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Sürtünme Kaynak Yöntemi Uygulamalarında Ahşap Esaslı Malzemelerinin Kullanımının İncelenmesi

Yıl 2019, Cilt: 21 Sayı: 3, 927 - 937, 15.12.2019
https://doi.org/10.24011/barofd.574350

Öz

Tutkal, metal veya herhangi bir bağlayıcı kullanmadan yeni, çevre dostu
ürünler elde etmek için iki parçayı mekanik olarak birbirine bağlama tekniği
olan sürtünme kaynak uygulaması yeni bir yöntem olarak ortaya çıkmaktadır. Son
zamanlarda masif ahşaba uygulanan bu yöntem, kaynak parametreleri üzerine
ahşabın özelliklerinin değişimini araştırmak için kullanılmaktadır. Bu yöntem
gerçekten iyi sonuçlar verirse, orman ürünleri endüstrisinin geleceğini önemli
ölçüde değiştirecektir. Ahşap malzemenin mekanik anlamda birleşimindeki bu yeni
metod, ileri teknoloji sayesinde birçok mühendislik uygulamalarında
kullanılabilir

Destekleyen Kurum

TUBITAK

Proje Numarası

1059B191800412

Teşekkür

Bu çalışma, TUBITAK 2219 doktora sonrası araştırma bursu (2019 yılı I.dönem) 1059B191800412 nolu proje tarafından desteklenmiştir.

