BibTex RIS Kaynak Göster

RESEARCH ON FATIGUE PERFORMANCE OF WOOD

Yıl 2012, Cilt: 14 Sayı: 21, 18 - 27, 01.03.2012

Nurgül Tankut Mustafa Zor

Öz

Anahtar Kelimeler

-

Kaynakça

  • o Abendroth R. E. and Wipf, T.J. 1989. Cyclic Load Behavior of Bolted Timber Joint. Journal of Structural Engineering, Vol. 115, No. 10, pp. 2496 –2510. Ando K, Yamasaki M, Watanabe J, Sasaki Y. 2005. Torsional fatigue properties of wood (in Japanese). Mokuzai Gakkaishi, 51.98–103.
  • o Anonim, 1996. Boeing, Advanced Composite Repair For Engineers. Commercial Airplane Group, 34- 37. USA.1
  • o Bao, Z. and Eckelman C. A. 1995. Fatigue Life and Design Stresses for Wood Composites Used in Furniture, Forest Product Journal, 45,7/8,:59-63.
  • o Bao, Z., and Eckelman, C., A. 1995. “Fatigue Life and Design Stress For Wood Composites Used in Furniture”, Forest Product Journal, 45 (7/8) : 59–63.
  • o Bao, Z., Eckelman C. A., Gibson H. 1996. Fatigue Strength and Allowable Design Stresses for Some Wood Composites Used in Furniture, Holz als Roh- und Werkstoff, 54, 377-382.
  • o Barrett, J. D. 1974. Effect of size of tension perpendicular to grain strength of Duglas-fir. Wood and Fiber Science 6 (2) :126-143.
  • o Barrett, J. D. and Foschi, R. O. 1978. Duration of load and probability of failure in wood. Part II: constant ramp and cyclic loading, Ibid. 515-532.
  • o Bodig, J. and Jayne, B. A. 1982. Mechanics of Wood and Wood Composites. Van Nostrand Reinhold Company Inc., New York, pp. 176-229.
  • o Bond, I. P. 1994. The fatigue design of commercial wood composite wind turbine blades. PhD Thesis, University of Bath.
  • o Bonfield, P. W., Hacker C. L., Ansell M.P., Dinwoodie J. M. 1994. Fatigue and creep of chipboard.Part 1. Fatigue at R=0.01. Wood Sci Technol 28:423–435.
  • o Bonfield, P. W. 1991. Fatigue evaluation of wood laminates for the design of wind turbine blades, PhD thesis, University of Bath.
  • o Cai, Z., Bradtmueller, J. P., Hunt, M. O., Fridley, K. J. and Rosowsky, D. V. 1996. ‘Fatigue behaviour of OSB in shear’, Forest Products Journal, 46 (10):81-86.
  • o Clad, W and Schmidt-Hellera, C. 1981. Fatigue testing of particleboard 2: supplementary tests. HOLZ ROH Werkst, 39:241-248.
  • o Clorius, C. O., Pedersen, M. U., Hoffmeyer, P., Damkilde, L. 1996. Fatigue Damage in Wood International COST 508 Wood Mechanics Conference, May, 14-16.
  • o Clorius, C. O., Pederson M. U., Hoffmeyer P., Damkilde L. 2009. An experimantally validated fatigue model for wood subjected to tension perpendicular to the grain. Wood Sci. Tech. 43:343-357.
  • o Clorius, C. O., Pederson M.U., Hoffmeyer P., and Damkilde L. 2000. Compressive fatigue in wood. Wood Science and Technology Vol. 34, pp. 21-37.

AĞAÇ MALZEMEDE YORULMA PERFORMANSI ÜZERİNE ARAŞTIRMALAR

Yıl 2012, Cilt: 14 Sayı: 21, 18 - 27, 01.03.2012

Nurgül Tankut Mustafa Zor

Öz

Ahşap, binalardan mobilyaya, spor araç gereçlerinden ambalaj malzemesi olmak üzere birçok alanda yaygın olarak kullanılmaktadır. Çevre dostu ürünlere talep arttığından dolayı, günümüzde ahşaba olan ilgi de artmaktadır. Bu talepten dolayı, diğer malzemeler gibi kullanılıp kullanılmayacağı birçok araştırmaya konu olmaktadır. Bugüne kadar, yorulma ömrü iyileştirme teknikleri birçok endüstride başarılı şekilde uygulanmaktadır. Daha çok gemi yapımında araştırılan yorulma iyileştirme teknikleri bu alana ilgiyi arttırırken, ahşap malzeme ve yorulma ilişkisi üzerine çalışmalar oldukça sınırlı sayıdadır. Dolasıyla bu çalışmanın amacı, ağaç malzemenin yorulma performansı hakkında temel bilgi edinmek ve belirli yüklemeler altında ağaç malzemede oluşan yorulma üzerine yapılan çalışmaları incelemektir.

