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    • 3. 发明授权
    • Treatment process for improving the mechanical, catalytic, chemical, and biological activity of surfaces and articles treated therewith
    • 用于改善用其处理的表面和制品的机械,催化,化学和生物活性的处理方法
    • US07374642B2
    • 2008-05-20
    • US11042150
    • 2005-01-26
    • Arnold H. DeutchmanRobert J. PartykaRobert J. Borel
    • Arnold H. DeutchmanRobert J. PartykaRobert J. Borel
    • C23C14/34C23C16/00
    • C23C14/46
    • A continuous, uninterrupted two-step treatment process capable of forming nanometer scale physical structures on the surface of articles fabricated from metallic, ceramic, glass, or plastic materials, and then depositing a thin conformal coating on the nanostructured surface such that the physical structures previously produced are neither masked nor are the dimensions of the physical structures substantially altered. In an additional embodiment, a thicker coating can be grown from the thin conformal coating which itself can be nanostructured as it is deposited. In this case adhesion of the thicker coating is not dependent upon the use of conventional surface pretreatments such as machining, chemical etching, or abrasive blasting. Surface texturing may be performed by ion beam sputtering, and ion assisted coating forms the thin conformal coating, and thicker coating if desired. The treatment process is useful for improving the mechanical, catalytic, chemical, or biological activity of the surfaces so treated. The process thus has application on industrial machinery and equipment of all types, engines of all types, manufacturing tooling and wear parts of all types, and medical equipment and prostheses.
    • 一种能够在由金属,陶瓷,玻璃或塑料材料制成的制品的表面上形成纳米尺度物理结构的连续不间断的两步处理工艺,然后在纳米结构化表面上沉积薄的共形涂层,使得之前的物理结构 所产生的物质既不被掩蔽也不是物理结构的尺寸基本上改变。 在另外的实施方案中,可以从薄的共形涂层生长较厚的涂层,其本身可以在沉积时被纳米结构化。 在这种情况下,较厚涂层的粘附不依赖于使用常规的表面预处理,例如机械加工,化学蚀刻或喷砂。 表面纹理可以通过离子束溅射进行,并且离子辅助涂层形成薄的共形涂层,如果需要,则形成较厚的涂层。 处理过程对于改善如此处理的表面的机械,催化,化学或生物活性是有用的。 因此,该工艺应用于各类工业机械设备,各类发动机,各种制造工具和各种磨损零件,以及医疗设备和假肢。