fictitious load

简明释义

虚荷载

英英释义

例句

1.The software allows users to input a fictitious load to simulate various operational scenarios.

该软件允许用户输入一个虚构负载以模拟各种操作场景。

2.The engineer explained that the calculations included a fictitious load to account for unexpected stress factors.

工程师解释说，计算中包括了一个虚构负载以考虑意外的应力因素。

3.By including a fictitious load, we can better understand the potential failure points in the design.

通过包含一个虚构负载，我们可以更好地理解设计中的潜在故障点。

4.The report indicated that the fictitious load was necessary for ensuring safety margins.

报告指出，虚构负载对于确保安全边际是必要的。

5.In the simulation, we added a fictitious load to test the system's resilience under extreme conditions.

在模拟中，我们添加了一个虚构负载来测试系统在极端条件下的韧性。

作文

In the world of engineering and electrical systems, the term fictitious load refers to an imaginary or theoretical load that is used for analysis and design purposes. It does not represent a physical load that exists in reality but serves as a tool for engineers to simulate various conditions and scenarios. Understanding the concept of fictitious load is crucial for anyone involved in electrical engineering, as it helps in designing systems that can handle real-world loads effectively.When designing electrical circuits, engineers often encounter situations where they need to predict how a system will behave under different conditions. This is where the idea of fictitious load becomes particularly useful. By creating a fictitious load, engineers can apply theoretical values to their calculations, allowing them to test the limits and capabilities of their designs without the need for actual physical components. This can save time and resources during the design phase, as well as provide insights into potential issues that may arise when the system is operational.For instance, consider an electrical circuit designed to power a set of lights in a building. An engineer may use a fictitious load to simulate the total wattage that the lights would consume. By doing so, they can analyze how the circuit will perform under maximum load conditions, ensuring that the wiring, breakers, and other components are adequately rated to handle the expected demand. This proactive approach helps prevent problems such as overheating, circuit failures, or even fire hazards once the system is put into operation.Moreover, the use of fictitious load extends beyond just electrical circuits. In mechanical engineering, for example, similar concepts are applied when analyzing stress and strain on materials. Engineers might apply a fictitious load to a structure to determine how it will react under different weight distributions or environmental conditions. This allows for safer and more efficient designs, minimizing the risk of structural failure.However, while fictitious loads are invaluable for simulations and calculations, it is essential to remember that they are not substitutes for real-world testing. Once a design has been finalized using fictitious loads, it must still be validated through practical experiments to ensure that it operates as expected. This validation phase is critical, as it confirms the reliability and safety of the system before it is implemented.In conclusion, the concept of fictitious load plays a vital role in the fields of engineering and design. By allowing engineers to model and analyze systems without the constraints of physical limitations, fictitious loads enable more innovative and effective solutions. While they serve as powerful tools for simulation, it is important to complement these theoretical models with real-world testing to ensure that designs meet the necessary standards of safety and performance. As technology continues to advance, the use of fictitious load will likely evolve, further enhancing our ability to create efficient and reliable systems in various engineering disciplines.

在工程和电气系统的世界中，术语虚构负载指的是一种用于分析和设计目的的想象或理论负载。它并不代表现实中存在的物理负载，而是作为工程师模拟各种条件和场景的工具。理解虚构负载的概念对于任何参与电气工程的人来说都是至关重要的，因为它有助于设计能够有效处理现实世界负载的系统。在设计电路时，工程师经常遇到需要预测系统在不同条件下行为的情况。这就是虚构负载特别有用的地方。通过创建虚构负载，工程师可以将理论值应用于计算，从而测试其设计的极限和能力，而无需实际物理组件。这可以在设计阶段节省时间和资源，并提供对系统投入运行时可能出现的问题的洞察。例如，考虑一个设计用于为建筑中的一组灯供电的电路。工程师可能会使用虚构负载来模拟灯具将消耗的总功率。通过这样做，他们可以分析电路在最大负载条件下的表现，确保布线、断路器和其他组件足够额定，以处理预期的需求。这种主动的方法有助于防止在系统投入运行后出现过热、电路故障甚至火灾危险等问题。此外，虚构负载的使用不仅限于电路。在机械工程中，例如，当分析材料的应力和应变时，也会应用类似的概念。工程师可能会对结构施加虚构负载，以确定在不同重量分布或环境条件下它将如何反应。这使得更安全、更高效的设计成为可能，最大限度地降低了结构失效的风险。然而，虽然虚构负载在模拟和计算中是无价的，但必须记住，它们不能替代现实世界的测试。一旦使用虚构负载最终确定设计，仍然必须通过实际实验进行验证，以确保其按预期运行。这个验证阶段至关重要，因为它确认了系统在实施前的可靠性和安全性。总之，虚构负载的概念在工程和设计领域发挥着重要作用。通过允许工程师在没有物理限制的情况下建模和分析系统，虚构负载使得更具创新性和有效的解决方案成为可能。虽然它们作为模拟的强大工具，但重要的是要通过现实世界的测试来补充这些理论模型，以确保设计符合必要的安全和性能标准。随着技术的不断进步，虚构负载的使用可能会进一步发展，增强我们在各个工程学科中创建高效和可靠系统的能力。