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    • 1. 发明授权
    • Biodegradable resin container with a vacuum-evaporated film and method of forming a vacuum-evaporated film
    • 具有真空蒸发膜的可生物降解树脂容器和形成真空蒸发膜的方法
    • US08950614B2
    • 2015-02-10
    • US12668575
    • 2008-07-23
    • Takurou ItoHiroki MoriKazuhiko Yamazaki
    • Takurou ItoHiroki MoriKazuhiko Yamazaki
    • B65D1/40B65D23/02B05D1/00B05D7/22B65D65/46C23C16/50B05D7/00
    • B65D23/02B05D1/62B05D7/227B05D7/52B65D65/466C23C16/50Y02W90/13
    • A biodegradable resin bottle having a container wall (1) including a biodegradable resin and having a vacuum-evaporated film (3) formed on the inner surface of the container wall (1) by a plasma CVD method. The vacuum-evaporated film (3) includes a first hydrocarbon vacuum-evaporated layer (3a) positioned on the inner surface of the container wall and a second hydrocarbon vacuum-evaporated layer (3b) formed on the above hydrocarbon vacuum-evaporated layer (3a). The first hydrocarbon vacuum-evaporated layer (3a) has polar groups introduced therein. The second hydrocarbon vacuum-evaporated layer (3b) exhibits hydrocarbon peaks stemming from CH, CH2 and CH3 in a region of wave numbers of 3200 to 2600 cm−1 as measured by FT-IR, has a CH2 ratio of not larger than 35% and a CH3 ratio of not smaller than 40% per the sum of CH, CH2 and CH3 calculated from the hydrocarbon peaks, and has no polar group introduced therein.
    • 一种具有容器壁(1)的生物降解性树脂瓶,其具有生物降解性树脂,并且通过等离子体CVD法形成在容器壁(1)的内表面上的真空蒸镀膜(3)。 真空蒸发膜(3)包括位于容器壁的内表面上的第一烃真空蒸发层(3a)和形成在上述烃真空蒸发层(3a)上的第二烃真空蒸发层(3b) )。 第一烃真空蒸发层(3a)具有引入其中的极性基团。 第二烃真空蒸发层(3b)表现出通过FT-IR测量的波数为3200至2600cm -1的区域中由CH,CH 2和CH 3产生的烃峰,其CH 2比率不大于35% 并且由烃峰计算出的CH,CH 2和CH 3之和的CH 3比率不小于40%,并且没有引入极性基团。
    • 2. 发明申请
    • DRAINAGE STRUCTURE OF CORRUGATED FIN-TYPE HEAT EXCHANGER
    • 腐蚀性微型热交换器的排水结构
    • US20120272677A1
    • 2012-11-01
    • US13257230
    • 2010-03-08
    • Masayuki FurumakiTakeshi YoshidaKazuhiko Yamazaki
    • Masayuki FurumakiTakeshi YoshidaKazuhiko Yamazaki
    • F25D21/14F28F1/30
    • F28F17/005F28D1/05383F28F1/022F28F1/128
    • To achieve a sufficient drainage of condensed water (dew water) adhering to a surface to suppress an adverse effect on an airflow resistance and a heat exchange efficiency, even in a case where heat exchange tubes are arranged horizontally, provided is a drain structure for a corrugated fin-type heat exchanger (1), the corrugated fin-type heat exchanger (1) being constituted by arranging a plurality of flat heat exchange tubes (3) parallel to one another in a horizontal direction between a pair of opposing header pipes (2a, 2b), and joining corrugated fins (4) between the plurality of flat heat exchange tubes (3), the drain structure including a plurality of water flow passages (10) for inducing water retained between the corrugated fins (4) adjacent to an upper side and a lower side of each of the plurality of flat heat exchange tubes (3), the plurality of water flow passages (10) being formed on an outer end surface of the each of the plurality of flat heat exchange tubes (3) in a width direction thereof at a pitch along a longitudinal direction of the each of the plurality of flat heat exchange tubes (3).
    • 为了实现附着在表面上的冷凝水(露水)的充分排出,以抑制对气流阻力和热交换效率的不利影响,即使在热交换管水平配置的情况下,设置有用于 波纹翅片型热交换器(1),波纹翅片式热交换器(1)通过在一对相对的总管(水平方向)之间沿水平方向彼此平行布置多个扁平的热交换管(3)而构成, 在多个扁平换热管(3)之间连接波纹状散热片(4),排水结构包括多个水流通道(10),用于引导保持在相邻的波纹状散热片(4)之间的水 多个扁平换热管(3)的上侧和下侧,多个水流通道(10)形成在多个扁平换热管(3)中的每一个的外端表面上 )在一个wi 其沿第一方向沿着多个扁平换热管(3)中的每一个的长度方向的间距。
    • 5. 发明授权
    • Process for priming aluminum materials and primers
    • 铝材料和底漆的引发方法
    • US06653384B1
    • 2003-11-25
    • US09512220
    • 2000-02-24
    • Toru IshiiKazuhiko Yamazaki
    • Toru IshiiKazuhiko Yamazaki
    • C08K503
    • C23C22/361C08K5/053C23C22/36C08L33/02
    • This invention relates to a process for priming an aluminum material by applying a primer containing the nitrate or related compound of a metal selected from aluminum, zirconium, cerium, chromium, and iron to the surface of the aluminum material so that the amount of adhering metal becomes 1.0 mM/m2 or more and baking the primer, and also relates to a primer for an aluminum material containing water-soluble acrylic acid-based polymers in the range of 3.5 to 22.5 g/l as solids concentration, the nitrate or related compound of a metal selected from aluminum, zirconium, cerium, and iron in the range of 30 to 500 g/l, a hydrofluoric acid-based compound in the range of 1.0 to 5.0 g/l as elemental fluorine, and an organic reducing agent in the range of 5 to 30 g/l. This invention makes it possible to apply a primer to the surface of an aluminum material with excellent corrosion resistance.
    • 本发明涉及通过将含有选自铝,锆,铈,铬和铁的金属的硝酸盐或相关化合物的底漆施加到铝材料的表面来引发铝材料的方法,使得附着金属的量 成为1.0mM / m 2以上并烘烤底漆,还涉及含有3.5〜22.5g / l水溶性丙烯酸系聚合物的铝材的底漆,固体浓度为硝酸盐 或选自铝,锆,铈和铁的金属的相关化合物的范围为30〜500g / l,作为元素氟的1.0〜5.0g / l的氢氟酸系化合物和有机 还原剂的范围为5〜30g / l。 本发明使得可以在具有优异耐腐蚀性的铝材的表面上涂布底漆。