engineering reliability; reliability of works

简明释义

工程可靠性

英英释义

例句

1.Investing in engineering reliability 工程可靠性 can save companies significant costs in the long run.

投资于工程可靠性 工程可靠性可以为公司节省长期的显著成本。

2.Regular maintenance is essential for ensuring the reliability of works 工程的可靠性 in any infrastructure project.

定期维护对确保任何基础设施项目的工程的可靠性 工程的可靠性至关重要。

3.The reliability of works 工程的可靠性 was confirmed through rigorous quality assurance processes.

通过严格的质量保证过程确认了工程的可靠性 工程的可靠性。

4.To achieve engineering reliability 工程可靠性, engineers must conduct thorough testing before deployment.

为了实现工程可靠性 工程可靠性，工程师必须在部署前进行彻底测试。

5.The construction team prioritized engineering reliability 工程可靠性 by using high-quality materials.

施工团队通过使用高质量材料优先考虑工程可靠性 工程可靠性。

作文

In the modern world, where technology and infrastructure are rapidly evolving, the concept of engineering reliability; reliability of works has become increasingly important. This term refers to the ability of a system or structure to perform its intended function consistently over time, under varying conditions. Ensuring engineering reliability; reliability of works is crucial for the safety, efficiency, and longevity of any engineering project. From bridges and buildings to software systems, the implications of reliability extend across multiple domains.One of the primary reasons why engineering reliability; reliability of works is essential is safety. In civil engineering, for instance, the failure of a bridge or a building can lead to catastrophic consequences, including loss of life and significant economic damage. Engineers must consider various factors, such as material properties, environmental conditions, and load-bearing capacities, to ensure that their designs are reliable. By conducting thorough testing and using advanced modeling techniques, engineers can predict potential failures and mitigate risks, thereby enhancing engineering reliability; reliability of works.Moreover, reliability also impacts the efficiency of operations. In manufacturing, for example, machines and equipment must operate reliably to minimize downtime and maintain productivity. If a machine fails unexpectedly, it can halt production, leading to delays and increased costs. Therefore, manufacturers invest in regular maintenance and implement quality control measures to ensure that their equipment meets the necessary reliability standards. This commitment to engineering reliability; reliability of works not only optimizes performance but also improves customer satisfaction by delivering products on time.In the realm of software engineering, engineering reliability; reliability of works takes on a different yet equally critical dimension. Software systems must be designed to handle various scenarios without crashing or producing errors. Developers employ rigorous testing methodologies, such as unit tests and integration tests, to identify and resolve issues before deployment. When software is reliable, users can trust it to perform as expected, which is vital for applications ranging from banking to healthcare. Thus, ensuring engineering reliability; reliability of works in software development is fundamental to maintaining user confidence and safeguarding sensitive information.Furthermore, sustainability plays a significant role in the conversation about engineering reliability; reliability of works. As society becomes more aware of environmental issues, engineers are tasked with creating solutions that not only meet current needs but also consider future generations. This requires a reliable approach to resource management, waste reduction, and energy efficiency. By incorporating sustainable practices into their designs, engineers can enhance the long-term reliability of their works while contributing to a healthier planet.In conclusion, the significance of engineering reliability; reliability of works cannot be overstated. It is a multifaceted concept that encompasses safety, efficiency, software integrity, and sustainability. As we continue to innovate and develop new technologies, prioritizing reliability will be essential for the success of engineering projects. By understanding and implementing the principles of engineering reliability; reliability of works, engineers can create structures and systems that not only function well but also stand the test of time, ultimately benefiting society as a whole.

在现代世界，科技和基础设施迅速发展，工程可靠性；工程作品的可靠性的概念变得越来越重要。这个术语指的是一个系统或结构在不同条件下持续执行其预期功能的能力。确保工程可靠性；工程作品的可靠性对任何工程项目的安全性、效率和持久性至关重要。从桥梁和建筑物到软件系统，可靠性的影响扩展到多个领域。工程可靠性；工程作品的可靠性至关重要的主要原因之一是安全性。例如，在土木工程中，桥梁或建筑物的失败可能导致灾难性的后果，包括生命损失和巨大的经济损失。工程师必须考虑各种因素，如材料特性、环境条件和承载能力，以确保他们的设计是可靠的。通过进行彻底的测试和使用先进的建模技术，工程师可以预测潜在的故障并减轻风险，从而增强工程可靠性；工程作品的可靠性。此外，可靠性还影响操作的效率。在制造业中，例如，机器和设备必须可靠运行，以最小化停机时间并维持生产力。如果一台机器意外故障，可能会停止生产，导致延误和增加成本。因此，制造商投资于定期维护，并实施质量控制措施，以确保其设备符合必要的可靠性标准。对工程可靠性；工程作品的可靠性的承诺不仅优化了性能，还通过按时交付产品提高了客户满意度。在软件工程领域，工程可靠性；工程作品的可靠性呈现出不同但同样关键的维度。软件系统必须设计成能够处理各种场景而不崩溃或产生错误。开发人员采用严格的测试方法，如单元测试和集成测试，在部署之前识别和解决问题。当软件可靠时，用户可以信任它按预期执行，这对于从银行业务到医疗保健的应用至关重要。因此，确保软件开发中的工程可靠性；工程作品的可靠性对维护用户信心和保护敏感信息至关重要。此外，可持续性在关于工程可靠性；工程作品的可靠性的讨论中扮演着重要角色。随着社会对环境问题的认识加深，工程师被要求创造不仅满足当前需求，还考虑未来几代人的解决方案。这需要对资源管理、废物减少和能源效率采取可靠的方法。通过将可持续实践纳入设计中，工程师可以增强其作品的长期可靠性，同时为更健康的地球做出贡献。总之，工程可靠性；工程作品的可靠性的重要性不容小觑。这是一个多方面的概念，涵盖了安全性、效率、软件完整性和可持续性。随着我们继续创新和开发新技术，优先考虑可靠性将是工程项目成功的关键。通过理解和实施工程可靠性；工程作品的可靠性的原则，工程师可以创建不仅能良好运作而且能经受时间考验的结构和系统，最终使整个社会受益。