deflected tendon

简明释义

挠曲钢筋束

英英释义

例句

1.The surgeon explained that the injury was due to a rupture of the deflected tendon.

外科医生解释说，这种伤害是由于偏折的肌腱断裂造成的。

2.Rehabilitation exercises focused on strengthening the area around the deflected tendon.

康复锻炼集中在增强偏折的肌腱周围的区域。

3.An MRI revealed significant damage to the deflected tendon in her knee.

MRI显示她膝盖的偏折的肌腱有严重损伤。

4.After the surgery, the doctor mentioned that the deflected tendon would take time to heal properly.

手术后，医生提到偏折的肌腱需要时间才能正确愈合。

5.Physical therapy included stretching exercises to alleviate tension in the deflected tendon.

物理治疗包括拉伸练习，以缓解偏折的肌腱的紧张。

作文

In the field of civil engineering, the concept of a deflected tendon plays a crucial role in understanding how structures can efficiently bear loads. A deflected tendon refers to a tendon that has been intentionally curved or bent within a structural element, typically in post-tensioned concrete systems. This technique allows for the redistribution of stresses throughout the structure, enhancing its overall stability and performance.When designing a bridge or a large building, engineers often incorporate deflected tendons to optimize the load-bearing capacity of the materials used. By adjusting the curvature of the tendon, engineers can control how forces are transmitted through the structure. For instance, in a post-tensioned slab, the tendons are placed in ducts and tensioned after the concrete has cured. The tensioning process creates compressive forces in the concrete, counteracting the tensile forces that would otherwise lead to cracking.The use of deflected tendons is particularly advantageous because it allows for longer spans without the need for additional support columns. This not only reduces material costs but also enhances the aesthetic appeal of the structure by providing unobstructed views and open spaces. In modern architecture, where design flexibility is paramount, the ability to utilize deflected tendons effectively enables architects and engineers to create innovative forms and structures that push the boundaries of traditional construction methods.Moreover, the integration of deflected tendons into structural designs can significantly improve the durability and longevity of buildings and bridges. By mitigating the effects of bending moments and shear forces, these tendons help prevent premature failure and extend the lifespan of the structure. This is especially important in areas prone to seismic activity or heavy winds, where the ability to absorb and dissipate forces is critical.However, the implementation of deflected tendons is not without its challenges. Engineers must carefully calculate the optimal curvature and placement of the tendons to ensure that they perform as intended. Additionally, the installation process requires precision and expertise, as any misalignment can lead to significant structural issues. Therefore, thorough planning and testing are essential components of the design process when incorporating deflected tendons into a project.In conclusion, the concept of a deflected tendon is integral to modern engineering practices, particularly in the design of concrete structures. Its ability to enhance load-bearing capacity, promote aesthetic design, and improve durability makes it a valuable tool for engineers. As technology continues to advance, the applications of deflected tendons are likely to expand, leading to even more innovative and resilient structures that can withstand the test of time. Understanding the principles behind deflected tendons is essential for anyone involved in the field of civil engineering, as it represents a key aspect of structural design and analysis.

在土木工程领域，偏转腱的概念在理解结构如何有效承受负载方面发挥着至关重要的作用。偏转腱指的是在结构元件中故意弯曲或弯曲的腱，通常用于后张混凝土系统。这种技术允许在整个结构中重新分配应力，从而增强其整体稳定性和性能。在设计桥梁或大型建筑时，工程师通常会采用偏转腱来优化所用材料的承载能力。通过调整腱的曲率，工程师可以控制如何通过结构传递力。例如，在后张板中，腱被放置在管道中，并在混凝土固化后进行张拉。张拉过程在混凝土中产生压缩力，抵消了否则会导致开裂的拉伸力。偏转腱的使用特别有利，因为它允许在不需要额外支撑柱的情况下实现更长的跨距。这不仅降低了材料成本，还通过提供无障碍视野和开放空间增强了结构的美学吸引力。在现代建筑中，设计灵活性至关重要，有效利用偏转腱的能力使建筑师和工程师能够创造出突破传统施工方法界限的创新形式和结构。此外，将偏转腱整合到结构设计中可以显著提高建筑和桥梁的耐久性和使用寿命。通过减轻弯矩和剪力的影响，这些腱有助于防止早期失效并延长结构的使用寿命。这在易发生地震活动或强风的地区尤为重要，因为吸收和耗散力的能力至关重要。然而，实施偏转腱并非没有挑战。工程师必须仔细计算腱的最佳曲率和位置，以确保它们按预期执行。此外，安装过程需要精确和专业知识，因为任何对齐不当都可能导致重大结构问题。因此，在将偏转腱纳入项目时，彻底的规划和测试是设计过程的关键组成部分。总之，偏转腱的概念是现代工程实践中不可或缺的一部分，特别是在混凝土结构的设计中。它增强承载能力、促进美学设计和改善耐久性的能力使其成为工程师的宝贵工具。随着技术的不断进步，偏转腱的应用可能会扩展，导致更多创新和坚固的结构能够经受住时间的考验。理解偏转腱背后的原理对于任何参与土木工程领域的人来说都是必不可少的，因为它代表了结构设计和分析的关键方面。