full-scale range

简明释义

满刻度量程

英英释义

例句

1.To ensure safety, the engineers tested a full-scale range of scenarios for the new bridge.

为了确保安全，工程师对新桥进行了全尺度范围的场景测试。

2.The new testing facility can accommodate a full-scale range of prototypes, ensuring comprehensive evaluations.

新的测试设施可以容纳全尺度范围的原型，确保全面评估。

3.Our research includes a full-scale range of environmental factors that affect plant growth.

我们的研究包括影响植物生长的全尺度范围环境因素。

4.The company offers a full-scale range of services from design to implementation.

该公司提供从设计到实施的全尺度范围服务。

5.The exhibition showcased a full-scale range of innovations in renewable energy technology.

展览展示了可再生能源技术的全尺度范围创新。

作文

In the field of engineering and technology, the concept of a full-scale range is crucial for understanding the capabilities and limitations of various systems. A full-scale range refers to the complete set of operational conditions or parameters that a particular device or system can handle. This includes everything from the minimum to the maximum performance levels, allowing engineers and designers to evaluate how well a system can perform under different circumstances. For instance, consider the development of an aircraft. Engineers must determine the full-scale range of the aircraft's performance, which includes its speed, altitude, payload capacity, and fuel efficiency. By testing these parameters in various scenarios, they can ensure that the aircraft meets safety standards and operational requirements. Without a clear understanding of the full-scale range, it would be impossible to design an aircraft that could safely operate under diverse conditions.Moreover, the full-scale range is not only applicable to aviation but also to other fields such as automotive engineering, electronics, and even software development. In automotive engineering, for example, the full-scale range of a vehicle might include acceleration times, braking distances, and handling characteristics under different weather conditions. By analyzing these factors, manufacturers can create vehicles that are not only efficient but also safe and reliable.In the world of electronics, the full-scale range of a component, such as a sensor or amplifier, defines the limits within which the device can operate effectively. If a sensor is designed to measure temperature, understanding its full-scale range allows engineers to know the lowest and highest temperatures it can accurately detect. This is essential for applications ranging from climate control systems to industrial automation, where precise measurements are critical.Furthermore, in software development, the full-scale range can refer to the range of inputs and outputs that a program can handle. For example, a data processing application might be designed to process a certain volume of data efficiently. Understanding the full-scale range of this application helps developers identify potential bottlenecks and optimize performance, ensuring that the software can handle real-world usage scenarios.In conclusion, the term full-scale range encompasses a vital aspect of engineering and technology across multiple disciplines. It serves as a benchmark for performance evaluation, guiding engineers in their design processes and helping them create systems that meet the necessary specifications. By thoroughly understanding the full-scale range of any system, professionals can ensure reliability, efficiency, and safety in their designs, ultimately leading to better products and services for consumers. As technology continues to advance, the importance of defining and adhering to the full-scale range will only grow, making it an essential consideration for future innovations.

在工程和技术领域，full-scale range的概念对于理解各种系统的能力和局限性至关重要。full-scale range指的是特定设备或系统能够处理的完整操作条件或参数集。这包括从最小到最大性能水平的所有内容，使工程师和设计师能够评估系统在不同情况下的表现。 例如，考虑飞机的开发。工程师必须确定飞机性能的full-scale range，这包括其速度、高度、载荷能力和燃油效率。通过在各种场景中测试这些参数，他们可以确保飞机符合安全标准和操作要求。如果没有对full-scale range的清晰理解，就不可能设计出能够在多种条件下安全运行的飞机。此外，full-scale range不仅适用于航空，还适用于汽车工程、电子学甚至软件开发等其他领域。在汽车工程中，例如，车辆的full-scale range可能包括加速时间、制动距离和在不同天气条件下的操控特性。通过分析这些因素，制造商可以创建不仅高效而且安全可靠的车辆。在电子学领域，组件如传感器或放大器的full-scale range定义了设备可以有效运行的极限。如果传感器被设计用于测量温度，理解其full-scale range可以让工程师知道它可以准确检测的最低和最高温度。这对于从气候控制系统到工业自动化等应用至关重要，其中精确测量至关重要。此外，在软件开发中，full-scale range可以指程序可以处理的输入和输出范围。例如，一个数据处理应用程序可能被设计为高效处理一定量的数据。理解该应用程序的full-scale range有助于开发人员识别潜在瓶颈并优化性能，确保软件能够处理现实世界的使用场景。总之，full-scale range一词涵盖了多个学科中工程和技术的重要方面。它作为性能评估的基准，指导工程师进行设计过程，并帮助他们创建符合必要规格的系统。通过深入理解任何系统的full-scale range，专业人士可以确保其设计的可靠性、效率和安全性，最终为消费者提供更好的产品和服务。随着技术的不断进步，定义和遵循full-scale range的重要性只会增加，这使其成为未来创新的重要考虑因素。