Development of characteristic value of bending strength properties for selected Malaysian tropical hardwood timber in accordance with Eurocode 5 / Adnie Baharin
Timber structural design in Malaysia is still making reference to Malaysia Standard MS 544: Part 2 and MS 544: Part 3, which are based on permissible (working) stress and the strength data such as bending, compression and tensile strength in those standards were derived from data obtained from te...
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| Main Author: | |
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| Format: | Thesis |
| Language: | English |
| Published: |
2020
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| Subjects: | |
| Online Access: | https://ir.uitm.edu.my/id/eprint/60970/1/60970.pdf |
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| Summary: | Timber structural design in Malaysia is still making reference to Malaysia Standard MS 544:
Part 2 and MS 544: Part 3, which are based on permissible (working) stress and the strength
data such as bending, compression and tensile strength in those standards were derived from
data obtained from testing small clear specimens. However, there is some weaknesses arise as
the data derived from the small clear specimen is not represents the true strength properties
and imposed to inaccuracies when it comes to design the structural size timber that are surely
contain some defects. This issues lead to the insecurity of the engineers to widely use the
timber material safely in construction industries. The introduction of the limit states code
principles of Eurocode 5: Design of Timber Structures presents opportunities for engineers to
optimize the design of timber structures and get the best out of the material. However the
reference strength data expressed as characteristic values which provided in EN 338: 2016 are
based on European softwood and a few of hardwood species with none from Malaysian
hardwood timber. Those values were derived from the strength data of structural size
specimens. Therefore, there is a need to establish the strength data from structural size
specimens from Malaysian Tropical Hardwood timber if the design needs to be changed into
limit state design as in Eurocode 5. The aims of this study are to determine the bending strength
properties, to evaluate the characteristic value for bending strength properties to form strength
class for selected Malaysian hardwood timber based on the EN 384:2016 and BS EN 338:2016
and to develop correlation based on small clear specimens and structural size specimen. In this
study, there are 10 timber species were selected namely Balau, Kempas, Kelat, Resak, Kapur,
Keruing, Mengkulang, Light red meranti, Geronggang and Acacia. All of these species were
tested in structural size and small clear specimen according to EN 408: 2010 and BS 373:1957
respectively. There were in total 3225 specimens tested. The outcome of this study reveals that
the bending strength characteristic value results is in the order of Balau (55.2 N/mm2), Kempas
(49.7 N/mm2), Resak (49.5 N/mm2), Mengkulang (47.6 N/mm2), Kapur (46.8 N/mm2),
Keruing (44.9 N/mm2), Kelat (44.7 N/mm2), Light red meranti (26.1 N/mm2) and Geronggang
(21.9 N/mm2). In order to fit the strength classes system there are a lot of sacrifices needed in
term of reducing the strength, modulus of elasticity and density. The strength are reduces
compared to the actual strength such as Mengkuang and Light red meranti from strength 47.6
N/mm2 and 26.1 N/mm2 to 40 N/mm2 and 20 N/mm2 respectively. The highest strength class
are placed in DM55 which is Balau and the lowest are placed in C20 which is Light Red
Meranti. The strength class shows upgrades for Balau and downgrades for Kempas, Kapur and
Keruing compared to the strength classes published in EN338:2016. From the derivation of
strength class a new equation to determine characteristic MOE, Ek = 0.70Emean and mean
density, ρmean = 1.0899ρk + 104.41 were establish. Through the correlation of mean bending
strength small clear and characteristic value of structural size specimens, the equation to
determine characteristic value for density ranging between 900 kg/m3 to 1000 kg/m3 is fk =
0.48x × 0.8. |
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