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ÜÇ BOYUTLU DOKUMA KUMAŞ TAKVİYELİ KOMPOZİT YAPILARIN ÇEKME MUKAVEMETİNİN ANALİZİ

Tensile Strength Analysis of Three Dimensional Woven Fabric Reinforced Composites

Journal Name:

  • Uludağ Üniversitesi Mühendislik-Mimarlık Fakültesi Dergisi

Publication Year:

  • 2009

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
In this paper, tensile strength of composite materials, which are reinforced with a sandwich woven fabric, a special kind of three dimensional woven fabric, manufactured by hand impregnation and used in automotive, marine and building industry are analysed in order to determine their mechanical performances. Firstly, the tensile strength and tensile modulus of composites which are composed of fabric/vinylester resin are evaluated. Then polyurethane foam, which is a core material, is added to the system and resultant composites are evaluated for their tensile strength and modulus. The results of two different type of composites are analysed by comparison.
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Abstract (Original Language): 
Bu çalışmada otomotiv, denizcilik ve yapı endüstrisinde kullanılan, el yatırma tekniği ile üretilmiş üç boyutlu dokuma yapıların özel bir türü olan sandviç dokuma kumaş takviyeli kompozit yapıların, mekanik performanslarının belirlenebilmesi için çekme mukavemetleri analiz edilmiştir. Öncelikle kumaş/vinilester reçine kombinasyonu ile oluşan kompozit yapıların çekme mukavemeti ve modülü tespit edilmiştir. Ardından da bu sisteme orta kısım malzemesi olan poliüretan köpüğün eklenmesi ile elde edilen kompozit yapıların çekme mukavemeti ve modülü tespit edilerek karşılaştırılmalı olarak incelenmiştir.
FULL TEXT (PDF): 
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  • 2
161-168
  • Turkish

REFERENCES

References: 

1. Brandt, J., Drechsler, K., Arendts, F.-J. (1996) Mechanical Performance of Composites based on various
three dimensional woven fibre preforms, Composites Science and Technology, v 56, n 3, p.381-386.
2. Chou, S., Chen, H.C., Wu, C.C. (1992) BMI Resin Composites Reinforced with 3D Carbon–Fibre Fabrics,
Composite Science and Technology 43, p.117–128.
3. Dickinson, L., Mohamed, M., Bogdanovich, A. (1999) 3D Weaving: What, How, And Where, 44th SAMPE
Symposium, Long Beach CA.
4. Geier, M.H. (1994) Quality Handbook for Composite Materials , Chapman&Hall, London.
5. Langston , T.B., Qiu, Y. (2003) The Tensile Properties of Three Dimensional Air Textured Aramid Reinforced
Composites, American Society of Mechanical Engineers (ASME), Textile Engineering Division (TED),
v:3, p. 77-81.
6. Lundblad, W., Dixon, C., Olher, H. (1995) U.S. Patent 5.456.974.
7. Miravete A. (1999) 3-D Textile Reinforcements in Composite Materials, Woodhead Publishing Limited,
England.
8. Mouritz, A.P., Bannister, M.K., Falzon, P.J., Leong, K.H. (1999) Review of Applications for Advanced
Three Dimensional Fibre Textile Composites, Composites-Part A:Applied Science and Manufacturing , v:30,
n:12, p. 1445-1461.
9. Mullen, C.K., Roy, P.J. (1972) Fabrication and Properties Description of Avco 3D Carbon–Carbon Cylindrical
Composites, National SAMPE Symposium, 11–13 April, Los Angeles, California, USA.
10. Pochiraju, K., Chou, T. (1999) Three Dimensionally Woven and Braided Composites II: An Experimental
Characterization, Polymer Composites, v:20, n:6, p. 733-747.
11. Van Vuure A.W., Ivens J.A., Verpoest I. (2000) Mechanical Properties of Composite Panels Based on Woven
Sandwich-Fabric Preforms, Composites-Part A:Applied Science and Manufacturing, v:31, p. 671-680.
12. Zic I., Ansell M.P., Newton A., Price R.W. (1990) Mechanical Properties of Composite Panels Reinforced
with Integrally Woven 3-D Fabrics, J. Text. Inst., 81 No. 4.
13. http://www.camelyaf.com.tr, 2009.
14. http://www.kimteks.com.tr, 2009.
15. http://www.parabeam.nl/, 2009.
16. http://www.poliya.com.tr, 2009.

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