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بررسی امکان استفاده از پین کامپوزیتی الیاف شیشه (GFRP) در ساخت قاب فارسی مبلمان تحت بار کشش قطری | ||
| نشریه جنگل و فرآورده های چوب | ||
| دوره 77، شماره 4، اسفند 1403، صفحه 339-352 اصل مقاله (1.2 M) | ||
| نوع مقاله: مقاله پژوهشی | ||
| شناسه دیجیتال (DOI): 10.22059/jfwp.2025.383017.1315 | ||
| نویسندگان | ||
| مرتضی امینی اصل؛ محمد دهمرده قلعه نو؛ محمد عربی* ؛ سعید رضا فرخ پیام؛ محمد شمسیان | ||
| گروه علوم و صنایع چوب و کاغذ، دانشکدة منابع طبیعی، دانشگاه زابل، ایران. | ||
| چکیده | ||
| در این مطالعه امکان استفاده از پین کامپوزیتی الیاف شیشه برای بهبود مقاومت اتصال قاب مبلمان تحت بار کششی قطری، مورد بررسی قرار گرفت. بدینمنظور علاوه بر قطرهای مختلف (6، 8 و 10 میلیمتر) پینهای GFRP و راش، عوامل متغیر دیگری نظیر تعداد پین مورد استفاده (یک و دو)، نوع چسب (PVAc و چسب اپوکسی) و جنس اعضای اتصال شامل تخته خرده چوب و MDF مورد بررسی قرار گرفتند. نتایج نشان داد که با تغییر جنس پین از چوب راش به پین کامپوزیتی الیاف شیشه، ظرفیت لنگر خمشی تحت بار کشش قطری بهمیزان 50 درصد برای تخته خرده چوب و 71 درصد برای MDF افزایش یافت. همچنین ظرفیت لنگر خمشی اتصال گوشهای قاب مبلمان زیر بار کششی با افزایش قطر پین، افزایش یافت بهطوری که با افزایش قطر از 6 به 8 و از 8 به 10 میلیمتر، بهترتیب 38 و 19 درصد برای تخته خرده چوب و 19 و 8 درصد برای MDF افزایش یافت. نوع چسب استفاده شده نیز در میزان مقاومت اتصالات تأثیر گذار بود بهطوری که با تغییر نوع چسب از پلیوینل استات به اپوکسی، ظرفیت لنگر خمشی بهترتیب 14 و 47 درصد برای اتصالات ساخته شده با MDF و تخته خرده افزایش یافت. ظرفیت لنگر خمشی اتصال گوشهای قاب مبلمان با تغییر تعداد پین نیز تغییر کرد، بهطوری که با افزایش تعداد پین از یک به دو، ظرفیت لنگر خمشی اتصالات ساخته شده با تخته خرده چوب و MDF بهترتیب 44 و 9 درصد افزایش یافت. | ||
| کلیدواژهها | ||
| پین راش؛ پین کامپوزیتی الیاف شیشه؛ ظرفیت لنگر خمشی؛ قاب مبلمان | ||
| عنوان مقاله [English] | ||
| Investigation of the feasibility of utilizing glass fiber reinforced polymer (gfrp) dowels in the construction of furniture frames subjected to diagonal tension loads | ||
| نویسندگان [English] | ||
| Morteza Amini Asle؛ Mohammad Dahmardeh Ghaleno؛ Mohammad Arabi؛ Saeed Reza Farokhpayam؛ Mohammad Shamsian | ||
| Department of Science and Wood and Paper Industries, Faculty of Natural Resources, University of Zabol, Iran. | ||
| چکیده [English] | ||
| This study investigated the potential of using glass fiber-reinforced polymer (GFRP) dowels instead of beech wood dowels to enhance the connection strength of furniture frames under diagonal tensile loads. Various dowel diameters (6, 8, and 10 mm), along with other variables such as the number of dowels (one or two), adhesive type (PVAc or epoxy), and the materials of the connecting members (particleboard and MDF), were examined. The results showed that replacing beech wood dowels with composite glass fiber rods increased the bending moment capacity under diagonal tensile load by 50% for particleboard and 71% for MDF. Additionally, the bending moment capacity of the corner connection increased with dowel diameter, rising by 38% and 19% for particleboard and by 19% and 8% for MDF when the diameter increased from 6 to 8 mm and from 8 to 10 mm, respectively. The adhesive type also influenced connection strength, with epoxy increasing the bending moment capacity by 14% for MDF and 47% for particleboard compared to PVAc. Furthermore, increasing the number of dowels from one to two raised the bending moment capacity by 44% for particleboard and 9% for MDF. | ||
| کلیدواژهها [English] | ||
| Bending moment capacity, Furniture frame, GFRP dowel, Wooden dowel | ||
| مراجع | ||
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[1] Malkocoglu, A., Yerlikaya, N.Ç. & Cakiroglu, F.L. (2013). Effects of number and distance between dowels of ready-to-assemble furniture on bending moment resistance of corner joints. Wood Research, 58(4), 671-680. [2] Demirci, S., Diler, H., Kasal, A., & ERDİL, Y. (2020). Bending moment resistances of L-shaped furniture frame joints under tension and compression loadings. Wood Research, 65(6), 248-261. [3] Kazemi Najafi, S., Maleki, S., Ebrahimi, G., & Ghofrani, M. (2017). Determination of withdrawal resistance of staple joints constructed with various members of upholstered furniture. Iranian Journal of Wood and Paper Industries, 8(1), 95-108. [4] Rostampour Haftkhani, A., Hajializadeh, F., & Arabi, M. (2022). The effect of spline material, adhesive type, and screw on bending moment capacity of the mitered frame corner joints made of medium-density fiberboard (MDF) under diagonal tension. Forest and Wood Products, 75(2), 169-184. [5] Uysal, M., & Haviarova, E. (2021). Evaluating design of mortise and tenon furniture joints under bending loads by lower tolerance