Raymor Industries Inc./World's Unique Plasma Process for Single-Walled Carbon Nanotube 'C-SWNT' Production: A Green Technology in Response to the Kyoto Protocol.MONTREAL -- Raymor Industries Inc. (TSX TSX Toronto Stock Exchange (TSE before April, 2002) TSX Transfer from Stack Pointer to Index TSX True Space Extension VENTURE:RAR RAR Retinoic Acid Receptor RAR Resource Adapter Archive (J2EE) RAR Royal Australian Regiment RAR Risk Assessment Report RAR Roshal Archive (WinRAR compressed file format; file extension) ) is proud to announce the signing of an agreement with the Institut National de la Recherche Scientifique The Institut national de la recherche scientifique (French, National Institute of Scientific Research) is the research-oriented branch of Université du Québec. INRS conducts research in four broad sectors: water, earth and the environment; energy, materials and (INRS INRS Institut National de la Recherché Scientifique INRS Institut National de la Recherche et de la Sécurité (French National Research and Safety Institute) INRS It's Not Rocket Science (slang and also a web site) ), whereby Raymor has acquired the exclusive worldwide rights for the commercialization of a new technology for the production of single-walled carbon nanotubes (C-SWNT), based on a plasma process, unique in the world. This process is 25 times more efficient, less dangerous, and less costly than any other existing technologies in the world. Environmentally, this process is non-polluting (green technology) and helps Canada meets its commitments with respect to the Kyoto Protocol Kyoto Protocol: see global warming. . BCC (Blind Carbon Copy) The field in an e-mail header that names additional recipients for the message. It is similar to carbon copy (cc), but the names do not appear in the recipient's message. Not all e-mail systems support the bcc feature. See fcc. Research estimates that global sales of carbon nanotubes will reach US$231.5 million in 2006, with an average annual growth rate of 173% over the next 5 years. Raymor plans to increase its current C-SWNT production capacity by using larger power plasma torches already installed at its plant. The minimum revenue forecasted for the next 12 months is CDN (Content Delivery Network) A system of distributed content on a large intranet or the public Internet in which copies of content are replicated and cached throughout the network. $1.0 million, with CDN$5.0 million in 24 months, and CDN$10 million in 36 months. As well, revenues may dramatically increase with increased available capacity from the production units actually in place. The capacity installed in the plant will allow for a production rate in the order of 10,000 grams/day in the next 12 months. Also, Raymor will use a large portion of its production to develop future applications with targeted strategic partners. Presently, the market price of C-SWNT fluctuates around US$500/gram. This elevated price is primarily due to the very high production costs of the processes used by the competition for the production of similar quality C-SWNT. Given the very high efficiency of the Raymor process, the company anticipates offering its C-SWNT at more reasonable prices, while grabbing a large portion of the global market. The lower price and higher availability will facilitate the rapid integration of C-SWNT in a large number of future applications. Raymor's unique process uses a plasma torch to produce large quantities of high quality C-SWNT based on methane gas as the raw material. These nanotubes (C-SWNT) are 100 times stronger than steel at 1/6 th the weight, are able to withstand high temperatures, and are extremely conductive. C-SWNT can be used for countless technology innovations, such as chemical sensors, structural reinforcement, electrical sensors, fuel cells, portable X-ray machines, extremely lightweight and strong fabrics, artificial muscles and lightweight components of cars and spacecraft, as well as a multitude of other applications. This revolutionary process is highly sustainable because it uses methane, a greenhouse gas greenhouse gas n. Any of the atmospheric gases that contribute to the greenhouse effect. greenhouse gas abundantly available worldwide, and it produces C-SWNT and hydrogen. Hydrogen is a secure emission-free fuel for heat and electricity production or even next-generation vehicles. It is important to note that the destruction of methane enables Raymor to support Canada's efforts in meeting its commitment to the Kyoto Protocol. In comparison with the Raymor process, the three other known processes used by competitors for single-walled nanotube A carbon molecule that resembles a cylinder made out of chicken wire one to two nanometers in diameter by any number of millimeters in length. Accidentally discovered by a Japanese researcher at NEC in 1990 while making Buckyballs, they have potential use in many applications. production (C-SWNT) have a low production efficiency, a high operating cost, and/or use a dangerous combination of high pressure, high temperature and toxic carbon monoxide carbon monoxide, chemical compound, CO, a colorless, odorless, tasteless, extremely poisonous gas that is less dense than air under ordinary conditions. It is very slightly soluble in water and burns in air with a characteristic blue flame, producing carbon dioxide; (CO). "There is no question that single-walled carbon nanotubes will have enormous impact on our lives. This new process makes it easier and safer to produce the high quality nanotubes needed for breakthrough technologies," said Stephane Robert, President of Raymor Industries Inc. "Manufacturers around the world are looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. sustainable and efficient ways to incorporate nanotechnology into their products. We've brought them one step closer with this Raymor process," adds Mr. Robert. Scientific breakthrough has been developed at the INRS-EMT (Montreal) The development of Raymor's process started in 1999. A proof of concept of the process was conducted in 2000. From that point, it took five years to optimize the process, and ready it for large-scale production. "We've waited a long time to see our innovation enter real-world production and, thanks to Raymor, we are happy that manufacturers around the world will benefit from the extraordinary properties of single-walled carbon nanotubes, produced using an efficient and environmentally-friendly process," said Dr. Barry Stansfield from INRS. RAYMOR INDUSTRIES INC. (TSX-V:RAR) has for mission to be the largest Canadian developer of high technology and a producer/recycler of advanced materials Advanced Materials is a leading peer-reviewed materials science journal published every two weeks. Advanced Materials includes Communications, Reviews, and Feature Articles from the cutting edge of materials science, including topics in chemistry, physics, and nanomaterials for high value-added applications. In November 2004, Raymor Industries created a wholly-owned, industrial subsidiary, AP&C Advanced Powders and Coatings, specializing in nanotechnology and advanced materials, and comprising four operational divisions: (1) nanotechnology products, including nano-powders, nano-coatings, and single-walled carbon nanotubes (C-SWNT) for "the applications of tomorrow"; (2) metal and ceramic coatings, which largely targets aerospace, military, and mining applications; (3) spherical metallic powders, primarily used for biomedical bi·o·med·i·cal adj. 1. Of or relating to biomedicine. 2. Of, relating to, or involving biological, medical, and physical sciences. and aerospace applications; and (4) net-shape forming, a component manufacturing technique used for ballistic protection and other aerospace and military applications. Raymor holds the exclusive rights to more than 21 patents throughout the world, with other patents pending. ON BEHALF OF THE BOARD OF DIRECTORS Stephane Robert, President. FOR MORE INFORMATION ON INRS, PLEASE VISIT THE FOLLOWING SITE: www.emt.inrs.ca FOR MORE INFORMATION ON NANOTECHNOLOGY AND ITS POTENTIAL, PLEASE VISIT THE FOLLOWING SITE: www.nanoquebec.ca The TSX Venture Exchange TSX Venture Exchange Originally called the Canadian Venture Exchange (CDNX), this was a result of the merger of the Vancouver and Alberta stock exchanges. The goal of TSX Venture Exchange is to provide venture companies with effective access to capital while protecting investors. does not accept responsibility for the adequacy or accuracy of this release. RAYMOR INDUSTRIES INC. (TSX VENTURE:RAR) |
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