金刚石抛光装置专利概述

Yudong Bao, Minwei Liu, Mingtao Wu
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With the continuous expansion and deepening of modern industrial sectors,\nthere is a growing demand for diversified and specialized material performance. Diamond, as a pivotal\nraw material, exhibits immense potential in its composite applications with a variety of other\nmaterials, forming an entire industrial chain that has permeated numerous industries. Throughout the\ncomprehensive preparation process of diamond, from rough stone to finished product, polishing\ntechniques play a critical role, representing an indispensable step in enhancing the surface quality\nand functional attributes of diamond products. This study provides a comprehensive review of representative\npatents in the field of diamond polishing apparatus, analyzing the distinctive functional\nattributes and performance characteristics of various diamond polishing devices. The study classifies\npolishing devices according to their design characteristics and application domains into five distinct\ncategories: polishing apparatuses specifically designed for single-crystal diamonds, systems tailored\nfor the polishing of complex curved surface diamonds, laser-assisted diamond polishing setups,\nstructurally-enhanced diamond polishing equipment, and functionally-specialized diamond polishing\ntools. The analysis underscores the unique innovative aspects and advantages demonstrated by each\npatent in addressing the inherent limitations of traditional polishing devices. Moreover, it elucidates\nthe technological constraints and developmental gaps that exist within each respective area. Presently,\nthe essence of polishing technology research revolves around the precision and efficacy in polishing\nsingle-crystal diamonds and intricate curved diamond surfaces, alongside the structural innovation\nand functional refinement of polishing apparatuses. Predominant among these devices are those\nthat largely depend on mechanical polishing methods integrated with laser-assisted and chemical\nmechanical polishing methodologies, where patent advancements are mainly geared towards boosting\nefficiency, guaranteeing surface integrity, fortifying adaptability across different operating scenarios,\nand incorporating multiple functionalities. Concurrently, considerable attention is given to\nenhancing the ecological performance of these systems. There remains a significant underdevelopment\nand limited widespread application of diamond polishing apparatus in advanced technologies\nsuch as thermal chemical polishing and ion beam polishing. This gap presents an enormous potential\nfor innovation breakthroughs and diversified advancements in polishing techniques. 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引用次数: 0

