maintenance load

简明释义

维修工作量

英英释义

例句

1.Reducing the maintenance load 维护负载 can help extend the lifespan of the machinery.

减少维护负载 维护负载可以帮助延长机械的使用寿命。

2.The maintenance load 维护负载 for this equipment is higher than anticipated, requiring additional resources.

这台设备的维护负载 维护负载高于预期，需要额外的资源。

3.The factory implemented new procedures to manage the maintenance load 维护负载 more effectively.

工厂实施了新程序，以更有效地管理维护负载 维护负载。

4.The server's maintenance load 维护负载 increased significantly during the software update.

在软件更新期间，服务器的维护负载 维护负载显著增加。

5.We need to analyze the maintenance load 维护负载 on the network to ensure optimal performance.

我们需要分析网络上的维护负载 维护负载以确保最佳性能。

作文

In today's fast-paced world, the efficiency of systems and structures is paramount. Whether in engineering, IT, or even daily life, we often encounter the term maintenance load, which refers to the ongoing demands placed on a system to keep it operational and functional. Understanding this concept is crucial for anyone involved in project management, system design, or facility maintenance. 维护负荷 encompasses all the resources, time, and effort required to sustain a system's performance over time. For instance, consider a manufacturing plant. The maintenance load includes regular inspections, repairs, and updates to machinery to prevent breakdowns. If the maintenance load is not adequately managed, it can lead to unexpected downtime, which can be costly for the business. Therefore, companies must develop a robust maintenance strategy that balances the maintenance load with production needs. This often involves scheduled maintenance, predictive maintenance, and sometimes even overhauls of equipment to ensure that the load remains manageable.Moreover, in the context of software development, the maintenance load refers to the ongoing work required to fix bugs, update features, and ensure compatibility with new technologies. A software product that is not properly maintained can quickly become obsolete. Developers must allocate resources to handle the maintenance load effectively, ensuring that the software remains relevant and functional in an ever-evolving digital landscape. This is especially important in industries like finance and healthcare, where software reliability is critical.The concept of maintenance load also extends to infrastructure. For example, cities face significant maintenance load in their transportation systems. Roads, bridges, and public transit require constant upkeep to ensure safety and efficiency. Municipalities must budget for these maintenance loads to avoid infrastructure failure, which can have dire consequences for public safety and economic stability.In essence, understanding the maintenance load allows organizations to plan better and allocate resources more effectively. By recognizing the importance of this concept, businesses and institutions can implement proactive strategies to manage their maintenance load, ultimately leading to enhanced performance and reduced costs. Failure to address these ongoing demands can result in crises that might have been avoided with proper planning and foresight. In conclusion, the maintenance load is a critical factor in the longevity and effectiveness of any system. From manufacturing to software development and infrastructure management, recognizing and managing the maintenance load is essential for success. By investing in proper maintenance strategies, organizations can not only save money but also improve their overall efficiency and service delivery. As we move forward, it is vital to keep the maintenance load in mind to ensure that our systems remain functional and capable of meeting future demands.

在当今快节奏的世界中，系统和结构的效率至关重要。无论是在工程、信息技术还是日常生活中，我们经常会遇到“维护负荷”这个术语，它指的是保持系统运行和功能所需的持续需求。理解这一概念对于任何参与项目管理、系统设计或设施维护的人来说都是至关重要的。维护负荷包括维持系统性能所需的所有资源、时间和努力。例如，考虑一个制造工厂。维护负荷包括定期检查、修理和更新机器，以防止故障。如果维护负荷管理不当，可能会导致意想不到的停机，这对企业来说是昂贵的。因此，公司必须制定强有力的维护策略，以平衡维护负荷和生产需求。这通常涉及计划维护、预测性维护，有时甚至对设备进行大修，以确保负荷保持可控。此外，在软件开发的背景下，维护负荷指的是修复错误、更新功能和确保与新技术兼容所需的持续工作。没有得到妥善维护的软件产品很快就会变得过时。开发人员必须有效分配资源来处理维护负荷，确保软件在不断发展的数字环境中保持相关性和功能性。这在金融和医疗等行业尤其重要，因为软件的可靠性至关重要。维护负荷的概念同样扩展到基础设施。例如，城市在其交通系统中面临着巨大的维护负荷。道路、桥梁和公共交通需要不断的维护，以确保安全和效率。市政当局必须为这些维护负荷预算，以避免基础设施故障，这可能对公共安全和经济稳定产生严重后果。从本质上讲，理解维护负荷使组织能够更好地规划和有效分配资源。通过认识到这一概念的重要性，企业和机构可以实施主动策略来管理其维护负荷，最终提高绩效并降低成本。不解决这些持续的需求可能会导致危机，而这些危机可能通过适当的规划和前瞻性措施得以避免。总之，维护负荷是任何系统的持久性和有效性的关键因素。从制造业到软件开发，再到基础设施管理，识别和管理维护负荷对成功至关重要。通过投资于适当的维护策略，组织不仅可以节省资金，还可以提高整体效率和服务质量。随着我们向前发展，牢记维护负荷以确保我们的系统保持功能和能够满足未来需求至关重要。