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DEVELOPMENT OF 3-D HEMISPHERICAL BIAXIAL WEFT-KNITTED THERMOSET COMPOSITES

Yıl 2019, Cilt: 29 Sayı: 4, 305 - 310, 31.12.2019
https://doi.org/10.32710/tekstilvekonfeksiyon.619397

Öz



The present work
concentrates on the development of 3-D hemispherical biaxial weft-knitted (BWK)
thermoset composites. The objective is to improve the quality of the 3-D
composites with BWK preform. Two kinds of the 3-D hemispherical BWK composites
with the flat surfaced and 3-D dome shaped biaxial weft-knitted preforms were
produced by hand lay-up method. The quantitative analysis of wrinkles was done
by measuring the locking angles between the fiber bundles in the composites. Small
numbers of wrinkle heights (1 height/1 cm) were observed on the flange surface
of the 3-D hemispherical BWK composite with the dome shaped preform compared to
the 3-D hemispherical BWK composite with the flat surfaced preform (10
heights/1 cm).




Kaynakça

  • Fangueiro R., Nunes P., Soutinho F., Araujo MD., 2009, “Development of fibrous preforms for FRP pipe connections”. Compos. Sci. Tech. Vol: 69, pp: 1412-1416.
  • Dufour C., Wang P., Boussu F., Soulat D., 2014, “Experimental Investigation About Stamping Behaviour of 3D Warp Interlock Composite Preforms”, Appl Compos Mater, Vol: 21, pp: 725–738.
  • Wang P., Legrand X., Boisse P., Hamila N., Soulat D., 2015, “Experimental and numerical analyses of manufacturing process of a composite square box part: Comparison between textile reinforcement forming and surface 3D weaving”, Composites Part B Vol: 78, pp: 26-34.
  • Liu LS., Zhang T, Wang P, Legrand X, Soulat D, 2015, “Influence of the tufting yarns on formability of tufted 3-Dimensional, composite reinforcement”, Composites: Part A Vol: 78, pp: 403–411.
  • Cherouat A., Borouchaki H., Laurence G.M., 2010, “Mechanical and geometrical approaches applied to composite fabric forming”. Int. Jr. Mat. Form. Vol: 3, pp: 1189-1204.
  • Mossea L., Compstona P., Cantwell WJ., Cardew-Hall M., Kalyanasundaram S., 2006, “Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability”. Jr. Mat. Pro. Tech. Vol: 172, 163-168.
  • Rozant O., Bourban PE., Manson JAE., 2000, “Drapeability of dry textile fabrics for stampable thermoplastic preforms”. Compos. Pt. A. Vol: 31, pp: 1167-1177.
  • Fiorotto M., Sorgente M., Lucchetta G., 2010, “Preliminary studies on single point incremental forming for composite materials”. Jr. Mat. Sci. Vol: 3, pp: 951-954.
  • Soulat D., Allaoui S., Chatel S., 2009, “Experimental device for the preforming step of the RTM process”. Jr. Mat. Sci. Vol: 2, pp: 181-184.
  • Vanclooester K., Goidsenhoven GV., Lomov SV., Verpoest I., 2009, “Optimizing the deepdrawing of multilayered woven fabric composites”. 12th ESAFORM Conference on Material Forming, Twente, the Netherlands.
Yıl 2019, Cilt: 29 Sayı: 4, 305 - 310, 31.12.2019
https://doi.org/10.32710/tekstilvekonfeksiyon.619397

Öz

Kaynakça

  • Fangueiro R., Nunes P., Soutinho F., Araujo MD., 2009, “Development of fibrous preforms for FRP pipe connections”. Compos. Sci. Tech. Vol: 69, pp: 1412-1416.
  • Dufour C., Wang P., Boussu F., Soulat D., 2014, “Experimental Investigation About Stamping Behaviour of 3D Warp Interlock Composite Preforms”, Appl Compos Mater, Vol: 21, pp: 725–738.
  • Wang P., Legrand X., Boisse P., Hamila N., Soulat D., 2015, “Experimental and numerical analyses of manufacturing process of a composite square box part: Comparison between textile reinforcement forming and surface 3D weaving”, Composites Part B Vol: 78, pp: 26-34.
  • Liu LS., Zhang T, Wang P, Legrand X, Soulat D, 2015, “Influence of the tufting yarns on formability of tufted 3-Dimensional, composite reinforcement”, Composites: Part A Vol: 78, pp: 403–411.
  • Cherouat A., Borouchaki H., Laurence G.M., 2010, “Mechanical and geometrical approaches applied to composite fabric forming”. Int. Jr. Mat. Form. Vol: 3, pp: 1189-1204.
  • Mossea L., Compstona P., Cantwell WJ., Cardew-Hall M., Kalyanasundaram S., 2006, “Stamp forming of polypropylene based fibre-metal laminates: The effect of process variables on formability”. Jr. Mat. Pro. Tech. Vol: 172, 163-168.
  • Rozant O., Bourban PE., Manson JAE., 2000, “Drapeability of dry textile fabrics for stampable thermoplastic preforms”. Compos. Pt. A. Vol: 31, pp: 1167-1177.
  • Fiorotto M., Sorgente M., Lucchetta G., 2010, “Preliminary studies on single point incremental forming for composite materials”. Jr. Mat. Sci. Vol: 3, pp: 951-954.
  • Soulat D., Allaoui S., Chatel S., 2009, “Experimental device for the preforming step of the RTM process”. Jr. Mat. Sci. Vol: 2, pp: 181-184.
  • Vanclooester K., Goidsenhoven GV., Lomov SV., Verpoest I., 2009, “Optimizing the deepdrawing of multilayered woven fabric composites”. 12th ESAFORM Conference on Material Forming, Twente, the Netherlands.
Toplam 10 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Giyilebilir Malzemeler
Bölüm Makaleler
Yazarlar

Özgür Demircan

Tatsuya Kosuı Bu kişi benim

Shinsuke Ashıbe Bu kişi benim

Asami Nakaı Bu kişi benim

Yayımlanma Tarihi 31 Aralık 2019
Gönderilme Tarihi 12 Eylül 2019
Kabul Tarihi 26 Kasım 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 29 Sayı: 4

Kaynak Göster

APA Demircan, Ö., Kosuı, T., Ashıbe, S., Nakaı, A. (2019). DEVELOPMENT OF 3-D HEMISPHERICAL BIAXIAL WEFT-KNITTED THERMOSET COMPOSITES. Textile and Apparel, 29(4), 305-310. https://doi.org/10.32710/tekstilvekonfeksiyon.619397

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