Kaynakça

  • Ageorges, C., Ye L. and Hou, M. (2001). Advances in fusion bonding techniques for joining thermoplastic matrix composites: a review’, Composites A, 2001, 32A, 839–857.
  • Amirou, S,, Pizzi A., Luo, H. (2016). Variation of shear properties of welded spruce at different pressures and welding times. Biotribology. 5:61–66.
  • Amirou, S., Pizzi,. A., Belleville, B., Delmotte, L. (2017). Water resistance of natural joint of spruce produced by linear friction welding without any treatment, Internatıonal Wood Products Journal, 8(4), 201-207.
  • Bardak, T., Tankut, A.N., Tankut, N., Aydemir, D., Sözen, E. (2017). The Bending and Tension Strength of T-Type Mortise and Tenon Joints Bonded with Polyvinyl Acetate Nanocomposites. Maderas: Ciencia y Tecnología 19(1):51 – 62.
  • Belleville, B., Segovia, C., Pizzi, A., Stevanovic, T., Cloutier, A. (2011). Wood blockboards fabricated by rotational dowel welding. Journal of adhesion science and technology 25, 2745-2753.
  • Benatar, A.,Gutowski, T. G. (1986). Methods for fusion bonding thermoplastic composites’, SAMPE Q., 1986, 18(1), 35–42.
  • Bocquet, F. A., Pizzi, A., Despres, H. R., Mansouri, L., Resch, D., Michel and Letort F. (2007). Wood joints and laminated wood beams assembled by mechanically-welded wood dowels. J. Adhesion Sci. Technol. 21, 301–317.
  • Bustos, C., Mohammad, M., Hernández, R.E., Beauregard, R. (2003a). Effects of curing time and end-pressure on the tensile strength of finger-joined black spruce lumber. Forest Prod. J. 53 (11-12): 85-89.
  • Chawla, K.K. (1998). Composite materials, science and engineering’;1998, New York, Springer-Verlag.
  • Christelle, G.C. (2008). Soudage linéaire du bois: étude et compréhension des modifications physicochimiques et développement d’une technologie d’assemblage innovante. Faculté des Sciences et Techniques Nancy, Doctoral Thesis.
  • Crawford, R. J.,Tam, Y. (1980). Friction welding of plastics. J. Mater. Sci., 16, 3275–3282.
  • Czigany T. and Kiss Z. (2005). ‘Friction stir welding of fiber reinforced polymer composites’, Proc. 18th International Conferences on Composite Materials. Jeju Island, Korea, August 2005.
  • Dagenais, C., Salenikovich, A. (2008). Influence of machining parameters on the tensile strength of finger-jointed sugar maple lumber. Wood Fiber Sci. 41(1):55-61.
  • Eveno, E. C., Gillespie, J. W. (1988). An experimental investigation: resistance welding of graphite polyetheretherketone composites. J. Thermoplast. Compos., 1, 322–337.
  • Ganne-Chedeville, C., Duchanois, G., Pizzi, A., Leban, J. M,.Pichelin, F. (2008). Predicting the thermal behaviour of wood during linear welding using the finite element method. J.Adhesion Sci.Technol., 22:1209-1221.
  • Ganne-Chedeville, C., Leban, J-M., Properzi, M., Pichelin, F., Pizzi, A. (2006). Temperature and density distribution in mechanical vibration wood welding. Wood Sci Technol, 40:72–76.
  • Ganne-Chedeville, C., Pizzi, A., Thomas, A., Leban, J. M., Bocquet, J. F., Depres, A.,Mansouri, H. R. (2005). Parameter interactions, two-block welding and the wood nail concept in wood dowels welding. Journal of Adhesion Science and Technology, 19, 1157-1174
  • Gfeller, B., Pizzi, A., Zanetti, M., Properzi, M., Pichelin, F., Lehmann, M., Delmotte, L. (2004). Solid wood joints by in stir welding of structural wood constituents. Holzforschung 58(1):45–52.
  • Gfeller, B., Zanetti, M., Properzi, M., Pizzi, A., Pichelin, F., Lehmann, M., Delmotte, L. (2003). Wood bonding by vibrational welding. J Adhes Sci Technol 17:1425–1590.
  • Gliniorz, K. U., Natterer, J. (2000). Holzschweißen – Innovative Verbindungstechnologien im Holzbau, Tagungsunterlagen, Symposium der Lignaplus/Weltmesse für die Forst- und Holzwirtschaft in Hannover/D, Mai 21-25, 79-83.
  • Hou, M., Friedrich, K. (1992). Resistance welding of continuous glass fiber reinforced polypropylene composites’. Compos. Manuf., 3(2), 153–163.
  • Kanazawa, Pizzi, A., Properzi, M., Delmotte, L., Pichelin, F. (2005). Parameters influencing wood-dowel welding by high-speed rotation. J. Adhesion Sci. Technol., 19 (12): 1025-1038.
  • Karastergiou, S., Ntalos, G. (2005). Bending strength properties of scarf jointed European spruce wood (Picea excelsa). Proceedings of International Scientific Conference Engineering Design Interior and furniture design. Oct. 15-17, Sofia, Bulgaria
  • Krishnan, K. N. (2002). On the formation of onion rings in friction stir welds. Mater. Sci. Eng., 2002, 327, 246–251.
