racing of the screw

简明释义

螺旋桨飞车

英英释义

例句

1.To prevent the racing of the screw 螺丝旋转过快, we implemented a new safety protocol.

为了防止racing of the screw 螺丝旋转过快，我们实施了一项新的安全协议。

2.After tightening the bolts, we checked for any racing of the screw 螺丝旋转过快 to ensure everything was secure.

在拧紧螺栓后，我们检查是否有racing of the screw 螺丝旋转过快以确保一切安全。

3.The engineer noted that the racing of the screw 螺丝旋转过快 was a sign of improper installation.

工程师指出，racing of the screw 螺丝旋转过快是安装不当的迹象。

4.During the assembly of the machine, we noticed the racing of the screw 螺丝旋转过快 and had to adjust the torque settings.

在机器组装过程中，我们注意到racing of the screw 螺丝旋转过快，不得不调整扭矩设置。

5.The technician explained that the racing of the screw 螺丝旋转过快 could lead to premature wear on the components.

技术人员解释说，racing of the screw 螺丝旋转过快可能会导致部件的过早磨损。

作文

In the world of mechanics, precision and attention to detail are paramount. One term that often arises in discussions about machinery and engineering is the racing of the screw. This phrase refers to a phenomenon where a screw or bolt is unable to maintain its intended position due to excessive rotational speed or improper installation. The racing of the screw can lead to a variety of mechanical failures, which can be detrimental to the overall function of a machine.Understanding the implications of the racing of the screw is crucial for engineers and technicians alike. When a screw races, it can strip threads, leading to a loss of holding power. This situation may arise during high-speed operations, where the friction generated by rapid movement can exceed the material's tolerance. As a result, components may become loose, causing vibrations that can further exacerbate the issue. In severe cases, the failure of a single screw can lead to catastrophic results, such as the breakdown of an entire system.To prevent the racing of the screw, engineers must consider several factors when designing and assembling machinery. First, selecting the right type of screw for the application is essential. Different materials and designs offer varying levels of strength and resistance to wear. For instance, using stainless steel screws in environments prone to corrosion can extend their lifespan and effectiveness.Moreover, proper torque specifications should be adhered to during installation. Over-tightening a screw can lead to deformation, while under-tightening can result in slippage. Utilizing tools such as torque wrenches can help ensure that screws are tightened to the manufacturer’s recommended specifications, reducing the risk of racing of the screw.Additionally, regular maintenance checks are vital in identifying early signs of wear and tear. By monitoring screws and bolts for signs of loosening or damage, technicians can address potential issues before they escalate into serious problems. Implementing preventive measures, such as using thread-locking compounds or washers, can also enhance the stability of screws and reduce the likelihood of racing.In conclusion, the racing of the screw is a critical concept within mechanical engineering that highlights the importance of precision and maintenance in machinery. Understanding this phenomenon allows engineers to design safer, more reliable systems. By taking proactive steps to prevent racing, we can ensure that machines operate efficiently and effectively, minimizing downtime and enhancing productivity. Ultimately, a thorough understanding of the racing of the screw not only safeguards equipment but also contributes to the overall success of engineering projects.

在机械世界中，精确性和对细节的关注至关重要。在讨论机械和工程时，常常会出现一个术语——螺丝的失控。这个短语指的是一种现象，即由于过快的旋转速度或不当的安装，螺丝或螺栓无法保持其预期的位置。螺丝的失控可能导致各种机械故障，这对机器的整体功能是有害的。理解螺丝的失控的影响对于工程师和技术人员来说至关重要。当螺丝失控时，它可能会剥离螺纹，导致保持力丧失。这种情况可能发生在高速操作期间，此时，由快速运动产生的摩擦可能超过材料的耐受力。因此，组件可能变得松动，导致振动，从而进一步加剧问题。在严重情况下，单个螺丝的失效可能导致灾难性后果，例如整个系统的崩溃。为了防止螺丝的失控，工程师在设计和组装机械时必须考虑多个因素。首先，为应用选择合适类型的螺丝至关重要。不同的材料和设计提供不同程度的强度和耐磨性。例如，在易腐蚀的环境中使用不锈钢螺丝可以延长其使用寿命和有效性。此外，在安装过程中应遵循适当的扭矩规格。过度拧紧螺丝可能导致变形，而拧得不足则可能导致滑移。使用扭矩扳手等工具可以帮助确保螺丝按照制造商的推荐规格拧紧，从而减少螺丝的失控的风险。此外，定期维护检查对于识别早期磨损迹象至关重要。通过监测螺丝和螺栓是否有松动或损坏的迹象，技术人员可以在问题升级为严重问题之前解决潜在问题。实施预防措施，例如使用螺纹锁定化合物或垫圈，也可以增强螺丝的稳定性，减少失控的可能性。总之，螺丝的失控是机械工程中的一个关键概念，突显了机械中精确性和维护的重要性。理解这一现象使工程师能够设计更安全、更可靠的系统。通过采取主动措施防止失控，我们可以确保机器高效、有效地运行，最小化停机时间，提高生产力。最终，对螺丝的失控的全面理解不仅能保护设备，还能促进工程项目的整体成功。