ceramic bond

简明释义

陶瓷结合剂

英英释义

例句

1.The ceramic bond helps in reducing thermal expansion in ceramics.

在陶瓷中，陶瓷结合有助于减少热膨胀。

2.The strength of the tile is enhanced by the ceramic bond.

瓷砖的强度通过陶瓷结合得到了增强。

3.The ceramic bond in this dental restoration provides excellent support.

这项牙科修复中的陶瓷结合提供了优良的支撑。

4.In pottery, a good ceramic bond ensures durability.

在陶艺中，良好的陶瓷结合确保耐用性。

5.Using a proper adhesive is crucial for achieving a strong ceramic bond.

使用合适的粘合剂对于实现强大的陶瓷结合至关重要。

作文

The term ceramic bond refers to the connection or adhesion between ceramic materials, which is crucial in various applications including pottery, construction, and advanced technology. Ceramics are inorganic, non-metallic materials that are typically made from a mixture of clay, earthen minerals, and water, then shaped and fired at high temperatures. The ceramic bond forms during the firing process when the particles of the clay and other components fuse together, creating a solid structure that is both strong and durable.Understanding the ceramic bond is essential for artists and manufacturers alike. In pottery, for instance, the strength of a piece is largely dependent on the quality of its ceramic bond. A well-formed bond can withstand thermal shock and mechanical stress, while a weak bond may lead to cracks and failures. This is why potters pay close attention to the composition of their clay and the firing temperature, as these factors greatly influence the integrity of the ceramic bond.In construction, ceramics play a vital role in the production of tiles, bricks, and sanitary ware. The ceramic bond in these materials ensures that they can endure the pressures of daily use and environmental factors. For example, floor tiles are designed to resist wear and tear, and much of this durability is attributed to the strength of the ceramic bond formed during their manufacturing process.Moreover, in the field of advanced technology, the ceramic bond is critical in the production of electronic components, such as capacitors and insulators. The unique properties of ceramics, including their heat resistance and electrical insulation capabilities, make them ideal for these applications. Engineers and scientists study the ceramic bond to enhance the performance and reliability of these components. By understanding how to manipulate the ceramic bond, they can create materials that meet specific requirements for high-tech devices.The importance of the ceramic bond extends beyond its physical properties; it also has implications for sustainability. As the world moves towards more eco-friendly practices, researchers are exploring ways to develop ceramics that require less energy to produce while maintaining a strong ceramic bond. Innovations in this area could lead to reduced carbon footprints in manufacturing processes, making ceramics an even more attractive option for various industries.In conclusion, the ceramic bond is a fundamental aspect of ceramic materials that impacts their strength, durability, and functionality across multiple fields. From artisanal pottery to high-tech electronics, understanding and optimizing the ceramic bond can lead to improved products and sustainable practices. As we continue to explore the potential of ceramics, the significance of the ceramic bond will undoubtedly remain at the forefront of research and innovation.

短语ceramic bond指的是陶瓷材料之间的连接或粘合，这在包括陶器、建筑和先进技术等各种应用中至关重要。陶瓷是无机的、非金属的材料，通常由粘土、土矿和水的混合物制成，然后在高温下成型和烧制。ceramic bond在烧制过程中形成，当粘土和其他成分的颗粒融合在一起时，创造出一种既强大又耐用的固体结构。理解ceramic bond对艺术家和制造商来说都是必不可少的。例如，在陶器制作中，一件作品的强度在很大程度上取决于其ceramic bond的质量。良好的结合可以承受热冲击和机械应力，而弱的结合可能导致裂缝和故障。这就是为什么陶工会密切关注他们的粘土成分和烧制温度，因为这些因素极大地影响了ceramic bond的完整性。在建筑领域，陶瓷在瓷砖、砖块和卫生洁具的生产中发挥着至关重要的作用。这些材料中的ceramic bond确保它们能够承受日常使用和环境因素的压力。例如，地板瓷砖被设计成耐磨损，而这种耐用性在很大程度上归因于它们制造过程中形成的ceramic bond的强度。此外，在先进技术领域，ceramic bond在电子元件的生产中至关重要，例如电容器和绝缘体。陶瓷的独特性质，包括其耐热性和电绝缘能力，使其成为这些应用的理想选择。工程师和科学家研究ceramic bond以增强这些元件的性能和可靠性。通过理解如何操控ceramic bond，他们可以创造出满足高科技设备特定要求的材料。ceramic bond的重要性超越了其物理性质；它对可持续性也有影响。随着世界朝着更环保的实践迈进，研究人员正在探索开发需要更少能源来生产的陶瓷的方法，同时保持强大的ceramic bond。这一领域的创新可能会导致制造过程中的碳足迹减少，使陶瓷在各个行业中变得更加吸引人。总之，ceramic bond是陶瓷材料的一个基本方面，影响着它们在多个领域的强度、耐用性和功能。从手工陶器到高科技电子产品，理解和优化ceramic bond可以导致改进的产品和可持续的实践。随着我们继续探索陶瓷的潜力，ceramic bond的重要性无疑将继续处于研究和创新的前沿。