armature structure

简明释义

电枢结构

英英释义

例句

1.The artist carefully designed the armature structure to support the weight of the clay while sculpting.

艺术家小心翼翼地设计了支撑结构，以支持雕塑时泥土的重量。

2.In architecture, the armature structure provides a framework that enhances the stability of the building.

在建筑学中，支撑结构提供了一个框架，增强了建筑的稳定性。

3.The engineer explained how the armature structure is crucial for the performance of the model train.

工程师解释了支撑结构对模型火车性能的重要性。

4.Understanding the armature structure of the robot is essential for programming its movements.

理解机器人的支撑结构对于编程其运动至关重要。

5.The armature structure in this kinetic sculpture allows it to move gracefully with the wind.

这个动感雕塑中的支撑结构使其能随风优雅地移动。

作文

The concept of armature structure is fundamental in various fields, particularly in engineering and architecture. An armature structure refers to a supportive framework that provides stability and strength to a larger system or object. This term is often used in the context of sculptures, electrical engineering, and even in the construction of buildings. Understanding the importance of armature structure can significantly enhance our appreciation of both art and technology.In sculpture, an armature structure serves as the backbone of a three-dimensional piece. Artists often create these frameworks using materials like metal or wood to support the weight of the final artwork. For example, a large bronze statue may require a robust armature structure to ensure it does not collapse under its own weight. The artist carefully designs this internal framework to balance the aesthetic qualities of the sculpture while ensuring its durability. Without a well-constructed armature structure, many sculptures would be prone to damage or failure, highlighting the critical role this component plays in the art world.In the realm of electrical engineering, the term armature structure takes on a different yet equally important meaning. Here, it refers to the part of an electric machine that carries current and produces magnetic fields. This is vital for the operation of motors and generators. The armature structure must be designed to withstand the physical and thermal stresses encountered during operation. Engineers spend considerable time optimizing the armature structure to improve efficiency and performance. This technical aspect underscores how integral the concept is to modern technology, affecting everything from household appliances to industrial machinery.Moreover, in architecture, the armature structure can refer to the skeletal framework that supports a building. This includes beams, columns, and trusses that bear the load of the structure above. A well-designed armature structure ensures that a building can withstand various forces, such as wind, earthquakes, and the weight of the materials themselves. Architects and engineers collaborate closely to create an armature structure that not only meets safety standards but also complements the aesthetic vision of the project. The interplay between form and function in architectural design often hinges on the effectiveness of the armature structure.In conclusion, the term armature structure encompasses a wide range of applications across different disciplines. Whether in art, engineering, or architecture, the armature structure serves as a crucial element that supports and enhances the integrity of a project. By understanding the significance of the armature structure, we can better appreciate the intricate balance between creativity and functionality that defines our built environment and the objects we cherish. As we continue to innovate and create, the principles behind the armature structure will remain essential to our endeavors, ensuring that our works are not only beautiful but also resilient and enduring.

“支架结构”这个概念在各个领域中都是基础性的，特别是在工程和建筑领域。“支架结构”指的是提供稳定性和强度的支撑框架，通常用于雕塑、电气工程，甚至建筑物的构造中。理解“支架结构”的重要性可以显著增强我们对艺术和技术的欣赏。在雕塑中，“支架结构”作为三维作品的骨架。艺术家通常使用金属或木材等材料来创建这些框架，以支持最终艺术品的重量。例如，一个大型青铜雕像可能需要一个坚固的“支架结构”，以确保它不会因自身的重量而倒塌。艺术家仔细设计这个内部框架，以平衡雕塑的美学特质，同时确保其耐用性。如果没有精心构造的“支架结构”，许多雕塑将容易受到损坏或失败，这突显了这一组件在艺术界中的关键作用。在电气工程领域，“支架结构”则有着不同但同样重要的意义。在这里，它指的是电机中承载电流并产生磁场的部分。这对于电动机和发电机的运行至关重要。“支架结构”必须设计得能够承受在运行过程中遇到的物理和热应力。工程师花费大量时间优化“支架结构”，以提高效率和性能。这一技术方面强调了这一概念在现代技术中的重要性，影响着从家用电器到工业机械的方方面面。此外，在建筑中，“支架结构”可以指支撑建筑的骨架框架，包括梁、柱和桁架，承载上方结构的负荷。一个设计良好的“支架结构”确保一座建筑能够承受各种力量，例如风、地震以及材料自身的重量。建筑师和工程师紧密合作，创建一个不仅满足安全标准，还与项目的美学愿景相辅相成的“支架结构”。建筑设计中形式与功能之间的相互作用往往依赖于“支架结构”的有效性。总之，“支架结构”这一术语涵盖了多个学科中的广泛应用。无论是在艺术、工程还是建筑中，“支架结构”都是支持和增强项目完整性的关键元素。通过理解“支架结构”的重要性，我们能够更好地欣赏定义我们建成环境和珍视物品的创造力与功能性之间的微妙平衡。随着我们不断创新和创造，“支架结构”背后的原则将继续是我们努力的核心，确保我们的作品不仅美观而且坚韧持久。