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Journal of Materials Science

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02-06-2021 | Composites & nanocomposites

An optional connection material in timber structures: densified poplar

Authors: Bo-Han Xu, Bi-Lin Wang, Kong-Bin Yu, Abdelhamid Bouchaïr

Published in: Journal of Materials Science | Issue 25/2021

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Abstract

The development of eco-friendly connection material instead of steel is a challenging problem in timber structures. Following densification, the mechanical properties of low-density species can be significantly improved. Densified wood may be a potential connection material in timber structures. This paper reviewed the different processing for densified wood, and obtained favorable mechanical properties and dimensional stability based on small specimen sizes, which are much less than the applicable sizes in practice. A densification processing with alkali pretreatment was adopted for poplar widely cultivated in the world to produce the densified poplar, which has been rarely reported as connection material. Various specimens of densified poplar were tested to obtain their main mechanical properties such as strength and deformability. The set recovery of densified poplar was also measured to observe their dimensional stability. In addition, the hygroscopic swelling strains for the diameter of densified poplar dowel were measured to present their moisture-dependent behavior. The improved mechanical properties and dimensional stability confirmed the fact that densified poplar with alkali pretreatment can be an optimal connection material.

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USDA (2010) Wood handbook-wood as an engineering material. USDA forest service, forest products laboratory, general technical report FPL-GTR-190. USDA forest service, forest products laboratory, vol 190, Madison

Sotayo A, Bradley D, Bather M, Sareh P, Oudjene M, El-Houjeyri I, Harte AM, Mehra S, O’Ceallaigh C, Haller P (2020) Review of state of the art of dowel laminated timber members and densified wood materials as sustainable engineered wood products for construction and building applications. Dev Built Environ 1:100004CrossRef

Riggio M, Sandak J, Sandak A (2016) Densified wooden nails for new timber assemblies and restoration works: a pilot research. Constr Build Mater 102:1084–1092CrossRef

Grönquist P, Schnider T, Thoma A, Gramazio F, Kohler M, Burgert I, Rüggeberg M (2019) Investigations on densified beech wood for application as a swelling dowel in timber joints. Holzforschung 73(6):559–568CrossRef

Jung K, Kitamori A, Komatsu K (2008) Evaluation on structural performance of compressed wood as shear dowel. Holzforschung 62(4):461–467CrossRef

Larsson G, Serrano E, Gustafsson PJ, Danielsson H (2020) Dowel design of the shear plate dowel joint. Eng Struct 209:110296CrossRef

El-Houjeyri I, Thi V-D, Oudjene M, Khelifa M, Rogaume Y, Sotayo A, Guan ZW (2019) Experimental investigations on adhesive free laminated oak timber beams and timber-to-timber joints assembled using thermo-mechanically compressed wood dowels. Constr Build Mater 222:288–299CrossRef

Guan ZW, Komatsu K, Jung K, Kitamori A (2010) Structural characteristics of beam-column connections using compressed wood dowels and plates. WCTE 2010-World Conference on timber engineering, Trentino, Italy

Jung K, Kitamori A, Komatsu K (2009) Development of a joint system using a compressed wooden fastener I: evaluation of pull-out and rotation performance for a column-sill joint. J Wood Sci 55(4):273–282CrossRef

10.

Jung K, Kitamori A, Komatsu K (2010) Development of a joint system using a compressed wooden fastener II: evaluation of rotation performance for a column-beam joint. J Wood Sci 56(2):118–126CrossRef

11.

Mehra S, O’Ceallaigh C, Hamid-Lakzaeian F, Guan ZW, Sotayo A, Harte AM (2018) Evaluation of the structural behavior of beam-beam connection systems using compressed wood dowels and plates. WCTE 2018-World Conference on timber engineering, Seoul, Republic of Korea

12.

Chang WS, Nearchou N (2015) Hot-pressed dowels in bonded-in rod timber connections. Wood Fiber Science 47(2):199–208

13.

Jung K, Murakami S, Kitamori A, Chang WS, Komatsu K (2010) Improvement of glued-in-rod joint system using compressed wooden dowel. Holzforschung 64(6):799–804CrossRef

14.

Bao MZ, Huang XA, Jiang ML, Yu WJ, Yu YL (2017) Effect of thermo-hydro-mechanical densification on microstructure and properties of poplar wood (populus tomentosa). J Wood Sci 63(6):591–605CrossRef

15.

Wang JJ, Fishwild SJ, Begel M, Zhu JY (2020) Properties of densified poplar wood through partial delignification with alkali and acid pretreatment. J Mater Sci 55(29):14664–14676. https://doi.org/10.1007/s10853-020-05034-2CrossRef

16.

