cermet material

简明释义

金属陶瓷材料

英英释义

例句

1.Due to its hardness, cermet material is ideal for cutting tools.

由于其硬度，陶瓷金属材料非常适合用于切削工具。

2.The research focused on improving the properties of cermet material for better performance.

研究集中在改善陶瓷金属材料的性能，以提高其表现。

3.In aerospace applications, cermet material is often used for its high-temperature stability.

在航空航天应用中，陶瓷金属材料通常因其高温稳定性而被使用。

4.The cutting tool was made from cermet material, which provided excellent wear resistance.

这款切削工具是由陶瓷金属材料制成的，具有优异的耐磨性。

5.Manufacturers prefer cermet material for making durable components in machinery.

制造商更喜欢使用陶瓷金属材料来制造机械中的耐用部件。

作文

Cermet materials are a fascinating class of composite materials that combine the best properties of ceramics and metals. The term 'cermet' itself is derived from the words 'ceramic' and 'metal', highlighting the unique characteristics that arise from this combination. Cermets are typically composed of ceramic particles embedded in a metallic matrix, which allows them to exhibit both high hardness and excellent toughness. This makes them particularly useful in applications where traditional materials may fail due to wear or thermal stress.One of the most significant advantages of cermet material (陶瓷金属材料) is its ability to withstand extreme conditions. For example, they are often used in cutting tools and wear-resistant coatings, where they can endure high temperatures and abrasive environments. The ceramic component provides hardness and wear resistance, while the metal component offers ductility and toughness, creating a material that can perform well under intense mechanical stress.In the aerospace industry, cermet material (陶瓷金属材料) is utilized for thermal barrier coatings on turbine blades. These coatings help protect the underlying metal from the extreme heat generated during engine operation, thereby extending the life of critical components. The combination of ceramic and metal in these coatings allows for effective thermal insulation while maintaining structural integrity.Another area where cermet material (陶瓷金属材料) shines is in the field of electronics. Certain types of cermets are used in resistors and capacitors due to their stable electrical properties and resistance to thermal degradation. This versatility makes them an essential component in modern electronic devices, where reliability and performance are paramount.Furthermore, research into cermet material (陶瓷金属材料) is ongoing, with scientists exploring new formulations and production methods to enhance their properties. For instance, the addition of various metal alloys can improve the overall performance of cermets, making them suitable for more specialized applications. Innovations in manufacturing techniques, such as additive manufacturing, are also paving the way for the development of custom cermet components that meet specific engineering requirements.In summary, cermet material (陶瓷金属材料) represents a remarkable fusion of ceramic and metallic properties, resulting in materials that are incredibly resilient and versatile. Their applications span across numerous industries, from aerospace to electronics, demonstrating their importance in modern technology. As research continues to advance in this field, we can expect to see even more innovative uses for cermets in the future, further solidifying their role as vital materials in engineering and manufacturing.

陶瓷金属材料是一类迷人的复合材料，结合了陶瓷和金属的最佳特性。术语“cermet”本身源自“ceramic”和“metal”这两个词，突显出这种结合所产生的独特特性。陶瓷金属材料通常由嵌入金属基体中的陶瓷颗粒组成，使其表现出高硬度和优良韧性。这使得它们在传统材料可能因磨损或热应力而失效的应用中尤为有用。cermet material（陶瓷金属材料）最显著的优势之一是其能够承受极端条件。例如，它们常用于切削工具和耐磨涂层，在这些环境中，它们能够承受高温和磨蚀性环境。陶瓷成分提供了硬度和耐磨性，而金属成分则提供了延展性和韧性，创造出一种能够在强烈机械应力下良好表现的材料。在航空航天工业中，cermet material（陶瓷金属材料）用于涡轮叶片的热障涂层。这些涂层帮助保护底层金属免受发动机运行过程中产生的极端热量，从而延长关键部件的使用寿命。这些涂层中陶瓷和金属的结合可以有效地进行热绝缘，同时保持结构完整性。另一个cermet material（陶瓷金属材料）表现出色的领域是电子学。某些类型的陶瓷金属材料因其稳定的电气特性和抗热降解能力而用于电阻器和电容器。这种多功能性使它们成为现代电子设备中的重要组成部分，在这些设备中，可靠性和性能至关重要。此外，关于cermet material（陶瓷金属材料）的研究仍在进行中，科学家们正在探索新的配方和生产方法，以增强其性能。例如，添加各种金属合金可以提高陶瓷金属材料的整体性能，使其适用于更专业的应用。增材制造等制造技术的创新也为开发符合特定工程要求的定制陶瓷金属组件铺平了道路。总之，cermet material（陶瓷金属材料）代表了陶瓷和金属特性的卓越融合，形成了极其坚韧和多功能的材料。它们的应用遍及多个行业，从航空航天到电子学，展示了它们在现代技术中的重要性。随着这一领域的研究不断推进，我们可以期待在未来看到更多创新的陶瓷金属材料应用，进一步巩固它们作为工程和制造中重要材料的角色。