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CuproBraze is a copper-alloy heat exchanger technology for harsh temperature and pressure environments such as those in the latest generations of cleaner diesel engines mandated by global environmental regulations.〔Vehicle radiators: Can CuproBraze turn copper into a bona fide contender?; American Metal Market September 2008; http://dl.dropbox.com/u/46572847/Perspectives-radiators.pdf〕〔Partanen, Juho (2011). Hot property: Heat exchangers that optimize product reliability, decrease lifecycle costs and improve profitability are just the ticket for increasing the lifespan and performance of off-highway machinery; Industrial Vehicle Technology; March 2011; http://viewer.zmags.com/services/DownloadPDF〕 The technology, developed by the International Copper Association (ICA), is licensed free of charge to heat exchanger manufacturers around the world. Applications for CuproBraze include charge air coolers, radiators, oil coolers, climate control systems, and heat transfer cores.〔Duensing, Lauren (2006) Develop efficient heat-transfer systems, Modern Metals, March 2006. http://www.cuprobraze.com/pdf/inthenews_moder-metals.pdf〕〔 CuproBraze is particularly suited for charge air coolers and radiators in capital intensive industries where machinery must operate for long periods of time under harsh conditions without premature failures. For these reasons, CuproBraze is being specified for off-road vehicles, trucks, buses, industrial engines, generators, locomotives, and military equipment. The technology is also amenable for light trucks, SUVs and passenger cars with special needs.〔Asia Hot on New Cooling Technology: Cooling Systems: New engine requirements mean manufacturers are changing to copper and brass for cooling systems; Automotive Engineering International, February 2005〕〔〔CuproBraze®: Advanced heat-exchanger technology http://www.cuprobraze.com/pdf/CuproBrazeBrochure.pdf〕 CuproBraze is replacing soldered copper/brass plate fin, soldered copper brass serpentine fin, and brazed aluminium serpentine fin in demanding applications.〔 Aluminium heat exchangers are viable and economical for cars, light trucks, and other light-duty applications. However, they are not amenable for environments characterized by high operating temperatures, humidity, vibration, salty corrosive air, and air pollution. In these environments, the additional tensile strength, durability, and corrosion resistance that CuproBraze provides are useful.〔 The CuproBraze technology uses brazing instead of soldering to join copper and brass radiator components. The heat exchangers are made with anneal-resistant copper and brass alloys. The tubes are fabricated from brass strip and coated with a brazing filler material in form of a powder based paste or an amorphous brazing foil is laid between the tube and fin. There is another method of coating the tube in-line on the tube mill. This is done using the twin wire-arc spray process where the wire is the braze alloy, deposited on the tube as it is being manufactured at 200-400 fpm. This saves one process step of coating the tube later. The coated tubes, along with copper fins, headers and side supports made of brass, are fitted together into a core assembly which is brazed in a furnace.〔Cuprobraze overview: http://www.cuprobraze.com/over_tech.asp〕 The technology enables brazed serpentine fins to be used in copper-brass heat exchanger designs. They are stronger, lighter, more durable, and have tougher joints.〔 ==Performance benefits== CuproBraze radiators have important performance advantages over radiators made with other materials. These include better thermal performance, heat transfer, size, strength, durability, emissions, corrosion resistance, repairability, and antimicrobial benefits. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「CuproBraze」の詳細全文を読む スポンサード リンク
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