Study on Strength and Stiffness of Meranti Wood Truss with Plywood Gusset Plate Connection and Lag Screw Fastener

https://doi.org/10.22146/jcef.30230

Naomi Pratiwi(1*), Johannes Adhijoso Tjondro(2)

(1) Civil Engineering Study Program, Faculty of Engineering, Parahyangan Catholic University
(2) Civil Engineering Study Program, Faculty of Engineering,Parahyangan Catholic University
(*) Corresponding Author

Abstract


Wooden truss could be one of the options to be used as structural element in both in building and bridge. Wooden truss overcomes the limitation of timber with great dimension with necessary strength. In this study, the wooden truss was designed with Meranti wood type with elasticity modulus of 10,520 MPa and specific gravity of 0.8. The timber used has cross-section size of 45 mm × 45 mm, with truss frame span of 2,445mm and height of 400 mm. The connection between the timbers was using 18 mm thick plywood with 6 mm lag screw fastener. The destructive testing that was conducted on 3 test samples showed a result that the strength of the truss was at an ultimate load of 31,042 N with a ductility ratio of 5.61. Numerical study of the truss’ stiffness with this connection model resulted in stiffness degree value of 0.94. 


Keywords


Wooden truss, lag screw, plywood gusset plate, ultimate load, stiffness degree

Full Text:

PDF


References

Aghayere, A., 2007. Structural Wood Design A Practice-Oriented Approach Using the ASD Method. 1 ed. Hoboken, New Jersey: John Willey and Sons.

American Society for Testing and Materials, 2008. ASTM D2395-02: Standard Methods of Specific Gravity of Wood and Wood-Based Materials. Annual Book of ASTM Standards volume 04.10 ed. Baltimore: American Society for Testing and Materials;.

Romstad & Subramanian, 1970. Non-Linier Static and Cyclic Analysis of Steel Frames With Semi-Rigid Connection. Oxford: Elsevier Ltd.

Sagara, A., Tjondro, J. A. & Shiddiq, H. A., 2017. Experimental study on strength and stiffness connection of wooden truss structure. Palembang, EDP Sciences, MATEC Web of Conferences.

Somayaji, S., 1990. Structural Wood Design. 1 ed. St. Paul: West Publishing Company.

Stalnaker, J. J. & Harris, E. C., 1997. Structural Design in Wood. 2 ed. New York: Chapman & Hall.

Standar Nasional Indonesia, 2013. Spesifikasi Desain untuk Konstruksi Kayu. SNI 7973:2013 ed. Jakarta: Badan Standar Indonesia.

Williamson, T. G., 2002. APA Engineered Wood Handbook. 1 ed. New York: McGraw-Hill.



DOI: https://doi.org/10.22146/jcef.30230

Article Metrics

Abstract views : 2563 | views : 3088

Refbacks

  • There are currently no refbacks.




Copyright (c) 2022 The Author(s)


The content of this website is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
ISSN 5249-5925 (online) | ISSN 2581-1037 (print)
Jl. Grafika No.2 Kampus UGM, Yogyakarta 55281
Email : jcef.ft@ugm.ac.id
Web Analytics JCEF Stats