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    • 1. 发明公开
    • HEAT EXCHANGER MADE FROM ALUMINUM ALLOY, AND PROCESS FOR PRODUCTION OF COOLANT PASSAGE TUBE FOR USE IN THE HEAT EXCHANGER
    • WÄRMETAUSCHERAUS EINER ALUMINIUMIERGIERUNG SOWIE VERFAHREN ZUR HERSTELLUNG VONKÜHLUNGSDURCHGANGSRÖHRENZUR VERWENDUNG DEMWÄRMETAUSCHER
    • EP2447662A4
    • 2017-07-05
    • EP10792045
    • 2010-06-21
    • SUMITOMO LIGHT METAL IND
    • YAMASHITA NAOKIITOH YASUNAGAHISATOMI YUJI
    • F28F21/08B21D53/06B23K35/28B23K35/36B23K35/362B23K101/14C22C21/00C22C21/02C22C21/10C22C21/14F28D21/00F28F1/00F28F19/02F28F19/06
    • B21D53/06B23K35/282B23K35/3607B23K35/362B23K2201/14C22C21/00C22C21/02C22C21/10C22C21/14F28D2021/0084F28D2021/0085F28F1/00F28F19/02F28F19/06F28F21/084F28F2275/04
    • An aluminum alloy heat exchanger is produced by applying a coating material that is prepared by adding a binder to a mixture of an Si powder and a Zn-containing compound flux powder to a surface of an aluminum alloy refrigerant tube, assembling a bare fin that is formed of an Al-Mn-Zn alloy with the refrigerant tube, and brazing the refrigerant tube and the bare fin by heating in an atmosphere-controlled furnace, the refrigerant tube being an extruded product of an aluminum alloy that comprises 0.5 to 1.7% (mass%, hereinafter the same) of Mn, less than 0.10% of Cu, and less than 0.10% of Si, with the balance being Al and unavoidable impurities, a mixing ratio of the Si powder to the Zn-containing compound flux powder being 10:90 to 40:60, the binder being added in an amount of 5 to 40% based on the total amount of the coating material, the coating material being applied to an outer surface of the refrigerant tube so that the total amount of the Si powder and the Zn-containing compound flux powder is 5 to 30 g/m 2 , the surface of the refrigerant tube subjected to brazing having a potential lower than that of an area of the refrigerant tube that is deeper than a diffusion depth of Si and Zn by 20 to 200 mV, and a potential of the fin being lower than that of a deep area of the refrigerant tube.
    • 铝合金热交换器通过将通过向Si粉末和含Zn化合物熔剂粉末的混合物中添加粘合剂而制备的涂料涂覆到铝合金制冷剂管的表面上来制造, 由Al-Mn-Zn合金与所述制冷剂管形成,并且通过在气氛控制炉中加热来钎焊所述制冷剂管和所述裸露翅片,所述制冷剂管是铝合金的挤压产品,所述铝合金包含0.5至1.7% 质量%,以下相同),Cu:不足0.10%,Si:不足0.10%,其余为Al和不可避免的杂质,Si粉末与含有Zn的化合物熔剂粉末的混合比例为 10:90至40:60,粘合剂以涂层材料总量的5至40%的量加入,所述涂层材料施加至制冷剂管的外表面,使得所述涂层材料的总量 Si粉末和含Zn化合物 熔剂粉末为5〜30g / m 2,钎焊的制冷剂管表面的电位比比Si和Zn的扩散深度深20〜200mV的制冷剂管的表面的电位低, 并且翅片的电势低于制冷剂管的深部区域的电势。