  • Li, H., Zhang, Q., Wu, G., Xiong, X.,and Li, Y., (2016). A review on development of laminated bamboo lumber. Journal of Forestry Engineering 1(6), 10-16.
  • Li, Y., Xu, B.,., and Jiang, S. (2016). Present situation and the countermeasure analysis of bamboo processing industry in China. Journal of forestry Engineering 1(1).2-7
  • Maguire, D. M. (1989). Joining thermoplastic composites’, SAMPE J., 1989, 25, (1), 11–14.
  • Mansouri, H. R., Omrani, P., Pizzi, A. (2009). Improving the water resistance of linear bibration welded wood joints., J. Adhesion Sci. Technol. 23, 63–70.
  • Mansouri, H. R., Pizzi, A., Leban, J. M., Delmotte, L., Lindgren, O., Vaziri, M. (2011). Causes for the improved water resistance in pine wood linear welded joints. J Adhes Sci Technol. 25:1987–1995.
  • Mendes, N., Loureiro, A., Martins, C., Neto, P.,Pires, J. N. (2014). Effect of friction stir welding parameters on morphology and strength on acrylonitrile butadiene styrene plate welds, Mater. Des., 2014, 58, 4572–4464.
  • Mishra, R.,Mahoney, M. (2007). Friction stir welding and processing, Materials Park, OH, ASM International.
  • Nandan, R., Debroy, T.,Bhadeshia, H. (2008). Recent advances in friction stir welding-process, weldment structures and properties’, Prog. Mater. Sci., 2008, 53, 980–1023.
  • Omrani, P, Mansouri, H.R., Duchanois, G., Pizzi, A. (2009a). Fracture mechanics of linearly welded wood joints: effect of wood species and grain orientation. J Adhes Sci Technol. 23:2057–2072.
  • Omrani, P., Mansouri, H. R., Pizzi, A. (2009b). Influence of grain direction and preheating on linear wood welding. Eur J Wood Prod 68(1):113–114.
  • Pizzi, A., Leban, J-M,, Kanazawa. F,, Properzi. M,, Pichelin. F, (2004). Wood dowels bonding by high speed rotation welding. J Adhes Sci Technol 18:1263–1278.
  • Properzi, M., Leban, J. M., Pizzi, A., Wieland, S., Pichelin, F., Lehmann, M. (2005). Influence of grain direction in vibrational wood welding, Holzforschung 59(1), 23-27. DOI: 10.1515/HF.2005.004.
  • Stamm, B., Natterer, J., Navi, P. (2005a). Joining wood by friction welding. Holz als Roh-und Werkstoff, 313-320.
  • Stamm, B., Windeisen, E., Natterer, J., Wegener, G. (2005). Thermal behaviour of polysaccharides in wood during friction welding, Holz Roh Werkstoff 63, 388–389.
  • Stokes, V. K. (1989). Joining methods for plastics and plastic composites:an overview. Polym. Eng. Sci., 1989, 29, (19), 1310–1324.
  • St-Pierre, B., Beauregard, R., Mohammad, M., Bustos, C. (2005). Effect of moisture content and temperature on the tension strength of finger jointed black spruce lumber. Forest Prod. J. 55(12): 9-16.
  • Sutthoff, B., Franz, U., Hentschel, H., Schaaf, A. (1996). Verfahren zum reibschweissartigen Fügen und Verbinden von Holz. Patent DE 19620273 C2.Deutsches Patent- und Markenamt.
  • Todd, S. M. (1990). Joining thermoplastic composites’, Proc. 22nd Int. SAMPE Technical Conf., Boston, MA, USA, November 1990, Society for the Advancement of Material and Process Engineering, 383–392.
  • URL-1: (https://nptel.ac.in/courses/107103012/module6/lec1.pdf)
  • URL-2: (https://me-mechanicalengineering.com/advantages-and-disadvantages-of-welded-joints-over-riveted-joints/)
  • URL-3; https://www.epfl.ch/labs/ibois/page-18295-en-html/page-137287-en-html/page-20697-en-html/
  • Vassiliou, V., Barboutis, I., Ajdinaj, D., Thoma, H. (2009). PVAc Bonding of finger jointed Beech wood originated from Albania and Greece. Proceedings of International Conference Wood Science and Engineering in the third millennium, ICWSE.715. Transilvania. University of Brasov, Romania.721 p.
  • Vaziri, M. (2011). Water Resistance of Scots Pine Joints Produced by Linear Friction Welding, Luleå University of Technology, Doctoral Thesis.
  • Vaziri, M., Lindgren, O., Pizzi, A., Mansouri, H. R. (2010). Moisture sensitivity of Scots pine joints produced by linear frictional welding. J. Adhesion Sci. Technol. 24, 1515–1527.
  • Wedgewood, R., Hardy, P. E. (1996). Induction welding of thermoset composite adherents using thermoplastic interlayer and susceptors’, Proc. 28th Int. SAMPE Technical Conf., Seattle, WA, USA, November 1996, Society for the Advancement of Material and Process Engineering, 850–861.
  • Zhang, H., Pizzi, A., Lu, X., Zhou, X. (2014). Optimization of tensile shear strength of linear mechanically welded outer-to-inner flattened moso bamboo. BioResoruces, 9(2), 2500-2508.
  • Zhang, H., Pizzi, A., Lu, X., Wang, Z. (2017). Study of end-grain butt joints obtained by friction welding of Moso bamboo. BioResources, 12(3), 6446-6457.

