In the article, “An
Architect’s Guide to Building with Bamboo”, Chlo Vadot states the advantages of
bamboo and its uses in construction field. He has also included the bamboo growth
and where it grows the most. In addition, the author has mentioned the bamboo’s
characteristics and how it is harvested. Vadot has sited an expert who also emphasises
bamboo usages. The author has mentioned the total number of bamboo species.
First of all, the
article is not very clearly about bamboo full benefits, he just briefly
explains bamboo strength and construction use. In the article, “Environmental,
social and economic sustainability of bamboo and bamboo-based construction
materials in buildings” Rashmi, Kim and Kim (2 May 2019), has further given
explanations the features of bamboo, its workability strength and its actual
uses with examples and other authors
articles to support his explanation.
Secondly, Vadot
has mentioned that bamboo that bamboo can be used in ceilings, there is no
further details about bamboo ceiling designs. In the article, “Environmental,
social and economic sustainability of bamboo and bamboo-based construction
materials in buildings” Rashmi, Kim and Kim (2 May 2019), has listed many
architects with names who uses bamboos intensively in their designs.
Furthermore, Vadot
has mentions that it is hard to create standard code for 1200 species of bamboo.
In the article, “Bamboo based
biocomposites material, design and applications”, Suhaily et al. 2013
explains that there are 1575 different species of bamboo and ranging from woody
to bamboo herd. Out all these, only 20-38 species are suitable for construction
material.
Vadot has mentions
that bamboo helps to reduce carbon. However, there is no further explanation to
it and there is no clarity how bamboo helps environmentally. Bamboo benefits environmentally as it functions
as a material that helps to control the soil erosion, use as a wastewater treatment,
and absorb a huge amount of carbon dioxide. In the article “Environmental
Impact of Guadua Bamboo” Schröder (2012) has further given explanations on the
environment impact of bamboo by providing examples and statistics to support
his explanation.
Lastly, the author has mentions the bamboo is naturally
protected against microorganisms. However, in the article “Studies on
dimensional stability, thermal degradation and termite resistant properties of
bamboo (Bambusa tulda Roxb.) treated with thermosetting resins”, Deka M, Das P
and Saikia C.N, explains that bamboo has to be treated to protect it from
termites that was supported by their experiments.
References
Environmental,
social and economic sustainability of bamboo and bamboo-based construction
materials in buildings. Rashmi Manandhar, Jin-Hee Kim & Jun-Tae Kim,
02 May 2019.
https://www.tandfonline.com/doi/full/10.1080/13467581.2019.1595629
https://scholar.google.com/scholar_lookup?hl=en&publication_year=2013&pages=489-517&author=S.+S.+Suhaily&author=H.+P.+S.+A.+Khalil&author=W.+O.+W.+Nadirah&author=M.+Jawaidauthor=Y.+Mastai&title=Bamboo+Based+Biocomposites+Material%2C+Design+and+Applications
Environmental Impact of
Guadua Bamboo. Stephane Schröder (2012).
https://www.guaduabamboo.com/blog/environmental-impact-of-guadua-bamboo?rq=Environmental%20Impact%20of%20Guadua%20Bamboo
Studies on dimensional stability, thermal degradation and termite
resistant properties of bamboo (Bambusa tulda Roxb.) treated with thermosetting
resins. Deka M, Das P, Saikia C.N (January 2003).
https://www.researchgate.net/publication/233580520_Studies_on_dimensional_stability_thermal_degradation_and_termite_resistant_properties_of_bamboo_Bambusa_tulda_Roxb_treated_with_thermosetting_resins