load increment

简明释义

载重增加

英英释义

例句

1.To ensure stability, we need to monitor the load increment closely.

为了确保稳定性，我们需要密切监控负载增量。

2.The system can handle a load increment of up to 100 users simultaneously.

系统可以处理高达100个用户同时的负载增量。

3.After the load increment, the response time doubled.

在负载增量之后，响应时间翻了一番。

4.During peak hours, the server experienced a significant load increment that affected performance.

在高峰时段，服务器经历了显著的负载增量，影响了性能。

5.The application is designed to scale with each load increment.

该应用程序设计为随着每个负载增量进行扩展。

作文

In the realm of engineering and physics, the concept of load increment plays a pivotal role in understanding how structures respond to various forces. A load increment refers to the small increase in load applied to a structure or material during testing or analysis. This incremental approach allows engineers to observe how materials behave under stress and to identify the point at which failure occurs. By systematically increasing the load, engineers can gather crucial data on the strength and durability of materials, which is essential for designing safe and reliable structures.For instance, when testing the load-bearing capacity of a bridge, engineers will gradually apply weight to the bridge until it reaches its maximum load capacity. Each step of this process involves a load increment, which helps in pinpointing the exact moment the bridge begins to show signs of strain or deformation. Understanding these increments is vital for ensuring that the bridge can safely support the weight of vehicles and pedestrians without risk of collapse.Moreover, the concept of load increment is not limited to structural engineering. It also finds applications in various fields such as materials science, mechanical engineering, and even software development. In materials science, researchers may use load increment tests to determine the tensile strength of different materials. By applying incremental loads until the material fails, scientists can create stress-strain curves that illustrate the material's behavior under different conditions.In mechanical engineering, load increment is crucial when designing components that must withstand fluctuating forces, such as gears and bearings. Engineers must consider how these components react to incremental increases in load to ensure they do not wear out prematurely or fail under operational conditions. This careful consideration of load increment ensures the longevity and reliability of mechanical systems.Furthermore, in the context of software development, the term load increment can refer to the gradual increase in user load during performance testing. Developers often simulate a growing number of users accessing an application to identify how well it can handle increased demand. By monitoring the system's performance with each load increment, developers can detect potential bottlenecks and optimize their applications accordingly.The importance of understanding load increment extends beyond mere theoretical knowledge; it has practical implications that affect safety, efficiency, and performance across various industries. As technologies evolve and the demands on structures and systems increase, the need for precise understanding of load increment becomes ever more critical.In conclusion, the concept of load increment is integral to many fields, providing insights into the behavior of materials and systems under stress. Whether in civil engineering, materials science, mechanical engineering, or software development, recognizing the significance of load increment allows professionals to design safer, more efficient, and more reliable systems. As we continue to push the boundaries of technology and innovation, a thorough understanding of load increment will remain a cornerstone of successful engineering practices.

在工程和物理学领域，load increment（载荷增量）的概念在理解结构如何响应各种力方面起着关键作用。load increment指的是在测试或分析过程中施加于结构或材料上的小幅载荷增加。这种增量方法使工程师能够观察材料在应力下的行为，并识别出失效发生的点。通过系统地增加载荷，工程师可以收集关于材料强度和耐久性的关键数据，这对设计安全可靠的结构至关重要。例如，在测试桥梁的承载能力时，工程师会逐渐向桥梁施加重量，直到其达到最大承载能力。这个过程的每一步都涉及一个load increment，这有助于准确找出桥梁开始出现应变或变形的时刻。理解这些增量对于确保桥梁能够安全支撑车辆和行人的重量而不发生坍塌风险至关重要。此外，load increment的概念并不限于结构工程。它还在材料科学、机械工程甚至软件开发等多个领域中得到了应用。在材料科学中，研究人员可能会使用load increment测试来确定不同材料的拉伸强度。通过施加增量载荷直到材料失效，科学家们可以创建应力-应变曲线，说明材料在不同条件下的行为。在机械工程中，load increment在设计必须承受波动性力量的组件（如齿轮和轴承）时至关重要。工程师必须考虑这些组件在载荷逐渐增加时的反应，以确保它们不会过早磨损或在操作条件下失效。对load increment的这种仔细考虑确保了机械系统的耐用性和可靠性。此外，在软件开发的背景下，load increment一词可以指在性能测试期间用户负载的逐步增加。开发人员通常模拟越来越多的用户访问应用程序，以识别其处理增加需求的能力。通过监控系统在每个load increment下的性能，开发人员可以发现潜在的瓶颈并相应地优化他们的应用程序。理解load increment的重要性超越了单纯的理论知识；它具有影响各个行业的安全性、效率和性能的实际意义。随着技术的不断发展以及对结构和系统的需求增加，对load increment的精确理解变得愈发重要。总之，load increment的概念对许多领域至关重要，为材料和系统在应力下的行为提供了深刻见解。无论是在土木工程、材料科学、机械工程还是软件开发中，认识到load increment的重要性使专业人士能够设计出更安全、更高效和更可靠的系统。随着我们不断推动技术和创新的边界，对load increment的透彻理解将始终是成功工程实践的基石。