moment of deflection

简明释义

弯曲力矩

英英释义

例句

1.Understanding the moment of deflection 偏转力矩 is crucial for ensuring safety in structural engineering.

理解偏转力矩对确保结构工程的安全至关重要。

2.The technician recorded the moment of deflection 偏转力矩 during the load test of the structure.

技术员在结构的负载测试中记录了偏转力矩。

3.The engineer calculated the moment of deflection 偏转力矩 to ensure the bridge could support heavy loads.

工程师计算了偏转力矩以确保桥梁能够承受重载。

4.The architect adjusted the design after realizing the moment of deflection 偏转力矩 was too high for the materials used.

建筑师在意识到使用的材料的偏转力矩过高后，调整了设计。

5.During the test, we measured the moment of deflection 偏转力矩 of the beam to assess its stability.

在测试过程中，我们测量了梁的偏转力矩以评估其稳定性。

作文

In the realm of physics and engineering, the term moment of deflection refers to the point at which a structure or material begins to bend or deform under applied forces. This concept is crucial in understanding how various materials respond to stress and strain, especially in the design of buildings, bridges, and other infrastructures. The moment of deflection plays a significant role in ensuring that structures can withstand loads without failing. Take, for example, the design of a bridge. Engineers must calculate the moment of deflection to ensure that the bridge can support the weight of vehicles and pedestrians without excessive bending. If the moment of deflection is too great, it could lead to structural failure, posing risks to safety. Therefore, understanding this moment allows engineers to select appropriate materials and design elements that will minimize deflection while maximizing strength.Moreover, the moment of deflection is not only relevant to large structures but also to everyday items such as furniture. When designing a chair, for instance, manufacturers must consider the moment of deflection to ensure that it remains stable and does not collapse under the weight of a person sitting on it. A chair that has a high moment of deflection may feel unstable and uncomfortable, discouraging people from using it.The importance of the moment of deflection extends beyond just physical structures; it also has metaphorical implications in our lives. Just as materials can bend and adapt under pressure, individuals face moments of deflection when confronted with challenges and obstacles. These moments test our resilience and ability to adapt to changing circumstances. For instance, a student may experience a moment of deflection during exams when the pressure mounts. How they respond to this moment can significantly impact their academic performance and overall well-being.Furthermore, in the context of personal growth, the moment of deflection can signify a turning point in one’s life. It is during these moments that people often reassess their goals, values, and priorities. Whether it’s a career change, a move to a new city, or a shift in personal relationships, these moments can lead to profound transformation. Just as engineers strive to minimize structural deflection, individuals can learn to navigate their moments of deflection with grace and resilience, ultimately emerging stronger and more adaptable.In conclusion, the moment of deflection is a pivotal concept in both engineering and personal development. It serves as a reminder of the importance of resilience, adaptability, and careful planning in the face of challenges. By understanding and embracing these moments, we can better prepare ourselves for the inevitable pressures of life, much like engineers design structures to withstand the forces acting upon them. Thus, whether in the context of physical structures or personal experiences, the moment of deflection teaches us valuable lessons about strength, stability, and the capacity to endure.

在物理和工程领域，术语弯曲力矩指的是结构或材料在施加力量下开始弯曲或变形的点。这个概念对于理解各种材料如何应对应力和应变至关重要，特别是在建筑、桥梁和其他基础设施的设计中。弯曲力矩在确保结构能够承受负载而不发生故障方面发挥着重要作用。以桥梁设计为例。工程师必须计算弯曲力矩以确保桥梁能够支持车辆和行人而不发生过度弯曲。如果弯曲力矩过大，可能导致结构失败，带来安全风险。因此，理解这一时刻使工程师能够选择合适的材料和设计元素，从而最小化弯曲，同时最大化强度。此外，弯曲力矩不仅与大型结构相关，也与日常物品如家具有关。例如，在设计椅子时，制造商必须考虑弯曲力矩，以确保其保持稳定，不会在坐上去的人体重下坍塌。具有高弯曲力矩的椅子可能会感到不稳定和不舒适，使人们不愿使用。弯曲力矩的重要性超越了物理结构，它在我们的生活中也具有隐喻意义。正如材料在压力下可以弯曲和适应，个体在面对挑战和障碍时也会经历弯曲力矩。这些时刻考验着我们的韧性和适应能力。例如，学生在考试期间可能会经历一次弯曲力矩，当压力增大时。他们对这一时刻的反应可能会显著影响他们的学业表现和整体福祉。此外，在个人成长的背景下，弯曲力矩可以标志着一个人生活中的转折点。正是在这些时刻，人们往往重新评估自己的目标、价值观和优先事项。无论是职业变化、搬到新城市，还是人际关系的转变，这些时刻都可能导致深刻的转变。正如工程师努力最小化结构的弯曲一样，个人也可以学习优雅地应对自己的弯曲力矩，最终变得更加强大和适应力强。总之，弯曲力矩是工程和个人发展中的一个关键概念。它提醒我们在面对挑战时韧性、适应性和周密规划的重要性。通过理解和拥抱这些时刻，我们可以更好地为生活中不可避免的压力做好准备，就像工程师设计结构以承受作用于它们的力量一样。因此，无论是在物理结构还是个人经历的背景下，弯曲力矩教会了我们关于力量、稳定性和忍耐能力的宝贵课程。