Investigation of the Use of Wood Based Materials in Friction Welding Method Applications

Yıl 2019, Cilt: 21 Sayı: 3, 927 - 937, 15.12.2019
https://doi.org/10.24011/barofd.574350

Öz

The friction welding procedure, which is the method of
mechanically connecting two parts together to obtain new, environmentally
friendly products without using glue, metal or any fasteners, has revealed a
new method. This method, which has recently been applied to the solid wood, is
used to investigate the variation of wood properties on the welding parameters.
If this method actually produces good results, the future of forest products
industry will change significantly. This new method of combining solid wood
with mechanical means can be used in many engineering applications due to
advanced technology.

Proje Numarası

1059B191800412

Kaynakça

  • Ageorges, C., Ye L. and Hou, M. (2001). Advances in fusion bonding techniques for joining thermoplastic matrix composites: a review’, Composites A, 2001, 32A, 839–857.
  • Amirou, S,, Pizzi A., Luo, H. (2016). Variation of shear properties of welded spruce at different pressures and welding times. Biotribology. 5:61–66.
  • Amirou, S., Pizzi,. A., Belleville, B., Delmotte, L. (2017). Water resistance of natural joint of spruce produced by linear friction welding without any treatment, Internatıonal Wood Products Journal, 8(4), 201-207.
  • Bardak, T., Tankut, A.N., Tankut, N., Aydemir, D., Sözen, E. (2017). The Bending and Tension Strength of T-Type Mortise and Tenon Joints Bonded with Polyvinyl Acetate Nanocomposites. Maderas: Ciencia y Tecnología 19(1):51 – 62.
  • Belleville, B., Segovia, C., Pizzi, A., Stevanovic, T., Cloutier, A. (2011). Wood blockboards fabricated by rotational dowel welding. Journal of adhesion science and technology 25, 2745-2753.
  • Benatar, A.,Gutowski, T. G. (1986). Methods for fusion bonding thermoplastic composites’, SAMPE Q., 1986, 18(1), 35–42.
  • Bocquet, F. A., Pizzi, A., Despres, H. R., Mansouri, L., Resch, D., Michel and Letort F. (2007). Wood joints and laminated wood beams assembled by mechanically-welded wood dowels. J. Adhesion Sci. Technol. 21, 301–317.
  • Bustos, C., Mohammad, M., Hernández, R.E., Beauregard, R. (2003a). Effects of curing time and end-pressure on the tensile strength of finger-joined black spruce lumber. Forest Prod. J. 53 (11-12): 85-89.
  • Chawla, K.K. (1998). Composite materials, science and engineering’;1998, New York, Springer-Verlag.
  • Christelle, G.C. (2008). Soudage linéaire du bois: étude et compréhension des modifications physicochimiques et développement d’une technologie d’assemblage innovante. Faculté des Sciences et Techniques Nancy, Doctoral Thesis.
  • Crawford, R. J.,Tam, Y. (1980). Friction welding of plastics. J. Mater. Sci., 16, 3275–3282.
  • Czigany T. and Kiss Z. (2005). ‘Friction stir welding of fiber reinforced polymer composites’, Proc. 18th International Conferences on Composite Materials. Jeju Island, Korea, August 2005.
  • Dagenais, C., Salenikovich, A. (2008). Influence of machining parameters on the tensile strength of finger-jointed sugar maple lumber. Wood Fiber Sci. 41(1):55-61.
  • Eveno, E. C., Gillespie, J. W. (1988). An experimental investigation: resistance welding of graphite polyetheretherketone composites. J. Thermoplast. Compos., 1, 322–337.
  • Ganne-Chedeville, C., Duchanois, G., Pizzi, A., Leban, J. M,.Pichelin, F. (2008). Predicting the thermal behaviour of wood during linear welding using the finite element method. J.Adhesion Sci.Technol., 22:1209-1221.
