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MEASUREMENT OF FABRIC DRAPE BY THE METHODS BASED ON IMAGE ANALYSIS

Yıl 2014, , 30 - 45, 05.11.2014
https://doi.org/10.7216/130075992014219404

Öz

Recently, there have been significant developments in investigating the aesthetic behavior of the fabrics due to the developments in objective evaluation techniques in parallel with the technology. Drape and bending properties are important in terms of fabric comfort because of their effects on selection of raw material, design and appearance of the fabric. When the literature is checked, it is seen that relationships between the drape and bending properties of fabrics are fairly important. In this study, it was aimed to summarize the recent studies and investigate the fabric drape and its relation with the bending rigidity.

Kaynakça

  • Cusick G.E., (1965), The Dependence of Fabric Drape on Bending and Shear Stiffness, Journal of the Textile Institute, 56, 11, 596–606.
  • Peirce F.T., (1930), The Handle of Cloth as a Measurable Quantity, Journal of the Textile Institute, 21, 9, 377–416.
  • Chu C.C., Cummings C.L., Teixeira N.A., (1950), Mechanics of Elastic Performance of Textile Materials Part V: A Study of the Factors Affecting the Drape of Fabrics - The Development of a Drape Meter , Textile Research Journal, 20, 8, 539–548.
  • Chu C.C., Platt M.M., Hamburger W.J., (1960), Investigation of the Factors Affecting the Drapability of Fabrics, Textile Research Journal, 30, 1, 66-67.
  • Cusick G.E., (1968), The Measurement of Fabric Drape, Journal of the Textile Institute, 59, 6, 253–260.
  • Jeong Y.J., (1998), A Study of Fabric-drape Behavior with Image Analysis Part 1: Measurement, Characterization, and Instability, Journal of the Textile Institute, 89, 1, 59–69.
  • Jeong Y.J., Phillips D.G., (1998), A Study of Fabric-Drape Behavior with Image Analysis Part 2: The Effects of Fabric Structure and Mechanical Properties on Fabric Drape , Journal of the Textile Institute, 89, 1, 70-79.
  • Robson D., Long C.C., (2000), Drape Analysis Using Imaging Techniques, Clothing and Textiles Research Journal, 18, 1, 1–8.
  • Kenkare N., May-Plumlee T., (2005), Fabric Drape Measurement: A Modified Method Using Digital Image Processing, Journal of Textile and Apparel Technology and Management, 4, 3, 1–8.
  • Willems A., Lomow S.V., Verpoest I., Vandepitte D., (2009), Drapeability Characterization of Textile Composite Reinforcement Using Digital Image Correlation, Optics and Lasers in Engineering, 47, 343-351.
  • Behera B.K., Pattanayak A.K., (2008), Measurement and Modeling of Drape Using Digital Image Processing, Indıan Journal of Fiber and Textile Research, 33, 230-238.
  • Stylos G.K., Wan T.R., (1999), The Concept of Virtual Measurement 3D Fabric Drapeability, International Journal of Clothing Science and Technology, 11, 1, 10-18.
  • Lo W.M., Hu J.L., Li L.K., (2002), Modeling a Fabric Drape Profile, Textile Research Journal, 75, 2, 454-463.
  • Uçar N., Kalaoğlu F., Bahtiyar D., Bilaç O.E., (2004), Investigating the Drape Behavior of Seamed Knit Fabrics with Image Analysis, Textile Research Journal, 74, 2, 166-171.
  • Vangheluwe L., Kiekens P., (1993), Time Dependence of the Drape Coefficient of Fabrics, Institute Journal Textile Science Technology, 5, 5-8.
  • Jeong Y.J., Phillips D.G., (2001), Effect of Pressure Decatizing on Fabric Drape, Textile Research Journal, 71, 5, 4154
  • Behera B.K., Mishra R., (2006), Objective Measurement of Fabric Appearance Using Digital Image Processing, The Journal of the Textile Institute, 97, 2, 147-153.
  • Mizutani C., Amano T., Sakaguchi Y., (2005), A New Apparatus for the Study of Fabric Drape, Textile Research Journal, 75, 1, 81-87.
  • Tsai K.H., Tsai M.C., Wang P.N., Shyr T.W., (2009), New Approach to Directly Acquiring the Drape Contours of Various Fabrics, Fibres & Textiles in Eastern Europe, 17, 3 (74), 54Shyr T.W., Wang P.N., Cheng K.B., (2007), A Comparison of the Key Parameters Affecting the Dynamic and Static Drape Coefficients of Natural-Fibre Woven Fabrics by a
  • Newly Devised Dynamic Drape Automatic Measuring System, Institute of Textile Engineering, 15, 3, 81-86. Shyr T.W., Wang P.N., Lin J.Y., (2009) Subjective and Objective Evaluation Methods to Determine the Peak-trough Threshold of the Drape Fabric Node, Textile Research Journal, 79, 13, 1223–1234.
  • Matsudaira M., Yang M., Kinari T., Shintaku S., (2003), Changes in the Static and Dynamic Drape Coefficients of Polyester Fabrics through the Finishing Stages, Textile Research Journal, 73, 1, 59-63.
  • Wang P.N., Cheng K.B., (2011), Dynamic Drape Property Evaluation of Natural Fiber Woven Fabrics Using a Novel Automatic Drape-Measuring Systems, Textile Research Journal, 81, 13, 1405–1415.
  • Al-Gaadi B., Göktepe F., Halasz M., (2012), A New Method in Fabric Drape Measurement and Analysis of the Drape Formation Process, Textile Research Journal, 82, 5, 502– 5
  • Matsudaira M., Yang M., (2013), Features of Conventional Static and New Dynamic Drape Coefficients of Woven Silk Fabrics, Textile Research Journal, 73, 3, 250–255.
  • Matsudaira M., Yamazaki S., Hayashi Y., (2008), Changes in Dynamic Drapability of Polyester Fabrics with Weave Density, Yarn Twist and Yarn count Obtained by Regression Equations, Indian Journal of Fibre and Textile Research, 33, 223-2
  • Tandon S., Matsudaira M., (2010), Improved Discrimination and Prediction of Drapability of Fabrics, Research Journal of Textile and Apparel, 14, 3, 62-76.
  • Pratihar P., (2013), Dynamic Drapen Behavior of Textile Fabric: Part 2- Attributes of Various Fabric Parameters, International Journal of Engineering Research and Application, 3, 5, 1017-1021.
  • Stump D.M., Fraser W.B., (1996), A Simplified Model of Fabric Drape Based on Ring Theory, Textile Research Journal, 66, 8, 506-514.
  • Pattanayak A.J., Luximon A., Khandual A., (2010), Prediction of Drape Profile of Cotton Woven Fabrics Using Artificial Neural Network and Multiple Regression Method, Textile Research Journal, 81, 6, 559-566.
  • Stylos G.K., Powell N.J., (2003), Engineering the Drapability of Textile Fabrics, International Journal of Clothing Science and Technology, 15, 3/4, 211-217.
  • Fan J., Newton E., Au R., (2001), Predicting Garment Drape with a Fuzzy-Neural Network, Textile Research Journal, 71, 7, 605–608.
  • Fisher P., Krzywinski S., Rödel H., Schenka., Ulbricht V., (1999), Simulating the Drape Behavior of Fabrics, Textile Research Journal, 69, 5, 331-334.
  • Breen D.E., House D.H., Wozny M.J., (1994), Predicting the Drape of Woven Cloth Using Interacting Particles, In ProSeram N., Rupasinghe W., (2013), The Influence of Bending Rigidity on Drape Coefficient of Selected Light Weight Woven Fabrics with Seams, International Journal of General Engineering and Technology, 2, 1, 25, 32.

KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ

Yıl 2014, , 30 - 45, 05.11.2014
https://doi.org/10.7216/130075992014219404

Öz

Son zamanlarda, objektif ölçüm tekniklerinin teknolojiye paralel olarak gelişmesiyle kumaşların estetik davranışlarının ölçümünde önemli gelişmeler kaydedilmiştir. Dökümlülük ve eğilme özellikleri özellikle kumaş konforu açısından değerlendirildiğinde tekstil materyalinin seçimini, tasarımını ve görünümünü etkileyen başlıca parametreler olarak öne çıkmaktadırlar. Literatür incelendiğinde, dökümlülük ve eğilme özellikleri arasında ol-dukça yakın bir ilişki olduğu görülmektedir. Bu çalışmada, kumaş dökümlülüğünü ve eğilme direnci ile ilişkisini inceleyen çalışmalar derlenmiş ve bu parametrelerin ölçümündeki yenilikler belirtilmiştir.

Kaynakça

  • Cusick G.E., (1965), The Dependence of Fabric Drape on Bending and Shear Stiffness, Journal of the Textile Institute, 56, 11, 596–606.
  • Peirce F.T., (1930), The Handle of Cloth as a Measurable Quantity, Journal of the Textile Institute, 21, 9, 377–416.
  • Chu C.C., Cummings C.L., Teixeira N.A., (1950), Mechanics of Elastic Performance of Textile Materials Part V: A Study of the Factors Affecting the Drape of Fabrics - The Development of a Drape Meter , Textile Research Journal, 20, 8, 539–548.
  • Chu C.C., Platt M.M., Hamburger W.J., (1960), Investigation of the Factors Affecting the Drapability of Fabrics, Textile Research Journal, 30, 1, 66-67.
  • Cusick G.E., (1968), The Measurement of Fabric Drape, Journal of the Textile Institute, 59, 6, 253–260.
  • Jeong Y.J., (1998), A Study of Fabric-drape Behavior with Image Analysis Part 1: Measurement, Characterization, and Instability, Journal of the Textile Institute, 89, 1, 59–69.
  • Jeong Y.J., Phillips D.G., (1998), A Study of Fabric-Drape Behavior with Image Analysis Part 2: The Effects of Fabric Structure and Mechanical Properties on Fabric Drape , Journal of the Textile Institute, 89, 1, 70-79.
  • Robson D., Long C.C., (2000), Drape Analysis Using Imaging Techniques, Clothing and Textiles Research Journal, 18, 1, 1–8.
  • Kenkare N., May-Plumlee T., (2005), Fabric Drape Measurement: A Modified Method Using Digital Image Processing, Journal of Textile and Apparel Technology and Management, 4, 3, 1–8.
  • Willems A., Lomow S.V., Verpoest I., Vandepitte D., (2009), Drapeability Characterization of Textile Composite Reinforcement Using Digital Image Correlation, Optics and Lasers in Engineering, 47, 343-351.
  • Behera B.K., Pattanayak A.K., (2008), Measurement and Modeling of Drape Using Digital Image Processing, Indıan Journal of Fiber and Textile Research, 33, 230-238.
  • Stylos G.K., Wan T.R., (1999), The Concept of Virtual Measurement 3D Fabric Drapeability, International Journal of Clothing Science and Technology, 11, 1, 10-18.
  • Lo W.M., Hu J.L., Li L.K., (2002), Modeling a Fabric Drape Profile, Textile Research Journal, 75, 2, 454-463.
  • Uçar N., Kalaoğlu F., Bahtiyar D., Bilaç O.E., (2004), Investigating the Drape Behavior of Seamed Knit Fabrics with Image Analysis, Textile Research Journal, 74, 2, 166-171.
  • Vangheluwe L., Kiekens P., (1993), Time Dependence of the Drape Coefficient of Fabrics, Institute Journal Textile Science Technology, 5, 5-8.
  • Jeong Y.J., Phillips D.G., (2001), Effect of Pressure Decatizing on Fabric Drape, Textile Research Journal, 71, 5, 4154
