Predictive Maintenance

What is Maintainability?

Maintainability refers to the ease with which an asset or piece of equipment can be maintained to ensure it continues to function as intended. This concept encompasses all activities involved in keeping equipment in good working order, including inspection, testing, servicing, and repair.

Key factors that influence maintainability include:

  • Design simplicity: Equipment designed with simplicity in mind is generally easier to maintain. This includes having easily accessible components and straightforward assembly and disassembly procedures.
  • Standardization: Using standard parts and procedures across equipment can significantly enhance maintainability. Standardization simplifies training for maintenance personnel and ensures parts are readily available.
  • Documentation: Comprehensive and clear documentation, including maintenance manuals and service guides, is crucial. Good documentation helps your maintenance team quickly and accurately understand procedures and specifications.
  • Training: Well-trained maintenance staff can perform tasks more efficiently and effectively, reducing downtime and improving the overall maintainability of equipment.

The goal of maintainability is to reduce the time and resources required for maintenance activities, thus minimizing downtime and ensuring that equipment remains operational and productive.

Maintainability vs. Reliability vs. Availability

While maintainability, reliability, and availability are closely related concepts, they each have distinct meanings and implications:

Maintainability: This refers to how easily and quickly maintenance can be performed on equipment. It focuses on reducing the time, effort, and cost required to maintain or restore equipment to its operational state.

Reliability: Reliability measures the likelihood that equipment will perform its intended function without failure over a specific period of time. The inherent design and quality of the equipment contribute the most to reliability.

Availability: Availability combines both reliability and maintainability to indicate the proportion of time that equipment is operational and available for use. It is a measure of how often equipment is ready and able to perform its intended function when needed.

To illustrate the relationship:

  • Maintainability ensures that any necessary maintenance can be performed quickly and efficiently.
  • Reliability ensures that equipment functions correctly without frequent failures.
  • Availability reflects the overall uptime of the equipment, considering both reliability and maintainability.

Each facet can be measured and tracked to determine the effectiveness of your maintenance strategy, and where improvements can be made.

Measuring Maintainability

Measuring maintainability involves assessing various factors that contribute to the ease and efficiency of maintenance activities. Key performance indicators (KPIs) include:

Mean Time to Repair (MTTR)

Mean time to repair is the average time required to repair equipment and restore it to its operational state after a failure. Use this equation to calculate mean time to repair:

         MTTR = Total Maintenance Downtime / Number of Repairs 

Lower MTTR indicates higher maintainability, as it suggests that repairs can be conducted quickly and efficiently.

Total Maintenance Downtime

Total maintenance downtime measures the total time equipment is out of operation due to maintenance activities. Lower maintenance downtime indicates better maintainability, as equipment spends less time out of service.

Maintenance Task Complexity

This assesses the complexity of maintenance tasks, considering factors such as the number of steps involved, the need for specialized tools, and the level of skill required. Simpler maintenance tasks indicate higher maintainability.

Maintenance Frequency

Maintenance frequency measures how often maintenance activities are required. Lower maintenance frequency indicates better maintainability, as it suggests that equipment requires less frequent attention.

By tracking these metrics, organizations can gain insights into the maintainability of their equipment and identify areas for improvement.

How to Achieve Higher Maintainability

Improving maintainability involves implementing strategies and best practices that enhance the ease and efficiency of maintenance activities. Here are seven key steps:

  1. Design for maintainability. Ensure that equipment design prioritizes accessibility, modularity, and simplicity. Use standardized parts and components to streamline maintenance procedures.
  2. Keep comprehensive documentation. Provide detailed maintenance manuals, schematics, and service guides to staff. Ensure that documentation is clear, accurate, and easily accessible for maintenance personnel.
  3. Conduct regular training. Invest in ongoing training programs for maintenance staff to keep their skills up to date. Provide training on new equipment, technologies, and maintenance practices.
  4. Implement predictive maintenance. Implement predictive maintenance techniques to anticipate and address issues before they lead to failures. Use data analytics and condition monitoring to optimize maintenance schedules.
  5. Streamline processes. Develop standardized maintenance procedures and checklists to ensure consistency. Implement efficient work order management systems to track and prioritize maintenance tasks.
  6. Use connected technology. Leverage advanced maintenance management software, such as a computerized maintenance management system (CMMS), to plan, schedule, and track maintenance activities. Use real-time monitoring tools that connect to a CMMS to detect issues early and respond promptly.
  7. Encourage continuous improvement. Ask for feedback from maintenance staff to identify challenges and areas for improvement. Regularly review maintenance metrics and performance data to refine maintenance strategies.

By focusing on these seven areas, organizations can enhance the maintainability of their equipment, leading to reduced downtime, lower maintenance costs, and improved overall productivity.

Maintainability and CMMS Software

CMMS software plays a crucial role in improving maintainability by providing tools and features that streamline maintenance activities and enhance efficiency. Solutions like eMaint CMMS can:

  • Centralize maintenance data. A CMMS is a hub for all maintenance-related information, including equipment history, work orders, and maintenance schedules. This centralization makes it easier to track and manage maintenance activities, compared to teams using paper-based or fragmented systems to conduct maintenance. With a CMMS, improved data accessibility and organization enhance the ability to plan and execute maintenance tasks efficiently.
  • Automate work orders. A CMMS can automate the creation and assignment of work orders based on predefined criteria or real-time data. Automation ensures that maintenance tasks are promptly addressed, reducing delays and improving response times.
  • Enhance predictive maintenance. Advanced CMMS systems use predictive analytics to forecast potential equipment failures based on historical and real-time data.  This strategy helps anticipate issues before they occur, allowing for proactive maintenance and reducing downtime.
  • Streamline inventory management. Managing spare parts is easier than ever with CMMS, thanks to tracking features that ensure the necessary components are available when needed.   Efficient inventory management prevents delays in maintenance activities and reduces the risk of stockouts.
  • Provide reporting and analytics. Teams can generate detailed reports and analytics on maintenance activities, equipment performance, and maintenance costs with a CMMS. Comprehensive reporting provides insights into maintainability metrics, helping organizations identify trends and areas for improvement.
  • Get access on the go. Many CMMS solutions offer a mobile app, allowing maintenance personnel to access work orders, equipment information, and maintenance history from cell phones and tablets. Mobile access enhances flexibility and efficiency in performing maintenance tasks, reducing downtime and improving maintainability.

Using a CMMS to improve maintainability streamlines maintenance processes and provides valuable insights and tools for continuous improvement. By leveraging CMMS technology, organizations can enhance their maintenance practices, reduce downtime, and achieve higher levels of equipment effectiveness.

If you’re looking for a comprehensive CMMS that can offer all the above features and more, eMaint will be the perfect fit for your team. Try a free demo or contact one of our specialists to learn more.