Reliability Centred Maintenance (RCM) is an engineering framework that enables the definition of a complete maintenance regime while establishing safe minimum levels of maintenance.
Implementation of RCM builds an understanding of your asset’s performance; its function and failures, and the development of the optimal maintenance regime. When correctly implemented it improves asset cost effectiveness and reliability, reduces machine downtime and increases organisational understanding of asset risk.
To assist your business to achieve maximum return on assets through RCM, Mainpac offers the following services:
- Asset Register development
- RCM introduction, principles and implementation.
- Failure Mode Effects and Criticality Analysis (FMECA)
- Maintenance maturity assessment and improvement plans
- Preventive and predictive maintenance program development.
- Condition monitoring techniques, application and implementation.
Change Management brings together structured approaches to allow organisations and projects to identify, adapt and control the process to promote smooth transitions and successful outcomes.
Cleary defined change management plans and procedures assist in alleviating stress, reducing costs and push-back within organisations; regardless of the type of change.
Holistic approaches to managing change involve elements of the following supporting artefacts, including plans, measures and tracking:
- Change Management Plan
- Project Management Plan
- Communications Plan including Employee and Stakeholder Engagement
- Governance and Policy Documentation
- Change Requests management
- Business Process Analysis and Transformation
- Issue and Decision Logs
- Change Impact Assessments
- Risk Assessments
- Role Transition – informing role impact and redesign
- Training Plans including Scheduling, Design, Support Documentation, Facilitation
- Documentation Plans including templates, schedules and design
Process Improvement and documentation development (As-Is to To-Be)
Mainpac EAM is designed, based on an open architecture and a Browser/Server technology that follows the three-tier structure, which includes the data layer, the business layer and the presentation layer.
These layers communicate through the internet or an intranet. Based on the 3-tier structure, the platform operates in a user-friendly Windows-based environment and the connection among users complies with the Browser User Interface (BUI) models – allowing the exploitation of all net- place capabilities with the use of any desired web browser.
The first tier data layer includes the application’s database and the connections with all the other external systems, namely an external database for the recovery and storing of data.
The second tier business layer consists of the business logic. The architecture of this level can be divided and analysed further into the connection mechanism with the database interactions.
Finally, the third tier presentation layer concerns the clients and consists of a standard Web browser (i.e. Internet Explorer, Mozilla, etc.).