Synthesis, characterization, and application of nanostructured hard coatings

纳米结构硬质涂层的合成、表征及应用

• 批准号: RGPIN-2015-04861
• 负责人: Yang, Qiaoqin
• 金额: $ 2.19万
• 依托单位: University of Saskatchewan
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2019
• 资助国家: 加拿大
• 起止时间: 2019-01-01 至 2020-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=683653
• 关键词: Synthesis; characterization; application; nanostructured; hard

Components in moving contact with other bodies are subject to wear. Wear is the major failure mechanism limiting the lifetime of various components such as tools, machine parts, and biomedical implants. The world-wide cost due to wear is estimated to be $300 billion per year. Increasing wear resistance is the key to improving the durability and cost effectiveness of various components. Surface coating is an important technology for reducing wear and extending performance of components. The long-term goal of the research program is to develop technologies and design methods to engineer surface coatings at the nanometer scale on technologically important materials to achieve desired properties (e.g. high wear resistance and excellent biocompatibility) for various applications. During the course of this research proposal, progress will made towards long-term goal by focusing on developing technologies to address important challenges in the area of nanocoatings and solve critical problems for some applications. One major theme is to synthesize novel nanocomposite coatings and understand their basic aspects, thus generating new knowledge in the area of nanostructured materials. Another main theme is to discover and develop innovative applications of the developed coatings that benefit Canadians.***Particularly, the research will focus on the creation, development, and application of novel nanostructured coatings for advanced machine parts, actuators, electron emitters, and biomedical implants with a menu of targeted desirable qualities. These qualities will be imparted by using suitable nanostructures in the coatings. It will lead to important contributions to both fundamental understanding of advanced nanomaterials and their applications. First, it will contribute significantly to enhancing the capacity for nanomaterials synthesis and application in Canada. Second, efforts to develop procedures and expertise to synthesize and characterize diamond-based nanostructured coatings and evaluate their biomedical and tribological performance will lead to a better understanding of the basic scientific issues related to nanomaterials and the interaction between implants and human tissues. In addition, the research aims to develop and investigate new nanostructured composite coatings, generating new knowledge in the area of nanostructured materials. Finally, the research will provide excellent opportunities for training highly qualified personnel with integrated knowledge in physics, chemistry, electronics, and data analysis as well as materials science and engineering.********

与其他物体运动接触的部件会受到磨损。磨损是限制工具、机器零件和生物医学植入物等各种部件寿命的主要失效机制。全球每年因磨损造成的损失估计为 3000 亿美元。提高耐磨性是提高各种部件的耐用性和成本效益的关键。表面涂层是减少磨损和提高部件性能的重要技术。该研究计划的长期目标是开发技术和设计方法，在技术上重要的材料上设计纳米级的表面涂层，以实现各种应用所需的性能（例如高耐磨性和出色的生物相容性）。在本研究计划的过程中，将通过专注于开发技术来解决纳米涂层领域的重要挑战并解决某些应用的关键问题，从而在实现长期目标方面取得进展。一个主要主题是合成新型纳米复合涂层并了解其基本方面，从而产生纳米结构材料领域的新知识。另一个主题是发现和开发造福加拿大人的已开发涂层的创新应用。***特别是，该研究将重点关注用于先进机器零件、执行器、电子发射器和具有一系列目标理想品质的生物医学植入物。这些品质将通过在涂层中使用合适的纳米结构来赋予。它将对先进纳米材料及其应用的基本理解做出重要贡献。首先，它将为提高加拿大纳米材料合成和应用能力做出重大贡献。其次，努力开发合成和表征金刚石基纳米结构涂层的程序和专业知识，并评估其生物医学和摩擦学性能，这将有助于更好地理解与纳米材料以及植入物和人体组织之间的相互作用相关的基本科学问题。此外，该研究旨在开发和研究新型纳米结构复合涂层，产生纳米结构材料领域的新知识。最后，该研究将为培养具有物理、化学、电子、数据分析以及材料科学与工程综合知识的高素质人才提供良好的机会。********