actual loading test

简明释义

实际负荷试验

英英释义

例句

1.The results of the actual loading test 实际载荷测试 indicated that the structure could support more weight than initially estimated.

这次实际载荷测试的结果表明，该结构能够承受的重量超过了最初的估计。

2.During the construction phase, an actual loading test 实际载荷测试 is critical to assess material durability.

在建设阶段，进行一次实际载荷测试对于评估材料耐久性至关重要。

3.Before the bridge can be opened to traffic, an actual loading test 实际载荷测试 must be conducted to ensure its safety.

在桥梁可以开放交通之前，必须进行一次实际载荷测试以确保其安全。

4.An actual loading test 实际载荷测试 was scheduled for next week to finalize the design specifications.

下周计划进行一次实际载荷测试以最终确定设计规格。

5.The engineers decided to perform an actual loading test 实际载荷测试 on the new building's foundation to verify its strength.

工程师们决定对新建筑的基础进行一次实际载荷测试以验证其强度。

作文

In the field of engineering and construction, the term actual loading test refers to a critical procedure used to evaluate the performance and safety of structures under real-world conditions. This test is designed to apply loads to a structure that it would typically encounter during its lifespan, allowing engineers to observe how the structure behaves when subjected to these forces. The significance of the actual loading test cannot be overstated, as it provides invaluable data that can inform design decisions and ensure the integrity of the structure. During an actual loading test, various types of loads are applied, including dead loads, live loads, and environmental loads such as wind or seismic activity. These tests are often conducted on bridges, buildings, and other large structures to assess their load-bearing capacity and stability. Engineers meticulously plan these tests, taking into account the specific characteristics of the structure and the types of loads it will face over time. One of the primary benefits of conducting an actual loading test is the ability to identify potential weaknesses in a structure before it is put into service. For instance, if a bridge fails to support the expected load during testing, engineers can make necessary adjustments to the design or materials used. This proactive approach helps to prevent catastrophic failures that could result in loss of life or significant financial repercussions. Moreover, the data gathered from an actual loading test can serve as a benchmark for future projects. By analyzing the results, engineers can develop more accurate models and simulations for predicting how similar structures will perform under load. This continuous improvement cycle enhances the overall safety and reliability of engineering practices. In addition to structural assessment, actual loading tests also play a crucial role in compliance with building codes and regulations. Many jurisdictions require that certain structures undergo these tests to ensure they meet safety standards. This requirement not only protects public safety but also instills confidence in the engineering profession. Furthermore, the process of conducting an actual loading test involves collaboration among various professionals, including structural engineers, construction teams, and safety inspectors. This teamwork fosters a culture of accountability and precision, further enhancing the quality of the final product. In conclusion, the actual loading test is an essential aspect of modern engineering that ensures structures are safe, reliable, and capable of withstanding the loads they will encounter throughout their existence. By rigorously testing structures under realistic conditions, engineers can identify potential issues early, comply with safety regulations, and ultimately protect the lives of those who use these structures. As technology advances, the methods and tools used for actual loading tests will continue to evolve, further improving our ability to design safe and resilient infrastructure.

在工程和建筑领域，术语实际荷载测试指的是一种关键程序，用于评估结构在现实条件下的性能和安全性。该测试旨在向结构施加其在使用寿命期间通常会遇到的荷载，使工程师能够观察结构在这些力作用下的表现。实际荷载测试的重要性不容小觑，因为它提供了宝贵的数据，可以为设计决策提供信息，并确保结构的完整性。在实际荷载测试期间，会施加各种类型的荷载，包括死荷载、活荷载以及风或地震等环境荷载。这些测试通常在桥梁、建筑物和其他大型结构上进行，以评估它们的承载能力和稳定性。工程师会仔细规划这些测试，考虑到结构的特定特征和它将长期面临的荷载类型。进行实际荷载测试的主要好处之一是能够在结构投入使用之前识别潜在的弱点。例如，如果一座桥在测试中未能支持预期的荷载，工程师可以对设计或所用材料进行必要的调整。这种主动的方法有助于防止可能导致生命损失或重大财务后果的灾难性故障。此外，从实际荷载测试中收集的数据可以作为未来项目的基准。通过分析结果，工程师可以开发更准确的模型和模拟，以预测类似结构在荷载下的表现。这种持续改进的循环增强了工程实践的整体安全性和可靠性。除了结构评估外，实际荷载测试还在遵守建筑规范和法规方面发挥着至关重要的作用。许多司法管辖区要求某些结构进行这些测试，以确保它们符合安全标准。这一要求不仅保护公众安全，还增强了人们对工程专业的信心。此外，进行实际荷载测试的过程涉及结构工程师、施工团队和安全检查员等各类专业人士之间的合作。这种团队合作培养了问责制和精确性的文化，进一步提升了最终产品的质量。总之，实际荷载测试是现代工程的重要方面，确保结构安全、可靠，并能够承受它们在整个存在期间将遇到的荷载。通过在现实条件下严格测试结构，工程师可以及早识别潜在问题，遵守安全法规，并最终保护使用这些结构的人的生命。随着技术的进步，用于实际荷载测试的方法和工具将继续发展，进一步提高我们设计安全和韧性基础设施的能力。