tooth thickness

简明释义

齿厚

英英释义

例句

1.Understanding the tooth thickness can help in creating better dental prosthetics.

了解牙齿厚度有助于制作更好的牙科修复体。

2.The dentist measured the tooth thickness to determine if a crown was necessary.

牙医测量了牙齿厚度以确定是否需要安装牙冠。

3.During the procedure, the technician checked the tooth thickness for proper alignment.

在手术过程中，技师检查了牙齿厚度以确保正确对齐。

4.For accurate fitting, the lab requires the tooth thickness of each tooth.

为了准确装配，实验室需要每颗牙齿的牙齿厚度。

5.The orthodontist adjusted the braces based on the tooth thickness measurements.

正畸医生根据牙齿厚度的测量调整了牙套。

作文

The concept of tooth thickness is essential in various fields, including dentistry, materials science, and engineering. Understanding tooth thickness can significantly impact the performance and longevity of different systems, from mechanical gears to dental implants. In this essay, I will explore the importance of tooth thickness in these areas and how it contributes to overall functionality and efficiency.In dentistry, tooth thickness refers to the measurement of the enamel and dentin layers of a tooth. These layers play a crucial role in protecting the tooth from decay and damage. A sufficient tooth thickness ensures that the tooth can withstand the forces exerted during chewing and grinding food. When a dentist assesses a patient’s oral health, they often examine the tooth thickness to determine if any treatments are necessary. For instance, if the enamel is too thin due to erosion or decay, the dentist may recommend restorative procedures such as crowns or fillings to protect the underlying dentin and pulp.Moreover, the tooth thickness also influences the aesthetic aspects of dental work. When creating veneers or crowns, dental professionals must consider the tooth thickness to ensure that the final result looks natural and blends seamlessly with the surrounding teeth. If the tooth thickness is not adequately taken into account, the restoration may appear bulky or unnatural, leading to dissatisfaction for the patient.In addition to its significance in dentistry, tooth thickness is also a critical factor in the design of mechanical components, particularly gears. In engineering, the term 'tooth' often refers to the individual projections on a gear wheel that engage with another gear. The tooth thickness of these gears affects their strength and durability. If the tooth thickness is insufficient, the gear may wear down quickly or even break under stress, leading to mechanical failure.Engineers must carefully calculate the optimal tooth thickness based on the intended load and operational conditions of the machinery. This calculation involves considering factors such as material properties, expected wear rates, and environmental conditions. By ensuring that the tooth thickness is appropriate, engineers can design gears that operate efficiently and have a longer lifespan, reducing maintenance costs and downtime.Furthermore, advancements in materials science have led to the development of new materials that can enhance the performance of both dental and mechanical applications. For example, researchers are exploring the use of composite materials that can mimic the natural tooth thickness of human teeth while providing superior strength and durability. In mechanical applications, innovative materials with high tensile strength can allow for thinner tooth thickness in gears without compromising performance.In conclusion, the concept of tooth thickness is a vital aspect of both dentistry and engineering. Whether it is ensuring the structural integrity of a tooth or the performance of a gear, understanding and optimizing tooth thickness is crucial for achieving desired outcomes. As technology continues to advance, the ability to measure and manipulate tooth thickness will likely lead to improved solutions in both fields, enhancing the quality of life for individuals and the efficiency of machines alike.

“牙齿厚度”的概念在多个领域中至关重要，包括牙科、材料科学和工程。理解“牙齿厚度”可以显著影响不同系统的性能和寿命，从机械齿轮到牙科植入物。在这篇文章中，我将探讨“牙齿厚度”在这些领域中的重要性，以及它如何有助于整体功能和效率。在牙科中，“牙齿厚度”指的是牙齿的牙釉质和牙本质层的测量。这些层在保护牙齿免受蛀牙和损伤方面起着至关重要的作用。足够的“牙齿厚度”确保牙齿能够承受咀嚼和磨碎食物时施加的力量。当牙医评估患者的口腔健康时，他们通常会检查“牙齿厚度”以确定是否需要任何治疗。例如，如果由于侵蚀或蛀牙导致牙釉质过薄，牙医可能会建议进行修复程序，如牙冠或填充物，以保护下面的牙本质和牙髓。此外，“牙齿厚度”还影响牙科工作的美学方面。在制作贴面或牙冠时，牙科专业人员必须考虑“牙齿厚度”，以确保最终结果看起来自然，并与周围的牙齿无缝融合。如果未能妥善考虑“牙齿厚度”，修复体可能显得笨重或不自然，导致患者的不满意。除了在牙科中的重要性外，“牙齿厚度”在机械部件设计，特别是齿轮方面也是一个关键因素。在工程学中，“齿”一词通常指的是齿轮轮上的单个突起，这些突起与另一个齿轮啮合。“牙齿厚度”的不足可能导致齿轮快速磨损甚至在应力下断裂，从而导致机械故障。工程师必须根据机器的预期负载和操作条件仔细计算最佳的“牙齿厚度”。这个计算涉及考虑材料特性、预期磨损率和环境条件等因素。通过确保“牙齿厚度”适当，工程师可以设计出高效运行且使用寿命更长的齿轮，从而降低维护成本和停机时间。此外，材料科学的进步导致了新材料的发展，这些材料可以增强牙科和机械应用的性能。例如，研究人员正在探索使用复合材料，这些材料可以模仿人类牙齿的自然“牙齿厚度”，同时提供更好的强度和耐用性。在机械应用中，具有高抗拉强度的创新材料可以允许齿轮在不妥协性能的情况下具有更薄的“牙齿厚度”。总之，“牙齿厚度”的概念是牙科和工程学的重要方面。无论是确保牙齿的结构完整性，还是齿轮的性能，理解和优化“牙齿厚度”对于实现预期结果至关重要。随着技术的不断进步，测量和操控“牙齿厚度”的能力可能会在这两个领域带来更好的解决方案，提高个人的生活质量和机器的效率。