The important question is weight. Otherwise this board is strong enough to use on interior walls where moisture is no issue. Those walls include its usage as cladding under waterproofed siding. You do not wish to replace particle board so much as oriented strand board either. I think this may well be good enough and the market is much larger.
At worst you may need to adjust thicknesses.
The critical thing is that this board will resist termites. Throw in metal framing and you are actually good to go. You have a strong structure able to handle gyproc and structural weight and built as we conventionally do.
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Rice husks may find use in cheaper, greener, longer-lasting particleboard
Examples of different types of particleboard made from rice husks
(Credit: UC Riverside)
http://www.gizmag.com/rice-husk-particleboard/37730/
In tropical countries such as the Philippines, there are
plenty of rice husks ... and also plenty of termites. A group of
engineering students from the University of California, Riverside,
recently decided to use the former to address the latter, by creating
termite-resistant particleboard from rice husks.
Ordinarily, particleboard is made from wood chips that
are bonded together using glue. Unfortunately, when used in building
projects and otherwise, termites eat that wood – the same thing applies
to plywood and bamboo.
On the other hand, rice husks contain silica, making
them difficult for termites to consume. They're also a very abundant
resource, often ending up being used as bedding for farm animals. It is
estimated that a 4 x 8-foot (1.2 x 2.4-m) rice husk board would be worth
about US$18, while traditional wood chip boards of the same size
currently sell for around $25.
Another drawback of wood-based particleboard is the fact
that the glue used in its production usually contains formaldehyde,
which emits toxic gases. The students are currently using epoxy, which
can also be harmful. They're looking into addressing the problem by
replacing the epoxy with tannin from plants, or casein protein from
milk.
So far, the tannin rice husk boards are sufficiently
strong but not water-resistant, while the casein boards are
water-resistant but not strong enough. Options include adding a
waterproof coating to the boards, or increasing their strength by also
including shrimp shells and/or rice straw with the husks.
Other possible or current applications for rice husks have encompassed using them as a source of silicon nanoparticles for use in batteries, an ingredient in "green" cement, a component of environmentally-friendly plastic, and a source of greenhouse gas-reducing biochar.
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