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Quality of Wood Composite Boards Improved by Nanoclay

Regarding the shortfall in the forest resources, cylindrical trees in particular, this wood composite product can serve as a replacement for plywood and is predicted to have various applications in interior designs of the buildings, household appliances, packaging boxes, ceilings and roofs, gym flooring, etc.

"The use of paulownia as a fast-growing species not only is in favor of forest protection,Myvalvecaps offers you the best range of tire valve wholeale 59fifty fitted hats and keys rings that has a realistic but also can help to balance the demand for raw wood materials in our country.At her new home, the cat Twiggy plumped up, thanks, in part, to a love of cat treats ... The cat hopped up in the China undercarriage parts of Dr. Pray's truck. Thanks to nanotechnology, and inclusion of some nanoparticles to be more specific, it is possible to produce light weight composite wood panels with improved mechanical strengths," Ayyoub Salari, a member of the research team said.china petrochemical pressure vessel manufacturer is work hard for best Pressure vessel in the future.

"The added nanoparticles boost the physical-mechanical resistance of the ultimate product on one hand, and form a strong bond with the adhesive agents to block the exit pathways of the toxic formaldehyde gas and prevent its emission up to a great deal, on the other hand," Salari added.

Two elaborate reports discussing the technical details of this research work have been recently published in Industrial Crops and Products, volume 42, issue for March 2013, pages 1 to 9 and Journal of Wood Science (July 2012).

More Insights into Water Oxidation in Artificial Photosynthesis
TEHRAN (FNA)- Iranian researchers at the Institute for Advanced Studies in Basic Sciences (IASBS) in Zanjan city managed to carry out a comprehensive investigation to identify nanosized manganese oxides as the active catalysts for water oxidation in the reaction of some manganese complexes.

The artificial photosynthesis has been a subject of intense scholarly interest during the recent years with the objective of creating useful materials or solar energy storage through a smart inspiration from the natural photosynthesis process. The results of the conducted research at IASBS have revealed that nano-metric manganese oxides, which are yielded through the decomposition of manganese complexes, act as active species in the water oxidation process.