rigid extensible prop

简明释义

可伸缩式刚性支柱

英英释义

例句

1.The designers created a rigid extensible prop that could transform into different shapes for the play.

设计师们创造了一个刚性可伸缩道具，可以为话剧变换成不同的形状。

2.The stage design included a rigid extensible prop that could be adjusted to various heights.

舞台设计包括一个刚性可伸缩道具，可以调节到不同的高度。

3.In the theater, the actors relied on a rigid extensible prop to simulate a bridge in their production.

在剧院中，演员们依靠一个刚性可伸缩道具在他们的制作中模拟一座桥。

4.For the circus performance, they used a rigid extensible prop to create dramatic effects during the acrobatics.

在马戏表演中，他们使用了一个刚性可伸缩道具来在杂技表演中创造戏剧效果。

5.The film crew needed a rigid extensible prop for a scene where the character climbs a tower.

电影剧组需要一个刚性可伸缩道具来拍摄角色爬塔的场景。

作文

In the realm of engineering and design, the term rigid extensible prop refers to a structural component that possesses both rigidity and the ability to extend. This dual characteristic makes it an essential element in various applications, from construction to robotics. The concept of a rigid extensible prop can be understood by examining its two fundamental properties: rigidity and extensibility. Rigidity refers to the ability of a material or structure to maintain its shape under applied forces. For instance, in construction, beams are often designed to be rigid so that they can support heavy loads without bending or deforming. On the other hand, extensibility refers to the capacity of a material to be stretched or expanded without breaking. This property is particularly important in applications such as telescoping structures or adjustable frameworks.The combination of these two properties in a rigid extensible prop allows for innovative solutions in various fields. For example, in the field of architecture, designers often utilize rigid extensible props to create adaptable spaces that can change according to the needs of the occupants. These props can be extended to increase the height of a room or retracted to create a more intimate setting. This flexibility not only enhances the functionality of a space but also contributes to aesthetic appeal. Similarly, in the field of robotics, engineers design robotic arms with rigid extensible props that can reach out to grasp objects at varying distances while maintaining stability and precision. This capability is crucial for tasks that require meticulous handling, such as in assembly lines or surgical procedures.Moreover, the use of rigid extensible props extends beyond traditional applications. In recent years, advancements in materials science have led to the development of smart materials that can change their properties in response to external stimuli. For instance, some modern rigid extensible props can alter their rigidity based on temperature or electrical input, allowing for even greater versatility in design. This innovation opens up new possibilities for creating dynamic structures that can adapt to their environment, enhancing sustainability and efficiency.In conclusion, the term rigid extensible prop encapsulates a vital concept in engineering and design, representing a structural element that combines strength and adaptability. Understanding this term allows us to appreciate the ingenuity behind many modern technologies and designs. As we continue to push the boundaries of what is possible, the role of rigid extensible props will undoubtedly become even more significant in shaping the future of our built environment and technological advancements.

在工程和设计领域，术语刚性可扩展支撑指的是一种既具有刚性又能够扩展的结构组件。这种双重特性使其在从建筑到机器人等各种应用中成为一个重要元素。通过考察刚性可扩展支撑的两个基本属性——刚性和可扩展性，可以更好地理解这一概念。刚性是指材料或结构在施加力的情况下保持其形状的能力。例如，在建筑中，梁通常被设计为刚性的，以便能够在不弯曲或变形的情况下支撑重物。另一方面，可扩展性是指材料在不破裂的情况下被拉伸或扩展的能力。这一特性在诸如伸缩结构或可调框架等应用中尤为重要。刚性可扩展支撑将这两种特性结合在一起，使其在各个领域提供创新解决方案。例如，在建筑领域，设计师常常利用刚性可扩展支撑来创建可以根据居住者需求而变化的适应性空间。这些支撑可以被扩展以增加房间的高度，或收缩以创造一个更亲密的环境。这种灵活性不仅增强了空间的功能性，还提升了美学吸引力。同样，在机器人领域，工程师设计的机器人手臂配备了刚性可扩展支撑，可以在保持稳定性和精确度的同时伸出手去抓取不同距离的物体。这一能力对于需要精细处理的任务至关重要，例如在装配线或外科手术中。此外，刚性可扩展支撑的使用超越了传统应用。近年来，材料科学的进步导致了一些智能材料的开发，这些材料可以根据外部刺激改变其特性。例如，一些现代的刚性可扩展支撑能够根据温度或电输入改变其刚性，从而在设计中提供更大的灵活性。这项创新为创建能够适应其环境的动态结构开辟了新可能性，增强了可持续性和效率。总之，术语刚性可扩展支撑概括了工程和设计中的一个重要概念，代表了一种结合了强度和适应性的结构元素。理解这一术语使我们能够欣赏许多现代技术和设计背后的独创性。随着我们不断突破可能性的界限，刚性可扩展支撑在塑造我们未来的建筑环境和技术进步中的作用无疑将变得更加重要。