intensity armature

简明释义

高电阻电枢

英英释义

例句

1.In the engineering design, the intensity armature ensures stability under high loads.

在工程设计中，强度支架确保在高负载下的稳定性。

2.To enhance the performance of the model, the team incorporated an intensity armature into the framework.

为了提高模型的性能，团队在框架中加入了一个强度支架。

3.During the workshop, we learned how to build an intensity armature for our architectural models.

在工作坊期间，我们学习了如何为我们的建筑模型构建一个强度支架。

4.The artist used an intensity armature to create a dynamic structure in her sculpture.

艺术家使用了一个强度支架来在她的雕塑中创造出动态结构。

5.The intensity armature plays a crucial role in balancing the forces acting on the structure.

在平衡作用于结构上的力方面，强度支架发挥着至关重要的作用。

作文

In the world of physics and engineering, the term intensity armature refers to a structural component designed to enhance the strength and resilience of an object or system under various forces. The concept of intensity armature can be applied in several fields, including architecture, mechanical engineering, and even in the design of everyday objects. By understanding the principles behind intensity armature, we can better appreciate how different materials and structures can withstand stress and strain.For instance, consider the construction of a bridge. Engineers must take into account various factors such as the weight of vehicles, wind pressure, and seismic activity. To ensure the bridge remains safe and functional, they often incorporate elements that serve as an intensity armature. These elements might include trusses, beams, and cables that work together to distribute loads evenly across the structure. The use of an intensity armature allows for a more efficient design, reducing material costs while maximizing safety and durability.Moreover, the concept of intensity armature isn’t limited to large-scale constructions like bridges. It can also be observed in smaller applications, such as in the design of furniture. A well-constructed chair, for example, may feature an intensity armature in its frame to provide additional support for the person sitting on it. This not only enhances comfort but also prolongs the life of the chair by preventing sagging and breakage over time.In the realm of electronics, intensity armature plays a crucial role in the design of circuit boards and other components. The layout and materials used in these devices are critical for ensuring they can handle electrical currents without overheating or failing. By implementing an intensity armature in the design, engineers can create more robust devices that perform reliably under various conditions.The importance of intensity armature extends beyond physical structures; it also influences our understanding of abstract concepts such as resilience and adaptability. In psychology, for instance, individuals with strong mental fortitude often possess an intensity armature that allows them to navigate life's challenges effectively. This metaphorical application of the term illustrates how the principles of strength and support can be found in both tangible and intangible forms.In conclusion, the concept of intensity armature is integral to various fields, emphasizing the significance of strength and support in design and functionality. Whether it’s in constructing a bridge, designing furniture, or creating electronic devices, the underlying principles of intensity armature guide engineers and designers to develop solutions that are not only effective but also sustainable. As we continue to innovate and create, keeping the idea of intensity armature in mind will undoubtedly lead to advancements that enhance our daily lives and the world around us.

在物理和工程领域，术语强度支架指的是一种结构组件，旨在增强物体或系统在各种力作用下的强度和韧性。强度支架的概念可以应用于多个领域，包括建筑、机械工程，甚至日常物品的设计。通过理解强度支架背后的原理，我们可以更好地欣赏不同材料和结构如何承受应力和变形。例如，考虑桥梁的建设。工程师必须考虑多种因素，如车辆的重量、风压和地震活动。为了确保桥梁保持安全和功能，他们通常会加入一些作为强度支架的元素。这些元素可能包括桁架、梁和电缆，它们共同作用以均匀分配结构上的负荷。使用强度支架可以实现更高效的设计，降低材料成本，同时最大化安全性和耐久性。此外，强度支架的概念并不仅限于大型建筑如桥梁。它也可以在较小的应用中观察到，例如在家具的设计中。例如，一把设计良好的椅子可能在其框架中具有强度支架以提供额外的支持，供坐在上面的人使用。这不仅增强了舒适性，还通过防止下垂和破损来延长椅子的使用寿命。在电子领域，强度支架在电路板和其他组件的设计中起着至关重要的作用。这些设备中使用的布局和材料对于确保它们能够处理电流而不发生过热或故障至关重要。通过在设计中实施强度支架，工程师可以创造出在各种条件下表现可靠的更坚固的设备。强度支架的重要性超越了物理结构；它还影响我们对韧性和适应性等抽象概念的理解。在心理学中，具有强大心理素质的个体通常拥有一种强度支架，使他们能够有效应对生活中的挑战。这一术语的隐喻性应用说明了力量和支持的原则如何在有形和无形的形式中存在。总之，强度支架的概念在各个领域中都是不可或缺的，强调了设计和功能中力量和支持的重要性。无论是在建造桥梁、设计家具还是创建电子设备时，强度支架的基本原则都指导着工程师和设计师开发出不仅有效而且可持续的解决方案。随着我们不断创新和创造，牢记强度支架的理念无疑将导致改善我们日常生活和周围世界的进步。