Abstract
In
the production of fiber-reinforced polymer composite material, it is desirable
for the textile reinforcement fabric to readily lie in a complex,
three-dimensional mold. In this study, three dimensional formability of plain
woven glass fabric was measured using fabric bursting strength tester without
burst of fabric. The dome areas were chosen as 10 and 50 cm2. The
maximum pressure was set to 50 kPa. The fabric inflation (pressure increase)
rates were selected as 5 and 20 kPa/s. Tests were carried out in cyclic rapid
fatigue mode. The total number of cycles was set to 5. As the dome area
increased, the amount of fabric distension increased. Distension measurements under
the dome area of 50 cm2 showed a normal distribution, whereas those
made at 10 cm2 did not. The fabrics exhibited more distension at low
pressure increase rate. Fabric distension increased with the increase in the
number of cycles.
References
- Referans 1 CHAWLA, K.K., Composite materials: science and engineering (2nd ed.), Springer, New York, USA, 1998.
- Referans 2 MAZUMDAR, S.K., Composites manufacturing: materials, product, and process engineering (2nd ed.), CRC Press, Boca Raton, FL, USA, 2002.
- Referans 3 LOMOV, S.V., VERPOEST, I., “Modelling of the internal structure and deformability of textile reinforcements: WiseTex software”, Proceedings of the Composites for the Future, 10th European Conference on Composite Materials (ECCM-10). Bruges, BE, June 3-7, 2002.
- Referans 4 WILLEMS, A., LOMOV, S.V., YINGBO, Z., VERPOEST, I., VANDEPITTE, D., “Deformability characterization of fabrics using large and small scale full field optical strain measurements”, Proceedings of the European conference on composite materials (ECCM-12). Biarritz, 2006.
- Referans 5 WILLEMS, A., LOMOV, S.V., VERPOEST, I., VANDEPITTE, D., “Optical strain fields in shear and tensile testing of textile reinforcements”, Composites Science and Technology, 68, 807-819, 2008.
- Referans 6 LOMOV, S.V., BOISSE, P., DELUYCKER, E., MORESTIN, F., VANCLOOSTER, K., VANDEPITTE, D., WILLEMS A., “Full-field strain measurements in textile deformability studies”, Composites Part A: Applied Science and Manufacturing, 39, 1232-1244, 2008.
- Referans 7 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “A study of the deformation of weft-knit preforms for advanced composite structures Part 1: Dry preform properties”, Composites Science and Technology, 60, 1931-1942, 2000.
- Referans 8 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “A study of the deformation of weft-knit preforms for advanced composite structures Part 2: The resultant composite”, Composites Science and Technology, 60, 1943-1951, 2000.
- Referans 9 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “Formability of weft knitted preforms”, Proceedings of the International Committee on Composite Materials (ICCM 12) Conference, 1-10. Paris, Fransa, Temmuz 1999.
- Referans 10 ZHONG, T., HU, H., “Formability of weft-knitted fabrics on a hemisphere”, AUTEX Research Journal, 8, 245-251, 2007.
Abstract
Lif
takviyeli polimer kompozit malzeme üretiminde tekstil takviye kumaşının
karmaşık şekilli, üç boyutlu bir kalıba kolaylıkla yatması istenen bir
özelliktir. Bu çalışmada cam ipliğinden üretilmiş bez ayağı dokuma kumaşın üç
boyutlu şekil alabilirliği kumaş patlatma test cihazı kullanılarak, kumaş
patlaması olmaksızın ölçülmüştür. Kubbe alanı olarak 10 ve 50 cm2
seçilmiştir. Maksimum basınç 50 kPa olarak ayarlanmıştır. Kumaş şişirme (basınç
artış) hızı olarak 5 ve 20 kPa/s seçilmiştir. Testler döngüsel hızlı yorulma modunda
yapılmıştır. Toplam çevrim sayısı beş olarak belirlenmiştir. Kubbe alanının
artması ile birlikte kumaşın şişme miktarı da artmıştır. 50 cm2’lik
kubbe alanında kaydedilen şişme değerleri normal bir dağılım gösterirken, 10 cm2’lik
kubbe alanında kaydedilen şişme değerleri normal bir dağılım göstermemiştir.
Düşük basınç artış hızında kumaşlar daha fazla şişme sergilemişlerdir. Çevrim
sayısının artması ile birlikte kumaş şişmesi de artmıştır.
References
- Referans 1 CHAWLA, K.K., Composite materials: science and engineering (2nd ed.), Springer, New York, USA, 1998.
- Referans 2 MAZUMDAR, S.K., Composites manufacturing: materials, product, and process engineering (2nd ed.), CRC Press, Boca Raton, FL, USA, 2002.
- Referans 3 LOMOV, S.V., VERPOEST, I., “Modelling of the internal structure and deformability of textile reinforcements: WiseTex software”, Proceedings of the Composites for the Future, 10th European Conference on Composite Materials (ECCM-10). Bruges, BE, June 3-7, 2002.
- Referans 4 WILLEMS, A., LOMOV, S.V., YINGBO, Z., VERPOEST, I., VANDEPITTE, D., “Deformability characterization of fabrics using large and small scale full field optical strain measurements”, Proceedings of the European conference on composite materials (ECCM-12). Biarritz, 2006.
- Referans 5 WILLEMS, A., LOMOV, S.V., VERPOEST, I., VANDEPITTE, D., “Optical strain fields in shear and tensile testing of textile reinforcements”, Composites Science and Technology, 68, 807-819, 2008.
- Referans 6 LOMOV, S.V., BOISSE, P., DELUYCKER, E., MORESTIN, F., VANCLOOSTER, K., VANDEPITTE, D., WILLEMS A., “Full-field strain measurements in textile deformability studies”, Composites Part A: Applied Science and Manufacturing, 39, 1232-1244, 2008.
- Referans 7 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “A study of the deformation of weft-knit preforms for advanced composite structures Part 1: Dry preform properties”, Composites Science and Technology, 60, 1931-1942, 2000.
- Referans 8 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “A study of the deformation of weft-knit preforms for advanced composite structures Part 2: The resultant composite”, Composites Science and Technology, 60, 1943-1951, 2000.
- Referans 9 SAVCI, S., CURISKIS, J.I., PAILTHORPE, M.T., “Formability of weft knitted preforms”, Proceedings of the International Committee on Composite Materials (ICCM 12) Conference, 1-10. Paris, Fransa, Temmuz 1999.
- Referans 10 ZHONG, T., HU, H., “Formability of weft-knitted fabrics on a hemisphere”, AUTEX Research Journal, 8, 245-251, 2007.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Wearable Materials |
| Journal Section | Others |
| Authors | |
| Publication Date | December 20, 2019 |
| Submission Date | October 2, 2019 |
| Acceptance Date | December 8, 2019 |
| Published in Issue | Year 2019 Volume: 8 Issue: 3 |