stable cavity

简明释义

稳定谐振腔

英英释义

例句

1.The engineer designed a stable cavity 稳定的腔体 to enhance the structural integrity of the building.

工程师设计了一个 stable cavity 稳定的腔体 来增强建筑物的结构完整性。

2.For optimal dental health, it is important to monitor any stable cavity 稳定的龋洞 regularly.

为了获得最佳口腔健康，定期监测任何 stable cavity 稳定的龋洞 是很重要的。

3.The dentist explained that a stable cavity 稳定的龋洞 is less likely to cause pain in the future.

牙医解释说，stable cavity 稳定的龋洞 在未来不太可能引起疼痛。

4.In geology, a stable cavity 稳定的空腔 can help prevent landslides during heavy rains.

在地质学中，stable cavity 稳定的空腔 可以帮助防止在大雨期间发生滑坡。

5.A stable cavity 稳定的空腔 in the rock formation allowed for the safe storage of natural gas.

岩层中的 stable cavity 稳定的空腔 允许安全存储天然气。

作文

In the field of materials science and engineering, the concept of a stable cavity plays a crucial role in understanding the behavior of various materials under different conditions. A stable cavity can be defined as a void or hollow space within a material that maintains its shape and integrity over time, even when subjected to external forces or environmental changes. This characteristic is essential for ensuring the durability and reliability of materials used in construction, manufacturing, and various industrial applications.When we think about materials such as metals, polymers, or ceramics, the presence of a stable cavity can significantly influence their mechanical properties. For example, in the case of metals, the formation of stable cavities during processes like casting or welding can lead to defects that compromise the strength and performance of the final product. Engineers must carefully analyze and control these cavities to ensure that they do not affect the overall integrity of the structure.Moreover, in the context of biological systems, stable cavities can also be found in natural materials. For instance, the structure of bones contains numerous stable cavities that provide strength while reducing weight. These cavities allow bones to withstand various forces without fracturing, demonstrating the importance of stable cavities in nature’s design.In addition to their mechanical implications, stable cavities can also impact thermal and acoustic properties. Materials with well-defined stable cavities can exhibit enhanced insulation capabilities, making them ideal for applications where temperature control is critical. Similarly, in soundproofing materials, the presence of stable cavities can help absorb sound waves, leading to improved acoustic performance.The study of stable cavities extends beyond traditional materials science into areas such as nanotechnology and biocompatible materials. Researchers are exploring how stable cavities at the nanoscale can be engineered to create new materials with unique properties, such as increased strength or improved conductivity. In biomedical applications, stable cavities in drug delivery systems can facilitate targeted therapies by allowing for controlled release of medications.In conclusion, the concept of a stable cavity is vital across various disciplines, influencing the performance and functionality of materials in countless applications. Whether in engineering, biology, or emerging technologies, understanding how to create, maintain, and utilize stable cavities will continue to be a key area of research and innovation. As we advance our knowledge in this field, we can expect to see more efficient, durable, and effective materials that harness the power of stable cavities for the benefit of society.

在材料科学和工程领域，stable cavity（稳定腔体）的概念在理解各种材料在不同条件下的行为中起着至关重要的作用。stable cavity可以定义为材料内部的一个空隙或空腔，它在时间上保持其形状和完整性，即使在外部力量或环境变化的作用下。这一特性对于确保用于建筑、制造和各种工业应用的材料的耐久性和可靠性至关重要。当我们考虑金属、聚合物或陶瓷等材料时，stable cavity的存在会显著影响它们的机械性能。例如，在金属的铸造或焊接过程中，stable cavity的形成可能导致缺陷，从而损害最终产品的强度和性能。工程师必须仔细分析和控制这些腔体，以确保它们不会影响结构的整体完整性。此外，在生物系统的背景下，stable cavity也可以在天然材料中找到。例如，骨骼的结构包含许多stable cavity，这些腔体在减轻重量的同时提供强度。这些腔体使骨骼能够承受各种力量而不发生断裂，展示了stable cavity在自然设计中的重要性。除了机械影响，stable cavity还可以影响热和声学性能。具有良好定义的stable cavity的材料可以表现出增强的绝缘能力，使其成为温度控制至关重要的应用的理想选择。同样，在隔音材料中，stable cavity的存在可以帮助吸收声波，从而改善声学性能。stable cavity的研究超越了传统材料科学，延伸到纳米技术和生物相容性材料等领域。研究人员正在探索如何在纳米尺度上工程化stable cavity，以创造具有独特属性的新材料，例如增加强度或改善导电性。在生物医学应用中，药物递送系统中的stable cavity可以通过允许药物的控制释放来促进靶向治疗。总之，stable cavity的概念在各个学科中都是至关重要的，影响着无数应用中材料的性能和功能。无论是在工程、生物学还是新兴技术中，理解如何创建、维护和利用stable cavity将继续是研究和创新的关键领域。随着我们在这一领域知识的进步，我们可以期待看到更高效、更耐用和更有效的材料，充分利用stable cavity的力量，为社会带来益处。