  • Behera B.K., Mishra R., (2006), Objective Measurement of Fabric Appearance Using Digital Image Processing, The Journal of the Textile Institute, 97, 2, 147-153.
  • Mizutani C., Amano T., Sakaguchi Y., (2005), A New Apparatus for the Study of Fabric Drape, Textile Research Journal, 75, 1, 81-87.
  • Tsai K.H., Tsai M.C., Wang P.N., Shyr T.W., (2009), New Approach to Directly Acquiring the Drape Contours of Various Fabrics, Fibres & Textiles in Eastern Europe, 17, 3 (74), 54Shyr T.W., Wang P.N., Cheng K.B., (2007), A Comparison of the Key Parameters Affecting the Dynamic and Static Drape Coefficients of Natural-Fibre Woven Fabrics by a
  • Newly Devised Dynamic Drape Automatic Measuring System, Institute of Textile Engineering, 15, 3, 81-86. Shyr T.W., Wang P.N., Lin J.Y., (2009) Subjective and Objective Evaluation Methods to Determine the Peak-trough Threshold of the Drape Fabric Node, Textile Research Journal, 79, 13, 1223–1234.
  • Matsudaira M., Yang M., Kinari T., Shintaku S., (2003), Changes in the Static and Dynamic Drape Coefficients of Polyester Fabrics through the Finishing Stages, Textile Research Journal, 73, 1, 59-63.
  • Wang P.N., Cheng K.B., (2011), Dynamic Drape Property Evaluation of Natural Fiber Woven Fabrics Using a Novel Automatic Drape-Measuring Systems, Textile Research Journal, 81, 13, 1405–1415.
  • Al-Gaadi B., Göktepe F., Halasz M., (2012), A New Method in Fabric Drape Measurement and Analysis of the Drape Formation Process, Textile Research Journal, 82, 5, 502– 5
  • Matsudaira M., Yang M., (2013), Features of Conventional Static and New Dynamic Drape Coefficients of Woven Silk Fabrics, Textile Research Journal, 73, 3, 250–255.
  • Matsudaira M., Yamazaki S., Hayashi Y., (2008), Changes in Dynamic Drapability of Polyester Fabrics with Weave Density, Yarn Twist and Yarn count Obtained by Regression Equations, Indian Journal of Fibre and Textile Research, 33, 223-2
  • Tandon S., Matsudaira M., (2010), Improved Discrimination and Prediction of Drapability of Fabrics, Research Journal of Textile and Apparel, 14, 3, 62-76.
  • Pratihar P., (2013), Dynamic Drapen Behavior of Textile Fabric: Part 2- Attributes of Various Fabric Parameters, International Journal of Engineering Research and Application, 3, 5, 1017-1021.
  • Stump D.M., Fraser W.B., (1996), A Simplified Model of Fabric Drape Based on Ring Theory, Textile Research Journal, 66, 8, 506-514.
  • Pattanayak A.J., Luximon A., Khandual A., (2010), Prediction of Drape Profile of Cotton Woven Fabrics Using Artificial Neural Network and Multiple Regression Method, Textile Research Journal, 81, 6, 559-566.
  • Stylos G.K., Powell N.J., (2003), Engineering the Drapability of Textile Fabrics, International Journal of Clothing Science and Technology, 15, 3/4, 211-217.
  • Fan J., Newton E., Au R., (2001), Predicting Garment Drape with a Fuzzy-Neural Network, Textile Research Journal, 71, 7, 605–608.
  • Fisher P., Krzywinski S., Rödel H., Schenka., Ulbricht V., (1999), Simulating the Drape Behavior of Fabrics, Textile Research Journal, 69, 5, 331-334.
  • Breen D.E., House D.H., Wozny M.J., (1994), Predicting the Drape of Woven Cloth Using Interacting Particles, In ProSeram N., Rupasinghe W., (2013), The Influence of Bending Rigidity on Drape Coefficient of Selected Light Weight Woven Fabrics with Seams, International Journal of General Engineering and Technology, 2, 1, 25, 32.
Toplam 33 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Mühendislik
Bölüm Makaleler
Yazarlar

