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Tytuł artykułu

Optimal design of a furniture frame by reducing the volume of wood

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of this study is to optimize the volume of a furniture frame to make it lighter, while still meeting the same load requirements. The finite element method (FEM) and MATLAB nonlinear programming were utilized for the optimization. A beech stool frame was taken as an example. First, the finite element model was set up and analyzed to obtain the internal forces of the stool frame, and the internal forces were investigated to obtain the maximum critical forces in each type of member. Then constraints were obtained to determine the limitations for minimizing the volume of the stool frame, which was defined as the objective function subject to constraints. Finally, the objective function and constraints were programmed and solved using MATLAB software, and as a result the minimum volume and dimensions of members were determined. An experimental test was conducted to determine whether the optimized stool was strong enough to carry the same loads. The results showed the optimized stool to be 58% lighter than the non-optimized version, while also satisfying the requirements of GB 10357-3. In conclusion, the method is suitable for the optimization of a furniture frame, making it lighter and reducing the manufacturer’s material costs.
Rocznik
Strony
85--97
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
  • Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, Nanjing Forestry University, Nanjing, China
autor
  • Co-Innovation Center of Efficient Processing and Utilization of Forest Resources, Nanjing Forestry University, Nanjing, China
autor
  • College of Furnishings and Industrial Design, Nanjing Forestry University (all authors from the same institution), Nanjing, China
Bibliografia
  • Aydin T.Y., Ergün G. [2016]: Finite element (FE) analysis of chair frames constructed with Turkish red pine (Pinus brutia Ten.). 1st International Mediterranean Science and Engineering Congress (IMSEC), 26-28 October 2016, Adana, Turkey: 2043-2049
  • Derikvand M., Smadzewski J., Ebrahimi G., Dalvand M., Maleki S. [2013]: Withdrawal force capacity of mortise and loose tenon T-type furniture joints. Turkish Journal of Agriculture and Forestry 37: 377-384
  • Derikvand M., Ebrahimi G., Eckelman C.A. [2014]: Bending moment capacity of mortise and loose-tenon joints. Wood and Fiber Science 46 [2]: 1-8
  • Ekelman C.A. [1966]: A look at the strength design of furniture. Forest Products Journal 16 [3]: 21-24
  • Eckelman C.A., Suddarth S.K. [1969]: Analysis and design of furniture frame. Wood Science and Technology 3 [3]: 239-255
  • GB 10357-3:1989 Paper - Test of mechanical properties of furniture strength and durability of chairs and stools
  • Guray E., Kasal A., Erdil Y.Z., Acar M. [2015]: Determination of the minimum weight of furniture frames with subjected to required strength constraints. Proceedings of the 27th International Conference Research for Furniture Industry, 17-18 September 2015. Gazi University. Ankara in Turkey
  • Gustafsson S.I. [1997]: Optimizing ash wood chairs. Wood Science and Technology 31 [4]: 291-301
  • Hu W.G., Guan H.Y. [2017a]: Study on elastic constants of beech in different stress states. Journal of Forestry Engineering 2 [6]: 31-36. In Chinese with summary in English
  • Hu W.G., Guan H.Y. [2017b]: Investigation on withdrawal capacity of mortise and tenon joint based on friction properties. Journal of Forestry Engineering 2 [4]:158-162. In Chinese with summary in English
  • Hu H., Yang J., Wang F.L., Zhang Y.M. [2018a]: Mechanical properties of bolted joints in prefabricated round bamboo structures. Journal of Forestry Engineering 3 [5]: 128-135. In Chinese with summary in English
  • Hu W.G., Fu W.L., Guan H.Y. [2018b]: Optimal design of stretchers positions of mortise and tenon joint chair. Wood Research 63 [3]: 505-516
  • Jansna H., Silvana. P., Jordan B., Milan S., Anton Z., Lenon O., Sergej M. [2013]: Strength comparison of joints at window frames. Drewno 56 [189]: 127-235
  • Pakarinen T., Asikainen A. [2001]: Consumer segments for wooden household furniture. European Journal of Wood and Wood Products 59 [3]: 217-227
  • Que Z.L., Gao Y.F., Ge X.Y. [2017]: A review of the research of wood girder truss. Journal of Forestry Engineering 2 [2]: 138-144
  • Smardzewski J., Gawroński T. [2001]: FEM algorithm for chair optimization. Electronic Journal of Polish Agriculture Universities. Wood Technology 4 [2]. Available from: http://www.ejpau.media.pl/volume4/issue2/wood/art-01.html
  • Smardzewski J., Gawroński T. [2003]: Gradient Optimization of Skeleton Furniture with Different Connections. Electronic Journal of Polish Agricultural Universities, Wood Technology 6 [1]. Available from: http://www.ejpau.media.pl/articles/volume6/issue1wood/art-01.pdf
  • List of standards
  • ASTM D 4442-92:2001 Paper – Standard test methods for direct moisture content measurement of wood and wood-base materials
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3cd62d0a-cf39-4512-ab0b-19c01821bb10
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