Anahtar Kelimeler

Ağaç Malzeme Yorulma ve Yorulma Performansı

Kaynakça

  • o Abendroth R. E. and Wipf, T.J. 1989. Cyclic Load Behavior of Bolted Timber Joint. Journal of Structural Engineering, Vol. 115, No. 10, pp. 2496 –2510. Ando K, Yamasaki M, Watanabe J, Sasaki Y. 2005. Torsional fatigue properties of wood (in Japanese). Mokuzai Gakkaishi, 51.98–103.
  • o Anonim, 1996. Boeing, Advanced Composite Repair For Engineers. Commercial Airplane Group, 34- 37. USA.1
  • o Bao, Z. and Eckelman C. A. 1995. Fatigue Life and Design Stresses for Wood Composites Used in Furniture, Forest Product Journal, 45,7/8,:59-63.
  • o Bao, Z., and Eckelman, C., A. 1995. “Fatigue Life and Design Stress For Wood Composites Used in Furniture”, Forest Product Journal, 45 (7/8) : 59–63.
  • o Bao, Z., Eckelman C. A., Gibson H. 1996. Fatigue Strength and Allowable Design Stresses for Some Wood Composites Used in Furniture, Holz als Roh- und Werkstoff, 54, 377-382.
  • o Barrett, J. D. 1974. Effect of size of tension perpendicular to grain strength of Duglas-fir. Wood and Fiber Science 6 (2) :126-143.
  • o Barrett, J. D. and Foschi, R. O. 1978. Duration of load and probability of failure in wood. Part II: constant ramp and cyclic loading, Ibid. 515-532.
  • o Bodig, J. and Jayne, B. A. 1982. Mechanics of Wood and Wood Composites. Van Nostrand Reinhold Company Inc., New York, pp. 176-229.
  • o Bond, I. P. 1994. The fatigue design of commercial wood composite wind turbine blades. PhD Thesis, University of Bath.
  • o Bonfield, P. W., Hacker C. L., Ansell M.P., Dinwoodie J. M. 1994. Fatigue and creep of chipboard.Part 1. Fatigue at R=0.01. Wood Sci Technol 28:423–435.
  • o Bonfield, P. W. 1991. Fatigue evaluation of wood laminates for the design of wind turbine blades, PhD thesis, University of Bath.
  • o Cai, Z., Bradtmueller, J. P., Hunt, M. O., Fridley, K. J. and Rosowsky, D. V. 1996. ‘Fatigue behaviour of OSB in shear’, Forest Products Journal, 46 (10):81-86.
  • o Clad, W and Schmidt-Hellera, C. 1981. Fatigue testing of particleboard 2: supplementary tests. HOLZ ROH Werkst, 39:241-248.
  • o Clorius, C. O., Pedersen, M. U., Hoffmeyer, P., Damkilde, L. 1996. Fatigue Damage in Wood International COST 508 Wood Mechanics Conference, May, 14-16.
  • o Clorius, C. O., Pederson M. U., Hoffmeyer P., Damkilde L. 2009. An experimantally validated fatigue model for wood subjected to tension perpendicular to the grain. Wood Sci. Tech. 43:343-357.
  • o Clorius, C. O., Pederson M.U., Hoffmeyer P., and Damkilde L. 2000. Compressive fatigue in wood. Wood Science and Technology Vol. 34, pp. 21-37.
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Makaleler
Yazarlar

Nurgül Tankut Bu kişi benim

Mustafa Zor Bu kişi benim

Yayımlanma Tarihi 1 Mart 2012
Yayımlandığı Sayı Yıl 2012 Cilt: 14 Sayı: 21

Kaynak Göster

APA Tankut, N., & Zor, M. (2012). AĞAÇ MALZEMEDE YORULMA PERFORMANSI ÜZERİNE ARAŞTIRMALAR. Bartın Orman Fakültesi Dergisi, 14(21), 18-27.


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