surface crack

简明释义

表面裂缝

英英释义

例句

1.During the quality check, we found a surface crack 表面裂缝 in the glass pane.

在质量检查中，我们发现玻璃面板上有一个surface crack 表面裂缝。

2.A surface crack 表面裂缝 in the ceramic tile can lead to further damage if not repaired quickly.

如果不及时修复，陶瓷砖上的surface crack 表面裂缝 可能会导致进一步损坏。

3.The technician noticed a surface crack 表面裂缝 on the metal component during the inspection.

技术员在检查过程中注意到金属部件上有一个surface crack 表面裂缝。

4.The engineer recommended sealing the surface crack 表面裂缝 to prevent water infiltration.

工程师建议封闭这个surface crack 表面裂缝 以防止水渗透。

5.It's important to address any surface crack 表面裂缝 in the pavement before they worsen.

在表面裂缝surface crack 表面裂缝 恶化之前，及时处理是很重要的。

作文

In the field of engineering and material science, the term surface crack refers to a fracture that occurs on the outer layer of a material. These cracks can arise due to various factors, including stress, fatigue, or environmental conditions. Understanding surface crack formation is crucial for ensuring the integrity and longevity of structures, from bridges to airplanes. One common scenario where surface crack analysis is essential is in the maintenance of concrete structures. Over time, concrete can develop surface cracks due to shrinkage, temperature changes, or load stresses. These cracks not only affect the aesthetic appeal of the structure but also compromise its structural integrity. Engineers often conduct regular inspections to identify surface cracks early and implement repair strategies to prevent further deterioration.Another example can be seen in metal components used in machinery. When these components are subjected to cyclic loading, they may develop surface cracks that can lead to catastrophic failure if not addressed. Techniques such as ultrasonic testing and dye penetrant inspection are employed to detect these surface cracks before they propagate. This proactive approach helps in maintaining safety and reliability in mechanical systems.The impact of surface cracks is not limited to physical structures; it can also extend to electronic devices. For instance, in semiconductor manufacturing, surface cracks on wafers can lead to device failure. Manufacturers must carefully monitor the production process to minimize the occurrence of these defects. By understanding the mechanisms behind surface crack formation, engineers can develop better materials and processes to enhance durability.Moreover, the presence of surface cracks can serve as indicators of underlying issues. In geological formations, for example, the presence of surface cracks might suggest potential landslides or erosion problems. Environmental scientists study these cracks to assess risks and develop mitigation strategies.In conclusion, the term surface crack encompasses a wide range of implications across different fields. Whether in construction, manufacturing, or environmental science, recognizing and addressing surface cracks is vital for maintaining safety, performance, and longevity. As technology advances, new methods for detecting and repairing surface cracks will continue to evolve, ensuring that we can effectively manage the challenges posed by these seemingly minor defects. By prioritizing the understanding of surface cracks, we can safeguard our infrastructure and technological advancements, ultimately leading to a more resilient future.

在工程和材料科学领域，术语表面裂缝指的是材料外层发生的断裂。这些裂缝可能由于各种因素而产生，包括应力、疲劳或环境条件。理解表面裂缝的形成对确保结构的完整性和耐久性至关重要，从桥梁到飞机。一个常见的需要进行表面裂缝分析的场景是混凝土结构的维护。随着时间的推移，混凝土可能由于收缩、温度变化或载荷应力而发展出表面裂缝。这些裂缝不仅影响结构的美观，还会损害其结构完整性。工程师通常会定期检查，以便及早发现表面裂缝并实施修复策略，以防止进一步恶化。另一个例子可以在机械中使用的金属组件中看到。当这些组件承受循环载荷时，它们可能会发展出表面裂缝，如果不加以处理，可能导致灾难性故障。超声波检测和染料渗透检测等技术被用来在这些表面裂缝扩展之前进行检测。这种主动的方法有助于保持机械系统的安全性和可靠性。表面裂缝的影响不仅限于物理结构；它还可以扩展到电子设备。例如，在半导体制造中，晶圆上的表面裂缝可能导致器件故障。制造商必须仔细监控生产过程，以尽量减少这些缺陷的发生。通过理解表面裂缝形成背后的机制，工程师可以开发出更好的材料和工艺，以增强耐久性。此外，表面裂缝的存在可以作为潜在问题的指示。在地质构造中，例如，表面裂缝的存在可能表明潜在的滑坡或侵蚀问题。环境科学家研究这些裂缝，以评估风险并制定缓解策略。总之，术语表面裂缝涵盖了不同领域的广泛影响。无论是在建筑、制造还是环境科学中，识别和处理表面裂缝对于维护安全、性能和耐久性至关重要。随着技术的进步，检测和修复表面裂缝的新方法将继续发展，确保我们能够有效管理这些看似微小的缺陷所带来的挑战。通过优先理解表面裂缝，我们可以保护我们的基础设施和技术进步，最终导致一个更具韧性的未来。