Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint
Yıl: 2000 Cilt: 6 Sayı: 1 Sayfa Aralığı: 27 - 31 Metin Dili: Türkçe İndeks Tarihi: 29-07-2022
Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint
Öz: Bu çalışmanın amacı, içinde pim bulunan yamuk şekilli, karbon-epoksi kompozitinin yırtılma mukavemetini ve modunu araştırmaktır. Yırtılma yükü ve modu nümerik olarak analiz edildi. Nümerik metod iki adım içerir: İlk olarak plakadaki gerilme dağılımı sonlu elemanlar metodu kullanarak hesaplandı. İkinci olarak, yırtılma yükü ve modu Tsai-Hill ve Tensile-Compressive Failure kriterleri yardımıyla bulundu. Maksimum yırtılma yükü, Yırtılma modu ve Yırtılma ilerlemesini bulan bir bilgisayar programı geliştirildi. Fiber açısı 0° olmak üzere plakanın kenar oranı E/D ve genişlik oranı W/D sırayla 1 ile 4 ve 2 ile 4 oranında değiştirildi.
Anahtar Kelime: İçinde pim bulunan yamuk şekilli karbon epoksi plakanın hasar analizi
Öz: The aim of this study is to investigate failure strength and failure mode of mechanically fastened carbon-epoxy composite plate which shape is trapezium. The failure load and mode are analyzed numerically. The numerical method includes two steps. First, the stress distribution in the plate is calculated by the use of a finite element method. Second, the failure load and the failure mode are predicted by means of Tsai-Hill and Tensile-compressive failure criterion. A computer code was developed which can be used to calculate the maximum failure load, the mode of failure and the propagation of failure. The edge, E/D, and side, W/D, distances of plate are changed from 1 to 4 and 2 to 4 respectively, while the orientation angle of plate is equal to 0°. It is found that full bearing strength is developed when the edge distance ratio is equal to 3 and side distance ratio is equal to 4.
Anahtar Kelime: Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık
- Akay, M., Kong Ah Mun, S. 1991. “Bearing Strength of Autoclave and Oven Cured Kevlar-Epoxy Laminates Under Static and Dynamic Loading”, Composites 26, 451-456.
- Aktaş, A. and Karakuzu, R. 1998. “Analysis of Two Dimensional-Epoxy Composite Plate-Pinned- Joint”, Mechanics of Composite Materials and Structures NATO Advanced Study Institute. Portugal, 12-24 July 1998, Vol 3, 381-397.
- Fu-Kuo, C. George, S. and Richard, A. 1984. “Failure Strength of Nonlinearly Elastic Composite Laminates Containing a Pin Loaded Hole”, J. Composite Materials, 18, 465-476.
- Fu-Kuo, C. and Kuo-Yen, C. 1987. “Post-Failure Analysis of Bolted Composite Joints in Tension or Shear-Out Mode Failure”, J. Composite Materials, 21, 809-833
- Fu-Kuo, C. Richard, A. S. and George, S. S.1982. “Strength of Mechanically Fastened Composite Taints”, J. Composite Materials, 16, 470-494.
- Hiroyuki, H. Zen-Ichiro, M. and Kazushi, H.1996. “Strength Prediction of Mechanically Fastened Quasi-Isotropic Carbon/Epoxy Joints”, J. Composite Materials, 30,1596-1612.
- Hong-Shoeing, W. Chang-Li, H, and Fu-Kuo, C. 1996. “Strength Prediction of Mechanically Fastened Quasi-Isotropic Carbon-Epoxy Joints”, J. Composite Materials, 30, 1284-1314.
- Kaj, H. 1996. “Failure Analysis of Bolted Composite Joints Exhibiting in-Plane Failure Modes”, J. Composite Materials, 30, 358-382.
- Larry, B. I. Fu-Kuo, C. 1991a. “Damage Tolerance of Laminated Composites Containing an Open Hole and Subjected to Compressive Loading : Part 1-Analysis”, J. Composite Materials, 25, 2-43.
- Larry, B. L. Fu-Kuo, C. 1991b. “Damage Tolerance of Laminated Composites Containing an Open Hole and Subjected to Compressive Loading: Part 2-Experiment”, J. Composite Materials, 25, 44-64.
- Larry, B. L. Mahmood, M. 1995. “Two Dimensional Modeling of Composite Pinned-Joint Failure. J. Composite Materials, 29, 671-696.
- Quinn, W. J. Matthews, F. L. 1977. “The effect of Stacking Sequence on the Pin-Bearing Strength in Glass Fibre Reinforced Plastic. J. Composite Materials, 11, 135-145.
- Usama, A. K. 1996. “Notched and pin bearing strengths of GFRP composite laminates”, J. Composite Materials, 30, 2043-2055.
| APA | AKTAŞ A (2000). Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. , 27 - 31. |
| Chicago | AKTAŞ Alaattin Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. (2000): 27 - 31. |
| MLA | AKTAŞ Alaattin Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. , 2000, ss.27 - 31. |
| AMA | AKTAŞ A Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. . 2000; 27 - 31. |
| Vancouver | AKTAŞ A Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. . 2000; 27 - 31. |
| IEEE | AKTAŞ A "Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint." , ss.27 - 31, 2000. |
| ISNAD | AKTAŞ, Alaattin. "Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint". (2000), 27-31. |
| APA | AKTAŞ A (2000). Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. Mühendislik Bilimleri Dergisi, 6(1), 27 - 31. |
| Chicago | AKTAŞ Alaattin Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. Mühendislik Bilimleri Dergisi 6, no.1 (2000): 27 - 31. |
| MLA | AKTAŞ Alaattin Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. Mühendislik Bilimleri Dergisi, vol.6, no.1, 2000, ss.27 - 31. |
| AMA | AKTAŞ A Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. Mühendislik Bilimleri Dergisi. 2000; 6(1): 27 - 31. |
| Vancouver | AKTAŞ A Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint. Mühendislik Bilimleri Dergisi. 2000; 6(1): 27 - 31. |
| IEEE | AKTAŞ A "Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint." Mühendislik Bilimleri Dergisi, 6, ss.27 - 31, 2000. |
| ISNAD | AKTAŞ, Alaattin. "Failure analysis of trapezium shaped carbon-epoxy plate pinned-joint". Mühendislik Bilimleri Dergisi 6/1 (2000), 27-31. |