  • Ganne-Chedeville, C., Leban, J-M., Properzi, M., Pichelin, F., Pizzi, A. (2006). Temperature and density distribution in mechanical vibration wood welding. Wood Sci Technol, 40:72–76.
  • Ganne-Chedeville, C., Pizzi, A., Thomas, A., Leban, J. M., Bocquet, J. F., Depres, A.,Mansouri, H. R. (2005). Parameter interactions, two-block welding and the wood nail concept in wood dowels welding. Journal of Adhesion Science and Technology, 19, 1157-1174
  • Gfeller, B., Pizzi, A., Zanetti, M., Properzi, M., Pichelin, F., Lehmann, M., Delmotte, L. (2004). Solid wood joints by in stir welding of structural wood constituents. Holzforschung 58(1):45–52.
  • Gfeller, B., Zanetti, M., Properzi, M., Pizzi, A., Pichelin, F., Lehmann, M., Delmotte, L. (2003). Wood bonding by vibrational welding. J Adhes Sci Technol 17:1425–1590.
  • Gliniorz, K. U., Natterer, J. (2000). Holzschweißen – Innovative Verbindungstechnologien im Holzbau, Tagungsunterlagen, Symposium der Lignaplus/Weltmesse für die Forst- und Holzwirtschaft in Hannover/D, Mai 21-25, 79-83.
  • Hou, M., Friedrich, K. (1992). Resistance welding of continuous glass fiber reinforced polypropylene composites’. Compos. Manuf., 3(2), 153–163.
  • Kanazawa, Pizzi, A., Properzi, M., Delmotte, L., Pichelin, F. (2005). Parameters influencing wood-dowel welding by high-speed rotation. J. Adhesion Sci. Technol., 19 (12): 1025-1038.
  • Karastergiou, S., Ntalos, G. (2005). Bending strength properties of scarf jointed European spruce wood (Picea excelsa). Proceedings of International Scientific Conference Engineering Design Interior and furniture design. Oct. 15-17, Sofia, Bulgaria
  • Krishnan, K. N. (2002). On the formation of onion rings in friction stir welds. Mater. Sci. Eng., 2002, 327, 246–251.
  • Li, H., Zhang, Q., Wu, G., Xiong, X.,and Li, Y., (2016). A review on development of laminated bamboo lumber. Journal of Forestry Engineering 1(6), 10-16.
  • Li, Y., Xu, B.,., and Jiang, S. (2016). Present situation and the countermeasure analysis of bamboo processing industry in China. Journal of forestry Engineering 1(1).2-7
  • Maguire, D. M. (1989). Joining thermoplastic composites’, SAMPE J., 1989, 25, (1), 11–14.
  • Mansouri, H. R., Omrani, P., Pizzi, A. (2009). Improving the water resistance of linear bibration welded wood joints., J. Adhesion Sci. Technol. 23, 63–70.
  • Mansouri, H. R., Pizzi, A., Leban, J. M., Delmotte, L., Lindgren, O., Vaziri, M. (2011). Causes for the improved water resistance in pine wood linear welded joints. J Adhes Sci Technol. 25:1987–1995.
  • Mendes, N., Loureiro, A., Martins, C., Neto, P.,Pires, J. N. (2014). Effect of friction stir welding parameters on morphology and strength on acrylonitrile butadiene styrene plate welds, Mater. Des., 2014, 58, 4572–4464.
  • Mishra, R.,Mahoney, M. (2007). Friction stir welding and processing, Materials Park, OH, ASM International.
  • Nandan, R., Debroy, T.,Bhadeshia, H. (2008). Recent advances in friction stir welding-process, weldment structures and properties’, Prog. Mater. Sci., 2008, 53, 980–1023.
  • Omrani, P, Mansouri, H.R., Duchanois, G., Pizzi, A. (2009a). Fracture mechanics of linearly welded wood joints: effect of wood species and grain orientation. J Adhes Sci Technol. 23:2057–2072.
  • Omrani, P., Mansouri, H. R., Pizzi, A. (2009b). Influence of grain direction and preheating on linear wood welding. Eur J Wood Prod 68(1):113–114.
  • Pizzi, A., Leban, J-M,, Kanazawa. F,, Properzi. M,, Pichelin. F, (2004). Wood dowels bonding by high speed rotation welding. J Adhes Sci Technol 18:1263–1278.
