mechanical connection

简明释义

机械联结

英英释义

例句

1.The failure of the mechanical connection between the gears caused the machine to stop working.

齿轮之间的机械连接故障导致机器停止工作。

2.A loose mechanical connection can lead to vibrations that may damage the equipment over time.

松动的机械连接可能导致振动，随着时间的推移可能会损坏设备。

3.In robotics, a reliable mechanical connection is essential for the movement of joints.

在机器人技术中，可靠的机械连接对于关节的运动至关重要。

4.The engineer explained the importance of a strong mechanical connection in ensuring the stability of the structure.

工程师解释了强大的机械连接在确保结构稳定性中的重要性。

5.During the assembly process, each part must have a secure mechanical connection to function properly.

在组装过程中，每个部件必须有一个安全的机械连接才能正常工作。

作文

In the world of engineering and technology, the term mechanical connection refers to the physical linking of two or more components through various means such as bolts, screws, or welds. This concept is fundamental in the design and construction of machines, structures, and vehicles. A well-designed mechanical connection ensures that the parts work together effectively, providing the necessary strength and stability required for the intended application.The importance of mechanical connection cannot be overstated. For instance, in the automotive industry, the connections between different parts of a vehicle must be robust enough to withstand the forces generated during operation. If these connections fail, it could lead to catastrophic results, not only damaging the vehicle but also posing serious risks to the safety of its occupants. Therefore, engineers spend a significant amount of time analyzing and testing these connections to ensure they meet stringent safety standards.Moreover, the choice of materials used in mechanical connection is crucial. Different materials have varying properties, such as tensile strength, corrosion resistance, and thermal expansion. Engineers must select the appropriate materials based on the specific requirements of the application. For example, in environments exposed to high temperatures or corrosive substances, specialized materials or coatings may be necessary to maintain the integrity of the mechanical connection over time.In addition to traditional methods of forming mechanical connection, advancements in technology have introduced new techniques such as adhesive bonding and 3D printing. These innovative methods can offer advantages in terms of weight reduction and design flexibility. For instance, in aerospace engineering, where every gram counts, using adhesives instead of metal fasteners can significantly reduce the overall weight of an aircraft while maintaining the necessary strength.Furthermore, the concept of mechanical connection extends beyond individual components to entire systems. In robotics, for example, the connections between different joints and actuators must be precisely engineered to allow for smooth and accurate movement. Any flaws in these connections can result in poor performance, leading to inefficiencies or even failures in robotic operations.To illustrate the significance of mechanical connection, consider the construction of a bridge. The structural integrity of the bridge relies heavily on the connections between beams, girders, and other components. Engineers use various methods to ensure these connections are secure, such as welding or using high-strength bolts. The failure of a single mechanical connection can jeopardize the entire structure, highlighting the critical role these connections play in engineering.In conclusion, mechanical connection is a vital concept in engineering that encompasses the methods and materials used to link components together. Its importance spans across various industries, including automotive, aerospace, and construction. As technology continues to evolve, so too will the methods of creating and improving these connections, ensuring that they remain reliable and effective for future applications. Understanding the principles behind mechanical connection is essential for anyone involved in engineering or technology, as it forms the backbone of countless innovations and advancements in our modern world.

在工程和技术的世界中，短语机械连接指的是通过各种手段（如螺栓、螺丝或焊接）将两个或多个组件物理连接起来的过程。这个概念在机器、结构和车辆的设计和建造中是基础性的。设计良好的机械连接确保部件有效协同工作，提供所需的强度和稳定性，以满足预期的应用需求。机械连接的重要性不容小觑。例如，在汽车工业中，车辆不同部件之间的连接必须足够坚固，以承受操作过程中产生的力量。如果这些连接失败，可能导致灾难性后果，不仅损坏车辆，还对乘员的安全构成严重风险。因此，工程师花费大量时间分析和测试这些连接，以确保它们符合严格的安全标准。此外，选择用于机械连接的材料至关重要。不同材料具有不同的特性，如抗拉强度、耐腐蚀性和热膨胀性。工程师必须根据应用的具体要求选择合适的材料。例如，在高温或腐蚀性环境中，可能需要使用专用材料或涂层，以保持机械连接的完整性。除了传统的形成机械连接的方法外，技术的进步也引入了新技术，如粘合剂连接和3D打印。这些创新方法在减轻重量和设计灵活性方面可以提供优势。例如，在航空工程中，每克都很重要，使用粘合剂而不是金属紧固件可以显著减少飞机的整体重量，同时保持所需的强度。此外，机械连接的概念不仅限于单个组件，还扩展到整个系统。在机器人技术中，各个关节和执行器之间的连接必须精确工程设计，以实现平滑和准确的运动。这些连接中的任何缺陷都可能导致性能不佳，从而导致机器人操作中的低效率甚至故障。为了说明机械连接的重要性，考虑一下桥梁的建造。桥梁的结构完整性在很大程度上依赖于梁、支架和其他组件之间的连接。工程师使用各种方法来确保这些连接的安全性，例如焊接或使用高强度螺栓。单一机械连接的失败可能会危及整个结构，突显出这些连接在工程中的关键作用。总之，机械连接是工程学中的一个重要概念，涵盖了用于连接组件的方法和材料。其重要性跨越多个行业，包括汽车、航空和建筑。随着技术的不断发展，创造和改善这些连接的方法也将不断演变，确保它们在未来的应用中保持可靠和有效。理解机械连接背后的原理对于任何参与工程或技术的人来说都是至关重要的，因为它构成了我们现代世界中无数创新和进步的基础。