摘要

金刚石具有无与伦比的物理和化学属性组合,在未来技术领域中扮演着至关重要的角色;然而,其表面质量的好坏与其在先进应用领域中的性能有着决定性的联系。因此,进行超精密加工以提高金刚石的表面完整性是扩大其应用潜力的核心原则。本文系统地剖析了与金刚石抛光设备有关的专利,不仅揭示了当代金刚石抛光技术固有的独特优势和实用特征,还指出了当前抛光方法的局限性和改进途径。随着现代工业领域的不断扩大和深化,对材料性能多样化和专业化的要求越来越高。金刚石作为一种重要的原材料,在与其他多种材料的复合应用中展现出巨大的潜力,形成了一条完整的产业链,并渗透到众多行业中。在金刚石从毛坯到成品的整个制备过程中,抛光技术起着至关重要的作用,是提高金刚石产品表面质量和功能属性不可或缺的一步。本研究全面回顾了钻石抛光设备领域的代表性专利,分析了各种钻石抛光设备的独特功能属性和性能特点。研究根据抛光设备的设计特点和应用领域将其分为五个不同的类别:专为单晶金刚石设计的抛光设备、为复杂曲面金刚石抛光量身定制的系统、激光辅助金刚石抛光装置、结构增强型金刚石抛光设备和功能专用型金刚石抛光工具。分析强调了每项专利在解决传统抛光设备固有局限性方面的独特创新性和优势。此外,分析还阐明了每个领域存在的技术限制和发展差距。目前,抛光技术研究的实质是围绕抛光单晶金刚石和复杂曲面金刚石表面的精度和效率,以及抛光设备的结构创新和功能完善。在这些设备中,最主要的是那些主要依靠机械抛光方法与激光辅助抛光和化学机械抛光方法相结合的设备,这些设备的专利进步主要是为了提高效率、保证表面完整性、增强在不同操作环境下的适应性,以及集成多种功能。与此同时,提高这些系统的生态性能也受到了极大关注。在热化学抛光和离子束抛光等先进技术中,金刚石抛光设备的开发和广泛应用仍然严重不足。这一差距为抛光技术的创新突破和多样化发展提供了巨大潜力。因此,亟需加大投资力度,推动自动控制系统、智能监控和新材料在抛光技术中的开发和集成,从而实现更高级别的自动化和智能化金刚石抛光解决方案,以达到更高效、更精确和更环保的抛光目标。
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Overview of Patents on Diamond Polishing Apparatus
Diamond, with its unparalleled combination of physical and chemical attributes, occupies a critical role in future technological domains; yet, the caliber of its surface quality is decisively linked to its performance within advanced applications. Thus, engaging in super-precision processing to elevate the surface integrity of diamond constitutes a central tenet for broadening its application potential. This paper systematically dissects patents pertaining to diamond polishing apparatus, not only revealing the distinctive strengths and pragmatic features inherent in contemporary diamond polishing technology but also identifying limitations and avenues for refinement within current polishing methodologies. With the continuous expansion and deepening of modern industrial sectors, there is a growing demand for diversified and specialized material performance. Diamond, as a pivotal raw material, exhibits immense potential in its composite applications with a variety of other materials, forming an entire industrial chain that has permeated numerous industries. Throughout the comprehensive preparation process of diamond, from rough stone to finished product, polishing techniques play a critical role, representing an indispensable step in enhancing the surface quality and functional attributes of diamond products. This study provides a comprehensive review of representative patents in the field of diamond polishing apparatus, analyzing the distinctive functional attributes and performance characteristics of various diamond polishing devices. The study classifies polishing devices according to their design characteristics and application domains into five distinct categories: polishing apparatuses specifically designed for single-crystal diamonds, systems tailored for the polishing of complex curved surface diamonds, laser-assisted diamond polishing setups, structurally-enhanced diamond polishing equipment, and functionally-specialized diamond polishing tools. The analysis underscores the unique innovative aspects and advantages demonstrated by each patent in addressing the inherent limitations of traditional polishing devices. Moreover, it elucidates the technological constraints and developmental gaps that exist within each respective area. Presently, the essence of polishing technology research revolves around the precision and efficacy in polishing single-crystal diamonds and intricate curved diamond surfaces, alongside the structural innovation and functional refinement of polishing apparatuses. Predominant among these devices are those that largely depend on mechanical polishing methods integrated with laser-assisted and chemical mechanical polishing methodologies, where patent advancements are mainly geared towards boosting efficiency, guaranteeing surface integrity, fortifying adaptability across different operating scenarios, and incorporating multiple functionalities. Concurrently, considerable attention is given to enhancing the ecological performance of these systems. There remains a significant underdevelopment and limited widespread application of diamond polishing apparatus in advanced technologies such as thermal chemical polishing and ion beam polishing. This gap presents an enormous potential for innovation breakthroughs and diversified advancements in polishing techniques. There is an urgent need for increased investment to propel the development and integration of automated control systems, intelligent monitoring, and deeper exploration of new materials within polishing technology. The aim is to realize higher-level automated and intelligent diamond polishing solutions that can achieve more efficient, precise, and environmentally friendly polishing objectives.
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来源期刊
Recent Patents on Engineering
Recent Patents on Engineering Engineering-Engineering (all)
CiteScore
1.40
自引率
0.00%
发文量
100
期刊介绍: Recent Patents on Engineering publishes review articles by experts on recent patents in the major fields of engineering. A selection of important and recent patents on engineering is also included in the journal. The journal is essential reading for all researchers involved in engineering sciences.
期刊最新文献
Current Status of Research on Fill Mining Systems Overview of Patents on Diamond Polishing Apparatus Evaluation of Land Subsidence Susceptibility in Kunming Basin Based on Remote Sensing Interpretation and Convolutional Neural Network Development and Prospects of Lander Vibration-Damping Structures Recent Patents on Closed Coal Storage Systems and Research of Similar Experimental
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