  • Properzi, M., Leban, J. M., Pizzi, A., Wieland, S., Pichelin, F., Lehmann, M. (2005). Influence of grain direction in vibrational wood welding, Holzforschung 59(1), 23-27. DOI: 10.1515/HF.2005.004.
  • Stamm, B., Natterer, J., Navi, P. (2005a). Joining wood by friction welding. Holz als Roh-und Werkstoff, 313-320.
  • Stamm, B., Windeisen, E., Natterer, J., Wegener, G. (2005). Thermal behaviour of polysaccharides in wood during friction welding, Holz Roh Werkstoff 63, 388–389.
  • Stokes, V. K. (1989). Joining methods for plastics and plastic composites:an overview. Polym. Eng. Sci., 1989, 29, (19), 1310–1324.
  • St-Pierre, B., Beauregard, R., Mohammad, M., Bustos, C. (2005). Effect of moisture content and temperature on the tension strength of finger jointed black spruce lumber. Forest Prod. J. 55(12): 9-16.
  • Sutthoff, B., Franz, U., Hentschel, H., Schaaf, A. (1996). Verfahren zum reibschweissartigen Fügen und Verbinden von Holz. Patent DE 19620273 C2.Deutsches Patent- und Markenamt.
  • Todd, S. M. (1990). Joining thermoplastic composites’, Proc. 22nd Int. SAMPE Technical Conf., Boston, MA, USA, November 1990, Society for the Advancement of Material and Process Engineering, 383–392.
  • URL-1: (https://nptel.ac.in/courses/107103012/module6/lec1.pdf)
  • URL-2: (https://me-mechanicalengineering.com/advantages-and-disadvantages-of-welded-joints-over-riveted-joints/)
  • URL-3; https://www.epfl.ch/labs/ibois/page-18295-en-html/page-137287-en-html/page-20697-en-html/
  • Vassiliou, V., Barboutis, I., Ajdinaj, D., Thoma, H. (2009). PVAc Bonding of finger jointed Beech wood originated from Albania and Greece. Proceedings of International Conference Wood Science and Engineering in the third millennium, ICWSE.715. Transilvania. University of Brasov, Romania.721 p.
  • Vaziri, M. (2011). Water Resistance of Scots Pine Joints Produced by Linear Friction Welding, Luleå University of Technology, Doctoral Thesis.
  • Vaziri, M., Lindgren, O., Pizzi, A., Mansouri, H. R. (2010). Moisture sensitivity of Scots pine joints produced by linear frictional welding. J. Adhesion Sci. Technol. 24, 1515–1527.
  • Wedgewood, R., Hardy, P. E. (1996). Induction welding of thermoset composite adherents using thermoplastic interlayer and susceptors’, Proc. 28th Int. SAMPE Technical Conf., Seattle, WA, USA, November 1996, Society for the Advancement of Material and Process Engineering, 850–861.
  • Zhang, H., Pizzi, A., Lu, X., Zhou, X. (2014). Optimization of tensile shear strength of linear mechanically welded outer-to-inner flattened moso bamboo. BioResoruces, 9(2), 2500-2508.
  • Zhang, H., Pizzi, A., Lu, X., Wang, Z. (2017). Study of end-grain butt joints obtained by friction welding of Moso bamboo. BioResources, 12(3), 6446-6457.
Toplam 51 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Konular Kompozit ve Hibrit Malzemeler
Bölüm Review Articles and Editorials
Yazarlar

Mustafa Zor 0000-0002-2115-8339

Proje Numarası 1059B191800412
Yayımlanma Tarihi 15 Aralık 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 21 Sayı: 3

Kaynak Göster

APA Zor, M. (2019). Sürtünme Kaynak Yöntemi Uygulamalarında Ahşap Esaslı Malzemelerinin Kullanımının İncelenmesi. Bartın Orman Fakültesi Dergisi, 21(3), 927-937. https://doi.org/10.24011/barofd.574350


Bartin Orman Fakultesi Dergisi Editorship,

Bartin University, Faculty of Forestry, Dean Floor No:106, Agdaci District, 74100 Bartin-Turkey.

Tel: +90 (378) 223 5094, Fax: +90 (378) 223 5062,

E-mail: bofdergi@gmail.com