transverse tooth thickness

简明释义

横向齿厚

英英释义

例句

1.During the inspection, we found that the transverse tooth thickness did not meet the specifications.

在检查过程中，我们发现横向齿厚不符合规格。

2.Adjusting the transverse tooth thickness can help reduce noise in mechanical systems.

调整横向齿厚可以帮助减少机械系统中的噪音。

3.A thicker transverse tooth thickness can lead to increased strength in the gear design.

更厚的横向齿厚可以增加齿轮设计的强度。

4.The engineer measured the transverse tooth thickness to ensure proper gear meshing.

工程师测量了横向齿厚以确保齿轮的正确啮合。

5.The manufacturing process requires precise control of the transverse tooth thickness for optimal performance.

制造过程需要对横向齿厚进行精确控制，以获得最佳性能。

作文

Understanding the concept of transverse tooth thickness is essential in various fields, particularly in engineering and materials science. This term refers to the measurement of the thickness of a tooth or a gear tooth when viewed from a transverse section. In simpler terms, it is the width of the tooth perpendicular to its length. This dimension plays a crucial role in determining how well gears mesh together, how much load they can bear, and their overall efficiency in mechanical systems.In mechanical engineering, gears are fundamental components that facilitate motion and transfer power between different parts of a machine. The transverse tooth thickness is vital for ensuring that gears fit correctly without excessive play or tightness. If the teeth are too thick, they may not engage properly with adjacent gears, leading to increased wear and potential failure. Conversely, if the teeth are too thin, they may not withstand the forces exerted during operation, resulting in breakage or deformation.Moreover, the transverse tooth thickness influences the manufacturing process of gears. During production, engineers must carefully calculate this dimension to ensure that the gears meet design specifications. Advanced machining techniques, such as computer numerical control (CNC) milling, allow for precise adjustments to the tooth thickness, which can significantly enhance the performance and durability of the gears.In addition to mechanical applications, the concept of transverse tooth thickness can also be found in biological contexts. For instance, in the study of dental anatomy, the thickness of tooth enamel can vary across different species. Understanding these variations can help in evolutionary biology, as it provides insights into the dietary habits and environmental adaptations of various organisms.Furthermore, in the field of dentistry, the transverse tooth thickness is crucial for designing dental restorations, such as crowns and bridges. Dentists must consider the thickness of the existing tooth structure when planning treatments to ensure that the restorations fit well and function effectively. A proper understanding of this dimension helps in achieving optimal aesthetics and functionality in dental procedures.In conclusion, the transverse tooth thickness is a multifaceted concept that holds significant importance across various disciplines. Whether in engineering, biology, or dentistry, this measurement affects the performance, durability, and functionality of components and structures. As technology advances, the ability to measure and manipulate transverse tooth thickness with precision will continue to enhance our understanding and capabilities in these fields. Therefore, it is crucial for professionals and students alike to grasp the significance of this term and its applications in real-world scenarios.

理解横向齿厚的概念在多个领域中至关重要，特别是在工程和材料科学中。这个术语指的是从横截面来看，齿或齿轮齿的厚度测量。简单来说，它是垂直于齿长度的齿宽度。这个尺寸在确定齿轮如何良好啮合、承受多大负载以及在机械系统中的整体效率方面发挥着关键作用。在机械工程中，齿轮是基本组件，促进机器不同部分之间的运动和动力传递。横向齿厚对于确保齿轮正确配合而没有过多间隙或紧固至关重要。如果齿太厚，它们可能无法与相邻齿轮正确啮合，从而导致磨损增加和潜在故障。相反，如果齿太薄，它们可能无法承受操作过程中施加的力量，导致断裂或变形。此外，横向齿厚影响齿轮的制造过程。在生产过程中，工程师必须仔细计算这个尺寸，以确保齿轮符合设计规格。先进的加工技术，如计算机数控（CNC）铣削，允许对齿厚进行精确调整，这可以显著提高齿轮的性能和耐用性。除了机械应用，横向齿厚的概念也可以在生物学背景中找到。例如，在牙齿解剖学的研究中，牙釉质的厚度在不同物种之间可能有所不同。理解这些变化可以帮助进化生物学，因为它提供了关于各种生物的饮食习惯和环境适应的见解。此外，在牙科领域，横向齿厚对于设计牙齿修复体（如冠和桥）至关重要。牙医在规划治疗时必须考虑现有牙齿结构的厚度，以确保修复体良好契合并有效功能。对这一维度的正确理解有助于在牙科程序中实现最佳美观和功能。总之，横向齿厚是一个多方面的概念，在各个学科中具有重要意义。无论是在工程、生物学还是牙科，这一测量都会影响组件和结构的性能、耐用性和功能。随着技术的进步，精确测量和操纵横向齿厚的能力将继续增强我们在这些领域的理解和能力。因此，专业人士和学生都必须掌握这个术语及其在现实场景中的应用的重要性。