speed under load

简明释义

负载转速

英英释义

例句

1.The software was optimized for better speed under load, resulting in improved user experience during peak times.

该软件经过优化，以提高负载下的速度，从而改善高峰期的用户体验。

2.We need to measure the speed under load of our new server to determine its performance in real-world conditions.

我们需要测量新服务器的负载下的速度，以确定其在实际条件下的性能。

3.The engineer tested the machine's speed under load to ensure it could handle heavy operations.

工程师测试了机器的负载下的速度，以确保它能够处理重负荷操作。

4.The results showed that the speed under load decreased significantly when the temperature rose.

结果显示，当温度升高时，负载下的速度显著下降。

5.Testing the speed under load is crucial for ensuring the reliability of our power systems.

测试负载下的速度对于确保我们电力系统的可靠性至关重要。

作文

In the world of engineering and technology, one of the most critical factors to consider is the performance of machinery and equipment under various conditions. A term that often arises in this context is speed under load, which refers to the rate at which a machine operates when it is subjected to a specific amount of weight or pressure. Understanding speed under load is essential for engineers and manufacturers as it helps them design more efficient machines that can perform optimally without compromising safety or reliability.When a machine operates without any load, it can achieve its maximum speed. However, once a load is applied, several factors come into play that can affect its performance. For instance, the type and weight of the load, the machine's design, and the materials used all influence the speed under load. Engineers must consider these variables to ensure that machines can handle the expected loads while maintaining a reasonable operating speed.The importance of speed under load can be seen in various industries, from manufacturing to transportation. In manufacturing, machines such as conveyor belts and robotic arms need to operate efficiently to keep production lines running smoothly. If a conveyor belt slows down significantly under load, it can lead to bottlenecks in the production process, resulting in delays and increased costs. Therefore, understanding how these machines perform under load is crucial for optimizing their design and operation.Similarly, in the transportation industry, vehicles must be able to maintain a certain speed under load to ensure safe and timely deliveries. For example, trucks carrying heavy cargo need to have engines that can produce sufficient power to maintain speed on inclines and during acceleration. If a truck cannot sustain its speed under load, it may struggle to reach its destination on time, leading to dissatisfaction among customers and potential financial losses.Moreover, testing speed under load is an integral part of quality assurance in product development. Before a machine is released to the market, it undergoes rigorous testing to determine how well it performs under various loads. This testing helps identify any weaknesses or potential failures that could occur during regular use. By ensuring that a product meets the necessary standards for speed under load, manufacturers can enhance their reputation and reduce the likelihood of recalls or safety issues in the future.In conclusion, speed under load is a vital concept in the fields of engineering and technology. It encompasses the performance of machines and equipment when subjected to various loads, affecting their efficiency and reliability. By comprehensively understanding speed under load, engineers can design better machines that not only meet industry standards but also cater to the needs of consumers. As technology continues to advance, the emphasis on optimizing speed under load will remain crucial for the success of various industries, ultimately leading to improved productivity and safety.

在工程和技术的世界中，考虑机器和设备在各种条件下的性能是至关重要的。一个常常出现的术语是负载下的速度，它指的是当机器受到特定重量或压力时的运行速率。理解负载下的速度对工程师和制造商来说至关重要，因为这有助于他们设计出更高效的机器，使其在不妨碍安全或可靠性的情况下最佳运行。当一台机器在没有任何负载的情况下运行时，它可以达到其最大速度。然而，一旦施加负载，就会有几个因素影响其性能。例如，负载的类型和重量、机器的设计以及所用材料都会影响负载下的速度。工程师必须考虑这些变量，以确保机器能够处理预期的负载，同时保持合理的操作速度。负载下的速度的重要性在各个行业中都可以看到，从制造业到交通运输。在制造业中，像输送带和机器人臂这样的机器需要高效运作，以保持生产线的顺畅。如果输送带在负载下显著减速，可能会导致生产过程中的瓶颈，从而造成延误和成本增加。因此，理解这些机器在负载下的表现对于优化其设计和操作至关重要。同样，在交通运输行业，车辆必须能够维持一定的负载下的速度以确保安全和及时的交付。例如，运输重货的卡车需要具备足够的动力来在上坡和加速时维持速度。如果卡车无法在负载下保持速度，可能会在按时到达目的地方面遇到困难，导致客户的不满和潜在的经济损失。此外，测试负载下的速度是产品开发质量保证的重要组成部分。在一台机器上市之前，它需要经过严格的测试，以确定其在各种负载下的表现。这种测试有助于识别在正常使用中可能出现的任何弱点或潜在故障。通过确保产品满足负载下的速度的必要标准，制造商可以提升自己的声誉并减少未来召回或安全问题的可能性。总之，负载下的速度是工程和技术领域的一个重要概念。它包含了机器和设备在承受各种负载时的性能，影响其效率和可靠性。通过全面理解负载下的速度，工程师可以设计出更好的机器，不仅符合行业标准，还能满足消费者的需求。随着技术的不断进步，优化负载下的速度的重视程度将继续是各个行业成功的关键，最终将推动生产力和安全性的提升。