rigid connection

简明释义

刚性联接

英英释义

例句

1.A rigid connection (刚性连接) in a building's framework helps to maintain its structural integrity during an earthquake.

建筑框架中的rigid connection（刚性连接）有助于在地震期间保持其结构完整性。

2.Using rigid connections (刚性连接) in furniture design can increase durability but may limit flexibility.

在家具设计中使用rigid connections（刚性连接）可以增加耐用性，但可能会限制灵活性。

3.In mechanical engineering, a rigid connection (刚性连接) is often used to ensure that two components do not move relative to each other.

在机械工程中，rigid connection（刚性连接）通常用于确保两个组件之间不相对移动。

4.The bridge was designed with rigid connections (刚性连接) to withstand high winds and heavy loads.

这座桥的设计采用了rigid connections（刚性连接），以抵御强风和重载。

5.The robot's arms are joined by rigid connections (刚性连接), allowing for precise movements.

机器人的手臂通过rigid connections（刚性连接）连接，使得动作更加精确。

作文

In the world of engineering and design, the term rigid connection refers to a type of joint or linkage that does not allow for any relative movement between the connected parts. This concept is crucial in various fields such as architecture, mechanical engineering, and structural analysis. Understanding rigid connection is essential for ensuring stability and strength in structures, as it directly impacts how forces are transmitted through different components.To illustrate the importance of rigid connection, consider the construction of a bridge. Engineers must carefully design the joints connecting beams and supports to ensure that they can withstand not only static loads but also dynamic forces such as wind and traffic. A rigid connection in this context means that the beams will not bend or shift under pressure, maintaining the integrity of the bridge over time.Another example can be found in machinery where moving parts need to work in unison without any misalignment. For instance, in an engine, the crankshaft and connecting rods must maintain a rigid connection to ensure that power is efficiently transmitted from the combustion process to the wheels. Any flexibility in this connection could lead to inefficiencies, increased wear, or even catastrophic failure.Moreover, the concept of rigid connection extends beyond physical structures to encompass relationships and systems in various disciplines. In software engineering, for example, a rigid connection between modules might indicate a tightly coupled system where changes in one module necessitate changes in another. This can lead to challenges in maintenance and scalability, as developers must navigate the complexities introduced by these interdependencies.In contrast, a more flexible approach—often referred to as a 'loose connection'—can provide advantages in adaptability and ease of modification. For instance, when designing a new software application, developers may prefer to create interfaces that allow for rigid connection at certain points while enabling flexibility elsewhere. This balance can lead to robust systems that are easier to update and maintain over time.In summary, the understanding of rigid connection plays a pivotal role in various industries, influencing everything from the safety of our infrastructure to the performance of our machines and the design of our software. Whether in a physical or conceptual context, recognizing the implications of rigid connection helps professionals make informed decisions that enhance reliability and efficiency. As technology and engineering continue to evolve, the principles surrounding rigid connection will remain foundational to creating effective and durable systems.In conclusion, the concept of rigid connection is not just limited to physical connections between objects; it also applies to various aspects of life, including relationships, systems, and processes. By understanding and applying the principles of rigid connection, we can create stronger, more resilient structures and systems that stand the test of time.

在工程和设计领域，术语rigid connection指的是一种连接或联接类型，它不允许被连接部分之间发生任何相对运动。这个概念在建筑、机械工程和结构分析等多个领域至关重要。理解rigid connection对于确保结构的稳定性和强度至关重要，因为它直接影响不同组件之间如何传递力量。为了说明rigid connection的重要性，可以考虑桥梁的建造。工程师必须仔细设计连接梁和支撑的接头，以确保它们能够承受不仅是静态负载，还有风和交通等动态力量。在这种情况下，rigid connection意味着梁在压力下不会弯曲或移动，从而保持桥梁的整体性。另一个例子可以在机械中找到，其中移动部件需要协同工作而不发生错位。例如，在发动机中，曲轴和连杆必须保持rigid connection以确保动力有效地从燃烧过程传递到车轮。此连接中的任何灵活性都可能导致效率低下、磨损增加甚至灾难性故障。此外，rigid connection的概念超越了物理结构，涵盖了各个学科中关系和系统的范畴。在软件工程中，例如，模块之间的rigid connection可能表示一个紧密耦合的系统，其中一个模块的更改需要另一个模块的更改。这可能会导致维护和可扩展性方面的挑战，因为开发人员必须应对这些相互依赖关系带来的复杂性。相比之下，更灵活的方法——通常称为“松散连接”——可以在适应性和修改便利性方面提供优势。例如，在设计新的软件应用程序时，开发人员可能更愿意创建允许在某些点上保持rigid connection而在其他地方则启用灵活性的接口。这种平衡可以导致强大的系统，使其更容易随着时间的推移进行更新和维护。总之，理解rigid connection在各个行业中发挥着关键作用，影响着我们的基础设施安全、机器性能以及软件设计。从物理或概念的角度来看，认识到rigid connection的含义有助于专业人士做出明智的决策，增强可靠性和效率。随着技术和工程的不断发展，围绕rigid connection的原则将继续成为创建有效和耐用系统的基础。最后，rigid connection的概念不仅限于物体之间的物理连接；它还适用于生活的各个方面，包括关系、系统和过程。通过理解和应用rigid connection的原则，我们可以创造出更强大、更具韧性的结构和系统，经得起时间的考验。