maintainability design

简明释义

维修性设计

英英释义

例句

1.The new product features maintainability design to facilitate easier servicing.

新产品具有可维护性设计，以便于更简单的维护服务。

2.Incorporating maintainability design principles can significantly reduce long-term operational costs.

融入可维护性设计原则可以显著降低长期运营成本。

3.The engineers emphasized maintainability design during the planning phase of the project.

工程师在项目规划阶段强调了可维护性设计。

4.The team focused on maintainability design to ensure the software could be easily updated in the future.

团队专注于可维护性设计，以确保软件将来能够轻松更新。

5.A good maintainability design allows for quick troubleshooting and repairs.

良好的可维护性设计允许快速故障排除和修复。

作文

In today's rapidly evolving technological landscape, the concept of maintainability design (可维护性设计) has become increasingly important. This principle emphasizes the ease with which a system or product can be maintained over its lifecycle. The significance of maintainability design lies in its ability to enhance efficiency, reduce downtime, and ultimately save costs for organizations. As systems become more complex, ensuring that they are designed for easy maintenance is crucial for operational success.One of the primary benefits of maintainability design is that it minimizes the time required for repairs and updates. In industries such as manufacturing, transportation, and information technology, any downtime can lead to significant financial losses. By incorporating maintainability design principles, organizations can ensure that their systems are easier to troubleshoot and repair. For example, modular designs allow for individual components to be replaced without the need to dismantle entire systems, thus speeding up the maintenance process.Moreover, maintainability design encourages the use of standardized parts and interfaces. This standardization not only simplifies the maintenance process but also reduces inventory costs, as fewer unique components need to be stored. When parts are interchangeable, technicians can quickly find replacements, leading to quicker repairs. This aspect of maintainability design is particularly beneficial in large-scale operations where multiple systems may share common components.Another important aspect of maintainability design is the focus on user-friendly interfaces. Systems that are intuitive and easy to navigate require less training for personnel, which further reduces downtime during maintenance activities. By designing systems with the end-user in mind, companies can ensure that maintenance tasks are performed efficiently and effectively. This approach not only boosts productivity but also enhances employee satisfaction, as workers feel more competent and confident in their ability to perform maintenance tasks.Furthermore, maintainability design plays a critical role in sustainability efforts. Systems that are easier to maintain often have longer lifespans, which contributes to reduced waste and lower environmental impact. By designing products with longevity in mind, companies can minimize the frequency of replacements and the associated resource consumption. This aligns with the growing demand for sustainable practices in today’s market, making maintainability design an essential consideration for modern businesses.In conclusion, the importance of maintainability design cannot be overstated. As organizations strive to improve efficiency and reduce costs, integrating maintainability design principles into their systems and products will be vital. From minimizing downtime and simplifying repairs to promoting sustainability, the benefits of maintainability design are clear. Companies that prioritize this approach will not only improve their operational effectiveness but also position themselves as leaders in their respective industries. In a world where adaptability and efficiency are paramount, embracing maintainability design is not just advantageous; it is essential for long-term success.

在当今快速发展的技术环境中，可维护性设计这一概念变得越来越重要。这个原则强调了一个系统或产品在其生命周期内进行维护的便利性。可维护性设计的重要性在于它能够提高效率、减少停机时间，并最终为组织节省成本。随着系统变得越来越复杂，确保它们被设计为易于维护对于运营成功至关重要。可维护性设计的主要好处之一是它最小化了维修和更新所需的时间。在制造、运输和信息技术等行业，任何停机时间都可能导致重大财务损失。通过结合可维护性设计原则，组织可以确保他们的系统更容易进行故障排除和修理。例如，模块化设计允许单个组件被替换，而无需拆卸整个系统，从而加快维护过程。此外，可维护性设计鼓励使用标准化的零件和接口。这种标准化不仅简化了维护过程，还降低了库存成本，因为需要存储的独特组件较少。当部件可互换时，技术人员可以快速找到替换件，从而导致更快的维修。这一方面在大规模操作中尤为有利，因为多个系统可能共享公共组件。可维护性设计的另一个重要方面是关注用户友好的接口。直观且易于导航的系统需要较少的人员培训，从而进一步减少维护活动中的停机时间。通过以最终用户为中心设计系统，公司可以确保维护任务高效且有效地执行。这种方法不仅提高了生产力，还增强了员工的满意度，因为工人在执行维护任务时感到更有能力和自信。此外，可维护性设计在可持续发展努力中发挥着关键作用。更易于维护的系统通常具有更长的使用寿命，这有助于减少废物和降低环境影响。通过以耐用性为目标设计产品，公司可以最小化更换频率及其相关资源消耗。这与当今市场对可持续实践日益增长的需求相一致，使得可维护性设计成为现代企业必须考虑的要素。总之，可维护性设计的重要性不容小觑。随着组织努力提高效率和降低成本，将可维护性设计原则融入其系统和产品中将是至关重要的。从最小化停机时间和简化维修到促进可持续性，可维护性设计的好处显而易见。优先考虑这种方法的公司不仅会提高运营效率，还会在各自行业中树立领导者形象。在适应性和效率至关重要的世界中，拥抱可维护性设计不仅是有利的；它对于长期成功是必不可少的。