disk of constant stress

简明释义

等强度叶轮

英英释义

例句

1.When designing a brake system, engineers must consider the effects of a disk of constant stress 恒定应力盘 on the performance and safety of the vehicle.

在设计刹车系统时，工程师必须考虑恒定应力盘 disk of constant stress对车辆性能和安全性的影响。

2.The theoretical model of a disk of constant stress 恒定应力盘 is crucial for predicting failure points in mechanical components.

理论模型中的恒定应力盘 disk of constant stress对于预测机械部件的失效点至关重要。

3.A thorough understanding of a disk of constant stress 恒定应力盘 is essential for civil engineers working on bridge designs.

对恒定应力盘 disk of constant stress的透彻理解对从事桥梁设计的土木工程师至关重要。

4.The stress distribution in a disk of constant stress 恒定应力盘 can be analyzed using finite element methods.

可以使用有限元方法分析恒定应力盘 disk of constant stress中的应力分布。

5.In engineering, we often analyze a disk of constant stress 恒定应力盘 to understand how materials behave under uniform loading conditions.

在工程学中，我们经常分析一个恒定应力盘 disk of constant stress，以理解材料在均匀载荷条件下的表现。

作文

The concept of a disk of constant stress is an important one in the field of engineering and materials science. It refers to a theoretical model where a disk-shaped object experiences uniform stress across its entire surface. This model is crucial for understanding how materials behave under different loading conditions. In practical applications, engineers often need to design components that can withstand various forces without failing. The disk of constant stress serves as a simplified representation that helps in analyzing complex stress distributions in real-world scenarios.To illustrate this concept, consider a circular plate subjected to uniform pressure from above. As the pressure is applied, the material of the disk deforms, and the stress within the disk must be assessed to ensure it does not exceed the material's yield strength. The assumption of a disk of constant stress allows engineers to calculate the maximum stress experienced by the material and determine whether it will remain within safe limits.Additionally, the disk of constant stress model is particularly useful when dealing with rotating disks, such as those found in turbines or flywheels. In these cases, the centrifugal forces generated by rotation can create varying stress levels throughout the disk. By applying the disk of constant stress assumption, engineers can simplify calculations and focus on the most critical aspects of design, ensuring safety and efficiency.Moreover, understanding the implications of a disk of constant stress is essential for predicting failure modes in materials. For instance, if a disk is subjected to excessive stress beyond its capacity, it may fail catastrophically. Engineers use the principles derived from the disk of constant stress model to develop safety factors and guidelines that help prevent such failures in real applications.In conclusion, the disk of constant stress is a fundamental concept in engineering that aids in the analysis and design of materials and structures. By assuming uniform stress distribution, engineers can simplify their calculations and make informed decisions about material selection and structural integrity. This model not only enhances our understanding of material behavior but also plays a crucial role in ensuring the safety and reliability of engineered systems. As technology advances, the principles behind the disk of constant stress will continue to be relevant in developing innovative solutions for future engineering challenges.

“恒定应力盘”的概念在工程和材料科学领域中非常重要。它指的是一个理论模型，其中一个盘形物体在其整个表面上经历均匀的应力。这个模型对于理解材料在不同加载条件下的行为至关重要。在实际应用中，工程师通常需要设计能够承受各种力而不发生失效的组件。“恒定应力盘”作为一种简化的表示，有助于分析现实场景中复杂的应力分布。为了说明这一概念，考虑一个受到均匀压力的圆形板。当压力施加时，盘的材料发生变形，必须评估盘内的应力，以确保其不超过材料的屈服强度。“恒定应力盘”的假设使得工程师能够计算材料所承受的最大应力，并确定其是否保持在安全范围内。此外，“恒定应力盘”模型在处理旋转盘时尤其有用，例如涡轮或飞轮中的盘。在这些情况下，由于旋转产生的离心力可能会导致盘内的应力水平变化。通过应用“恒定应力盘”的假设，工程师可以简化计算，专注于设计的最关键方面，从而确保安全和效率。此外，理解“恒定应力盘”的含义对于预测材料的失效模式至关重要。例如，如果一个盘承受的应力超过其能力，它可能会发生灾难性失效。工程师利用从“恒定应力盘”模型中得出的原理来制定安全系数和指导方针，以帮助防止在真实应用中的此类失效。总之，“恒定应力盘”是工程中的一个基本概念，有助于材料和结构的分析与设计。通过假设均匀应力分布，工程师可以简化计算，并对材料选择和结构完整性做出明智的决策。该模型不仅增强了我们对材料行为的理解，也在确保工程系统的安全性和可靠性方面发挥着关键作用。随着技术的进步，“恒定应力盘”背后的原理将在未来工程挑战的创新解决方案开发中继续发挥相关作用。