Gülsüm Plattürk Bu kişi benim

Musa Kılıç

Yayımlanma Tarihi 5 Kasım 2014
Yayımlandığı Sayı Yıl 2014

Kaynak Göster

APA Plattürk, G., & Kılıç, M. (2014). KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ. Tekstil Ve Mühendis, 21(94), 30-45. https://doi.org/10.7216/130075992014219404
AMA Plattürk G, Kılıç M. KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ. Tekstil ve Mühendis. Kasım 2014;21(94):30-45. doi:10.7216/130075992014219404
Chicago Plattürk, Gülsüm, ve Musa Kılıç. “KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ”. Tekstil Ve Mühendis 21, sy. 94 (Kasım 2014): 30-45. https://doi.org/10.7216/130075992014219404.
EndNote Plattürk G, Kılıç M (01 Kasım 2014) KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ. Tekstil ve Mühendis 21 94 30–45.
IEEE G. Plattürk ve M. Kılıç, “KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ”, Tekstil ve Mühendis, c. 21, sy. 94, ss. 30–45, 2014, doi: 10.7216/130075992014219404.
ISNAD Plattürk, Gülsüm - Kılıç, Musa. “KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ”. Tekstil ve Mühendis 21/94 (Kasım 2014), 30-45. https://doi.org/10.7216/130075992014219404.
JAMA Plattürk G, Kılıç M. KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ. Tekstil ve Mühendis. 2014;21:30–45.
MLA Plattürk, Gülsüm ve Musa Kılıç. “KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ”. Tekstil Ve Mühendis, c. 21, sy. 94, 2014, ss. 30-45, doi:10.7216/130075992014219404.
Vancouver Plattürk G, Kılıç M. KUMAŞ DÖKÜMLÜLÜĞÜNÜN GÖRÜNTÜ ANALİZİ TEMELLİ YÖNTEMLERLE ÖLÇÜLMESİ. Tekstil ve Mühendis. 2014;21(94):30-45.