stalling load

简明释义

打滑载荷

英英释义

例句

1.The technician adjusted the settings to minimize the effects of stalling load.

技术人员调整设置以最小化失速负载的影响。

2.In manufacturing, a stalling load can lead to machine malfunctions.

在制造业中，失速负载可能导致机器故障。

3.During the test, we noticed that the system struggled under a heavy stalling load.

在测试过程中，我们注意到系统在重负载下出现了困难，称为失速负载。

4.The software crashed when it encountered a stalling load during processing.

软件在处理过程中遇到失速负载时崩溃。

5.The engine failed to start because of a persistent stalling load.

由于持续的失速负载，发动机无法启动。

作文

In the realm of engineering and physics, the term stalling load refers to a specific condition where a system or component experiences a load that causes it to cease functioning effectively. This phenomenon can occur in various contexts, such as in electrical circuits, mechanical systems, or even in aerodynamics. Understanding the implications of a stalling load is crucial for engineers and designers, as it can significantly impact the performance and safety of devices and structures. For instance, consider an electric motor that is designed to lift heavy objects. When the load exceeds the motor's capacity, the motor may reach a point known as the stalling load, which is the maximum load it can handle before it stops moving. This situation can lead to overheating, damage, or even complete failure of the motor if not properly managed. Therefore, engineers must carefully calculate the appropriate load limits to prevent reaching this critical threshold. Similarly, in the context of aircraft, the stalling load can refer to the weight and aerodynamic forces acting on the wings during flight. If the load becomes too great, the aircraft may experience a stall, resulting in a loss of lift and control. Pilots are trained to recognize the signs of approaching a stalling load and to respond accordingly to maintain safe flight conditions. The concept of stalling load is not limited to mechanical systems; it also applies to software and data processing. In computing, a system can become overloaded with data requests, leading to a state where it can no longer process information efficiently. This is akin to a stalling load in mechanical terms, as the system effectively 'stalls' under pressure. Developers must implement strategies to manage load balancing and prevent bottlenecks to ensure smooth operation. To mitigate the risks associated with stalling loads, engineers employ various strategies. One common approach is to incorporate safety factors into their designs. By anticipating potential overload scenarios, they can create systems that are robust enough to handle unexpected stresses without failing. Additionally, regular maintenance and monitoring can help identify early signs of excessive load conditions, allowing for timely interventions. In conclusion, the term stalling load encompasses a critical concept in multiple fields, including engineering, aviation, and computing. Recognizing and managing stalling loads is essential for ensuring the reliability and safety of systems. As technology continues to advance, understanding these principles will become increasingly important for professionals in various industries. By prioritizing the prevention of stalling loads, we can enhance the performance and longevity of our systems, ultimately benefiting society as a whole.

在工程和物理学领域，术语stalling load指的是一种特定条件，其中系统或组件经历的负载使其无法有效运行。这种现象可以发生在各种情况下，例如在电路、机械系统甚至空气动力学中。理解stalling load的含义对工程师和设计师至关重要，因为它会显著影响设备和结构的性能和安全性。 例如，考虑一个设计用于提升重物的电动机。当负载超过电动机的能力时，电动机可能会达到一个称为stalling load的点，即它可以处理的最大负载，在此之前它停止移动。这种情况如果管理不当，可能导致过热、损坏甚至电动机的完全失效。因此，工程师必须仔细计算适当的负载限制，以防达到这一关键阈值。 同样，在飞机的背景下，stalling load可以指飞行过程中作用于机翼的重量和气动力。如果负载变得过大，飞机可能会经历失速，导致升力和控制的丧失。飞行员经过培训以识别接近stalling load的迹象，并相应做出反应，以保持安全的飞行条件。 Stalling load的概念不仅限于机械系统；它也适用于软件和数据处理。在计算中，系统可能因数据请求过多而过载，导致其无法有效处理信息。这类似于机械术语中的stalling load，因为系统在压力下有效地“停滞”。开发人员必须实施策略来管理负载平衡，防止瓶颈，以确保操作顺畅。 为了减轻与stalling loads相关的风险，工程师采用各种策略。一种常见的方法是在设计中引入安全系数。通过预见潜在的过载场景，他们可以创建足够强大的系统，以应对意外压力，而不会失效。此外，定期维护和监控可以帮助识别过载条件的早期迹象，从而允许及时干预。 总之，术语stalling load涵盖了多个领域中的关键概念，包括工程、航空和计算。识别和管理stalling loads对于确保系统的可靠性和安全性至关重要。随着技术的不断进步，理解这些原则将变得越来越重要，适用于各个行业的专业人士。通过优先考虑防止stalling loads，我们可以增强系统的性能和使用寿命，最终使整个社会受益。