label{b5} ‘Protection against solar ultraviolet radiation’. P H Gies , C R Roy , S Toomey , A Mclennan . \textit{Mutation Research -Fundamental and Molecular Mechanisms of Mutagenesis} 1998. 422 (1) p. . \bibitem[Stanford et al. ()]{b4}\label{b4} ‘Rating clothing for sun protection: current status in Australia’. D G Stanford , K E Georgouras , M T Pailthorpe . \textit{Journal of the European Academy of Dermatology \& Venereology} 1997. 8 (1) p. . \bibitem[ WB ()]{b7}\label{b7} \textit{Sun protection properties of textile substrates}, WB . 1997. 44 p. . (Color age) \bibitem[Saladi and Persaud ()]{b0}\label{b0} ‘The causes of skin cancer: a comprehensive review’. R N Saladi , A N Persaud . \textit{Drugs of Today} 2005. 41 (1) p. . \bibitem[Narayanan et al. ()]{b1}\label{b1} ‘Ultraviolet radiation and skin cancer’. D L Narayanan , R N Saladi , J L Fox . \textit{International Journal of Dermatology} 2010. 49 (9) p. . \bibitem[Gies et al. ()]{b6}\label{b6} ‘Ultraviolet radiation protection by clothing: comparison of in vivo and in vitro measurements’. H P Gies , C R Roy , G Holmes , A F Kinlay , M H Repacholi . \textit{Radiation Protection Dosimetry} 2000. 91 (1-3) p. . \bibitem[Das ()]{b8}\label{b8} ‘UV radiation protective clothing’. B R Das . \textit{The Open Textile Journal} 2010. 3 p. . \bibitem[Reinert et al. ()]{b2}\label{b2} ‘UV-Properties of textile fabrics and their improvement’. G Reinert , F Fuso , R Hilfiker , E Schmidt . \textit{Text. Chem. Color} 1997. 29 (12) p. . \end{bibitemlist} \end{document}