leak tolerance

简明释义

允许漏泄量

英英释义

例句

1.In this experiment, we need to assess the leak tolerance of different materials under pressure.

在这个实验中，我们需要评估不同材料在压力下的泄漏容忍度。

2.The company's new product has improved leak tolerance, making it safer for users.

该公司的新产品提高了泄漏容忍度，使其对用户更安全。

3.The engineers designed the pipeline with a high level of leak tolerance to minimize environmental impact.

工程师们设计了这条管道，具有高水平的泄漏容忍度以最小化对环境的影响。

4.Understanding leak tolerance is crucial for industries that deal with hazardous materials.

理解泄漏容忍度对于处理危险材料的行业至关重要。

5.During the safety audit, the team evaluated the leak tolerance of the storage tanks.

在安全审计过程中，团队评估了储罐的泄漏容忍度。

作文

In the realm of engineering and technology, the concept of leak tolerance plays a crucial role in ensuring the reliability and safety of various systems. Leak tolerance refers to the ability of a system to withstand or manage leaks without leading to catastrophic failures or significant performance degradation. This concept is particularly important in industries such as aerospace, automotive, and chemical processing, where even minor leaks can have serious consequences. Understanding leak tolerance involves recognizing the factors that contribute to a system's ability to handle leaks and the strategies that can be employed to enhance this capability.One of the key aspects of leak tolerance is the design of systems to minimize the risk of leaks occurring in the first place. Engineers often employ advanced materials and sealing technologies to create barriers that prevent leaks from developing. For instance, in the aerospace industry, fuel tanks are designed with multiple layers of protection to ensure that even if one layer fails, the others can contain the fuel and prevent it from leaking into the environment. This proactive approach not only enhances leak tolerance but also contributes to overall safety and efficiency.Another important factor in leak tolerance is the implementation of monitoring and detection systems. In many applications, real-time monitoring can help identify leaks before they escalate into more significant problems. For example, in chemical processing plants, sensors can detect changes in pressure or flow rates that may indicate a leak. By quickly addressing these issues, operators can maintain the integrity of the system and minimize the potential impact of leaks.Moreover, leak tolerance is closely linked to maintenance practices. Regular inspections and preventive maintenance can help identify wear and tear on components that may lead to leaks. By replacing aging parts and reinforcing vulnerable areas, organizations can significantly improve their systems' leak tolerance. This not only extends the lifespan of equipment but also reduces the likelihood of costly downtime due to leak-related failures.The implications of leak tolerance extend beyond just technical considerations; they also encompass environmental and regulatory aspects. In today's world, there is an increasing emphasis on sustainability and minimizing environmental impact. Systems that exhibit high leak tolerance are better equipped to prevent hazardous substances from escaping into the environment, thereby adhering to stringent regulations and protecting ecosystems. Consequently, investing in technologies and practices that enhance leak tolerance is not only a matter of operational efficiency but also a commitment to corporate responsibility.In conclusion, leak tolerance is an essential concept in engineering that encompasses the design, monitoring, and maintenance of systems to manage leaks effectively. By focusing on minimizing leak risks, implementing robust detection methods, and adhering to best maintenance practices, industries can enhance their leak tolerance. As we move forward in an increasingly complex technological landscape, understanding and improving leak tolerance will remain a priority for engineers and organizations alike, ensuring safety, efficiency, and environmental stewardship.

在工程和技术领域，泄漏容忍度的概念在确保各种系统的可靠性和安全性方面发挥着至关重要的作用。泄漏容忍度指的是一个系统在不导致灾难性故障或显著性能下降的情况下承受或管理泄漏的能力。这个概念在航空航天、汽车和化工等行业尤为重要，因为即使是微小的泄漏也可能产生严重后果。理解泄漏容忍度涉及到认识影响系统处理泄漏能力的因素以及可以采取的增强这一能力的策略。泄漏容忍度的一个关键方面是设计系统以最小化泄漏发生的风险。工程师通常采用先进的材料和密封技术来创建防止泄漏发生的屏障。例如，在航空航天行业，燃料箱设计有多层保护，以确保即使一层失效，其他层也能容纳燃料并防止其泄漏到环境中。这种主动的方法不仅增强了泄漏容忍度，而且还促进了整体的安全性和效率。另一个与泄漏容忍度密切相关的重要因素是监测和检测系统的实施。在许多应用中，实时监测可以帮助在泄漏升级为更大问题之前识别出泄漏。例如，在化工加工厂，传感器可以检测压力或流量的变化，这可能表明存在泄漏。通过迅速解决这些问题，操作人员可以保持系统的完整性，并最小化泄漏的潜在影响。此外，泄漏容忍度与维护实践密切相关。定期检查和预防性维护可以帮助识别可能导致泄漏的部件磨损。通过更换老化的部件和加固脆弱区域，组织可以显著提高其系统的泄漏容忍度。这不仅延长了设备的使用寿命，还减少了因泄漏相关故障而造成的昂贵停机时间的可能性。泄漏容忍度的影响超越了技术考虑，还包括环境和监管方面。在当今世界，越来越重视可持续性和最小化环境影响。表现出高泄漏容忍度的系统更能防止危险物质泄漏到环境中，从而遵守严格的法规并保护生态系统。因此，投资于增强泄漏容忍度的技术和实践，不仅是运营效率的问题，也是对企业责任的承诺。总之，泄漏容忍度是工程中的一个基本概念，涵盖了设计、监测和维护系统以有效管理泄漏。通过专注于最小化泄漏风险、实施稳健的检测方法和遵循最佳维护实践，各行业可以提高其泄漏容忍度。随着我们在日益复杂的技术环境中前进，理解和改善泄漏容忍度将继续成为工程师和组织的优先事项，确保安全、效率和环境管理。