Fang CH, Mariotti N, Cloutier A, Koubaa A, Blanchet P (2012) Densification of wood veneers by compression combined with heat and steam. Eur J Wood Wood Prod 70(1–3):155–163CrossRef

17.

Taghiyari HR, Rassam G, Ahmadi-DavazdahEmam K (2017) Effects of densification on untreated and nano-aluminum-oxide impregnated poplar wood. J for res 28(2):403–410CrossRef

18.

Pelit H, Budakçı M, Sönmez A (2018) Density and some mechanical properties of densified and heat post-treated Uludağ fir, linden and black poplar woods. Eur J Wood Wood Prod 76(1):79–87CrossRef

19.

Sözbir GD, Bektas I, Ak AK (2019) Influence of combined heat treatment and densification on mechanical properties of poplar wood. Maderas Ciencia y tecnología 21(4):481–492

20.

Song JW, Chen CJ, Zhu SZ, Zhu MW (2018) Processing bulk natural wood into a high-performance structural material. Nature 554(7691):224–228CrossRef

21.

Rautkari L, Properzi M, Pichelin F, Hughes M (2010) Properties and set-recovery of surface densified Norway spruce and European beech. Wood Sci Technol 44(4):679–691CrossRef

22.

Welzbacher C, Wehsener J, Rapp A, Haller P (2008) Thermo-mechanical densification combined with thermal modification of Norway spruce (Picea abies Karst) in industrial scale–dimensional stability and durability aspects. Holz als Roh-und Werkstoff 66(1):39CrossRef

23.

Skyba O, Schwarze F, Niemz P (2009) Physical and mechanical properties of thermo-hygro-mechanically (THM)-densified wood. Wood Res 54(2):1–18

24.

Anshari B, Guan ZW, Kitamori A, Jung K, Hassel I, Komatsu K (2011) Mechanical and moisture-dependent swelling properties of compressed Japanese cedar. Constr Build Mater 25(4):1718–1725CrossRef

25.

Pelit H, Sönmez A, Budakçı M (2014) Effects of ThermoWood® process combined with thermo-mechanical densification on some physical properties of scots pine (Pinus sylvestris L.). BioResources 9(3):4552–4567CrossRef

26.

ASTM D143–14 (2014) Standard test methods for small clear specimens of timber. American Society for Testing and Materials

27.

Jorissen A, Fragiacomo M (2011) General notes on ductility in timber structures. Eng Struct 33:2987–2997CrossRef

28.

Brühl F, Kuhlmanna U, Jorissen A (2011) Consideration of plasticity within the design of timber structures due to connection ductility. Eng Struct 33:3007–3017CrossRef

29.

EN 12512 (2005) Timber structures-test methods-cyclic testing of joints made with mechanical fasteners. European Committee for Standardization

30.

Grekin M, Surini T (2008) Shear strength and perpendicular-to-grain tensile strength of defect-free Scots pine wood from mature stands in Finland and Sweden. Wood Sci Technol 42(1):75–91CrossRef

31.

GB/T 1938 (2009) Method of testing in tensile strength parallel to grain of wood. Chinese National Standardization Management Committee, Beijing

32.

GB/T 1935 (2009) Method of testing in compressive strength parallel to grain of wood. Chinese National Standardization Management Committee, Beijing

33.

Kutnar A, Kamke AF (2012) Influence of temperature and steam environment on set recovery of compressive deformation of wood. Wood Sci Technol 46(5):953–964CrossRef

34.

Moraes PD, Rogaume Y, Triboulot P (2004) Influence of temperature on the modulus of elasticity (MOE) of Pinus sylvestris L. Holzforschung 58(2):143–147CrossRef

35.

Jorissen A (1998) The fastener yield strength in bending. Proceedings of the 31st CIB-W18, Savonlinna, Finland

36.

Manríquez M, Moraes PD (2010) Influence of the temperature on the compression strength parallel to grain of paricá. Constr Build Mater 24(1):99–104CrossRef

Title: An optional connection material in timber structures: densified poplar
Authors: Bo-Han Xu
Bi-Lin Wang
Kong-Bin Yu
Abdelhamid Bouchaïr
Publication date: 02-06-2021
Publisher: Springer US
Published in: Journal of Materials Science / Issue 25/2021
Print ISSN: 0022-2461
Electronic ISSN: 1573-4803
DOI: https://doi.org/10.1007/s10853-021-06194-5

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