limits. Wood and Fiber Science, 53(2), 78-86. [6] Chen, M., & Lyu, J. (2018). Properties of double dowel joints constructed of Medium Density Fiberboard. Maderas. Ciencia y tecnología, 20(3), 369-380. [7] Georgescu, S., Varodi, A. M., Racasan, S., and Bedelean, B. (2019). Effect of the dowel length, dowel diameter, and adhesive consumption on bending moment capacity of heat-treated wood dowel joints. Bio Resource, 14(3), 6619-6632. [8] Ghofrani, M., & Nori, H. (2009). Lateral holding strength of wooden dowel, screw and ready-to-assemble joints (RTA joints) constructed of Medium Density Fiberboard (MDF). Iranian Journal of Wood and Paper Science Research, 24(2), 219-231. [9] Han, L., Kutnar, A., Sandak, J., Šušteršič, I., & Sandberg, D. (2023). Adhesive-and metal-free assembly techniques for prefabricated multi-layer engineered wood products: A review on wooden connectors. Forests, 14(2), 311-319. [10] Salari, A., Faezipour, M., Karimi, A., Jonoobi, M., & Moradpour, P. (2018). Investigation of the effect of modified poly vinyl acetate on the stress carrying capacity of corner joints in the wood members joined with dowel. Iranian Journal of Wood and Paper Industries, 9(3), 323-336. [11] Rostampour-Haftkhani, A., Sharari, M., Arabi, M., & Hajializadeh, F. (2022). Improvement of the bending moment capacity of mitered MDF frame under diagonal tension by using of the densified poplar dowel. Iranian Journal of Wood and Paper Industries, 12(4), 561-573. [12] Schober, K.U., Harte, A.M., Kliger, R., Jockwer, R., Xu, Q., & Chen, J. F. (2015). FRP reinforcement of timber structures. Construction and Building Materials, 97(4), 106-118. [13] Kasal, B., & Yan, L. (2021). Fiber-reinforced polymers as reinforcement for timber structural elements. In Reinforcement of Timber Elements in Existing Structures: State-of-the-Art Report of the RILEM TC 245-RTE pp. 51-78. Cham: Springer International Publishing. [14] Kılınçarslan, Ş., & Türker, Y.Ş. (2022). Strengthening of solid beam with fiber reinforced polymers. Turkish Journal of Engineering, 7(3), 166-171. [15] Jian, B., Cheng, K., Li, H., Ashraf, M., Zheng, X., Dauletbek, A., ... & Zhou, K. (2022). A review on strengthening of timber beams using fiber reinforced polymers. Journal of Renewable Materials, 10(8), 2073-2098. [16] Yerlikaya, N.C. (2013). Failure load of corner joints, which are reinforced with glass-fiber fabric in case-type furniture. Scientific Research and Essays, 8(8), 325-339. [17] Nurdan, C.Y. (2013). Failure load of corner joints, which are reinforced with glass-fiber fabric in case-type furniture. Scientific Research and Essays, 8(8), 325-339. [18] Yıldırım, M. N., Tor, Ö., & Karaman, A. (2018). The bending moment resistance of corner joints reinforced with glass fiber polymer. Kastamonu University Journal of Forestry Faculty, 18(3): 350-356. [19] Zor, M., & Kartal, M. E. (2020). Finite element modeling of fiber reinforced polymer-based wood composites used in furniture construction considering semi-rigid connections. Drvna Industrija, 71(4), 339-345. [20] Karaman, A., & Yıldırım, M. N. (2021). Effects of wood species of the dowels and fiber woven fabric types on bending moment resistance of l-shaped joints. Wood Industry and Engineering, 3(2), 12-22. [21] Dalvand, M., Ebrahimi, G., & Pourtahmasi, K. (2022). Reinforcement of joints between LVL members with GFRP and finite element analysis. Drvna industrija, 73(1), 47-57. [22] Toumpanaki, E., & Ramage, M. (2019). Bond performance of glued-in CFRP and GFRP rods in timber. In International Network on Timber Engineering Research: Meeting, 51, 177-194. Timber Scientific Publishing. [23] He, Z. W., Chen, C. Q., Shan, B., & Xiao, Y. (2021). Pull-out behavior of CFRP bars in glued-in glubam joints. Journal of Composites for Construction, 25(4), 04021036. [24] Zhang, H., Li, H., Dauletbek, A., Lorenzo, R., Corbi, I., & Corbi, O. (2023). Research status of glued-in rods connections in wood structures. Journal of Building Engineering, 65(1), 105782. [25] Saribiyik, M., & Akgül, T. (2010). GFRP bar element to strengthen timber connection systems. Scientific Research and Essays, 5(13), 1713-1719. [26] De Almeida, A.C., & de Melo Moura, J.D. (2022). Mechanical behavior of GFRP dowel connections to cross laminated timber-CLT panels. Forests, 13(2), 320-328. [27] Vodiannikov, M.A., & Kashevarova, G.G. (2017). Analysis of wood structure connections using cylindrical steel and carbon fiber dowel pins. In IOP conference series: Materials Science and Engineering, 25(1), 12031. | ||
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آمار تعداد مشاهده مقاله: 94 تعداد دریافت فایل اصل مقاله: 55 |
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