Lesson 8 Reliability Centered Maintenance Analysis Log 211
Lesson 8 Reliability Centered Maintenance Analysis Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -1
Topic 1: Introduction What’s in it for me? Reliability Centered Maintenance (RCM) Analysis is a structured framework for analyzing a system’s functions and potential failure modes to develop a scheduled maintenance plan, balancing availability and risk in an efficient and cost-effective manner. RCM uses information identified in the Failure Mode Effects and Criticality Analysis (FMECA) and Fault Tree Analysis (FTA) to define and balance “Condition-based”, “Interval-based”, and “Run-To-Failure” maintenance requirements. The process results the incorporation of revised preventive and corrective maintenance tasks/instructions and frequencies in the Maintenance Task Analysis (MTA). RCM Analysis combines both engineering and sustainment requirements and perspectives to improve availability, reduce the need for maintenance, and lower costs. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -2
Life Cycle Management Framework Where Are You? What Influence Do You Have? Technology Maturation & Risk Reduction RCM Analysis bridges Reliability Engineering and maintenance, and is updated iteratively with data maturity. Adapted from GEIA-HB-0007 Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -3
RCM Analysis Lesson Approach This lesson approach will emphasize the analytical process undertaken to determine maintenance planning, for which the LCL will play the role of reviewer. Build an RCM Analysis plan and define and gather data inputs Determine applicable and effective maintenance task candidates and frequencies Report findings to IPT and package tasks for input into the Maintenance Task Analysis activity. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -4
Topics and Objectives TLO: Examine Reliability Centered Maintenance (RCM) Analysis processes and Topic contribution to Supportability and Supportability Analysis Objectives Topic 1: Introduction Topic 2: Overview of RCM Analysis Topic 3: Set Up – Building a Plan and Gathering Inputs Topic 4: Analysis – Determining Maintenance Tasks and Intervals • • Welcome Where Are You? What Influence Do You Have? • Analyze the impact of Reliability Centered Maintenance (RCM) Analysis on Supportability and Supportability Analysis. • Examine RCM Analysis planning considerations, analysis tools, and data inputs. • • Examine the RCM analytical process and its steps. Analyze failure maintenance strategy options resulting from RCM Analysis. Relate RCM to the Condition Based Maintenance Plus (CBM+) process. Examine diagnostic, prognostic, and health management capabilities in the CBM+ process and their impact on Supportability and Supportability Analysis. Topic 5: Report Findings • – Data Management and Communication Paths Topic 6: Exercise and Simulation • • Examine reporting requirements and communication paths for managing RCM Analysis results. Find and validate applicable inputs from previous analyses Given a specific failure mode, determine the most applicable and effective failure maintenance strategies and intervals. Topic 7: Summary Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -5
Topic 2: Overview of RCM Analysis Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -6
What is RCM Analysis? RCM Analysis identifies maintenance tasks and task intervals to mitigate critical failure consequences and ensure a system’s inherent Reliability. Logistician Terms Proactive Preventive Maintenance On-Condition & Interval-based Tasks • Servicing/Lubrication Tasks • Hard Time Remove/Replace • Failure Findings Inspections Maintenance Before Failure System Functioning at Intended Level Reactive Maintenance Corrective Repair After Failure Other Logical Actions Run-to-Failure Redesign, Change Training and Processes RCM Analysis Terms Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -7
What is RCM Analysis? Significant Functions Only systems or components with functional significance undergo RCM Analysis. Function Does the loss of function have an adverse effect on safety or environment? Yes No Does the loss of function have an adverse effect on operations? Yes No Does the loss of function have an adverse economic impact? Yes No Is the function protected by an existing PM task? Yes One or more must apply Proceed with RCM Analysis No Corrective Maintenance Non-Significant Functions Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Significant Functions 8 -8
What is RCM Analysis? Inputs & Influence RCM conforms to a larger framework of Supportability analyses, working through MTA to identify and refine maintenance tasks. R&M Sub-set of R&M FMECA/FTA Significant Failures RCM Analysis Non-Significant Failures Corrective Tasks PM Tasks & Intervals MTA Corrective & Hard Time Tasks, Intervals, New MTBF Influence Design Influence Support Refine Supportability Analyses LORA Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -9
What is RCM Analysis? ASOE Model The ASOE model has four distinct intersections representing program performance and Sustainment objectives. Balancing these priorities require a series of trade-off analyses. Technical Performance Process Efficiency Supportability • Functions • Reliability • Production • Capabilities • Maintainability • Maintenance • Support Features • Logistics Life Cycle Cost Total Ownership Cost • Operations Design Effectiveness Design Affordability Mission Effectiveness Affordable Systems Operational Effectiveness Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -10
ASOE Trade-off Reliability vs. Maintenance During RCM Analysis, Reliability and maintenance tradeoff to produce efficient and effective maintenance tasks at the best cost. Technical Performance • Functions • Capabilities Supportability • Reliability • Maintainability Supportability Life Cycle Cost Total Ownership Cost • Support Features Process Efficiency • Reliability • Maintainability • Support Features Process Efficiency • Production • Maintenance • Logistics • Operations Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -11
• • • Design Characteristics System Configuration Developmental Testing Results Built-in-Tests (BIT) Accessibility, Modularity, Testability • Human Systems Integration • Maintenance Data Systems • Cost Data Process Inputs What is RCM Analysis? Inputs and Outputs Maintainability Analyses FMECA/FTA FRACAS from T&E events and field failure/repairs Reliability Centered Maintenance Analysis Recommend RCM Analysis Report Outputs Reliability Analyses Logistics Product Database Create/Refine Update/Add New Tasks & Frequencies • Preventive Maintenance Tasks & Intervals • Corrective Maintenance Tasks Life-Cycle Sustainment Plan MTA Maintenance Plan • Other Actions (e. g. , redesign, training) Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Revised MTBF 8 -12
Topic 3: Set Up – Building a Plan and Gathering Inputs Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -13
Set Up 1. 1 1. 2 Build Plan Select RCM Analysis Tool 1 Iterate Plan 1. 3 Define RCM Data Inputs Collect/Load Data Inputs Our planning considers three main areas: 1. 1 Build Plan – Defines RCM Analysis plan and execution strategy: Milestone events, required deliverables, plan for Sustainment, and responsibilities. 1. 2 Select RCM Analysis Tool – GEIA-STD 0007 -compliant LPD enables import/export into analytical tools external to the database. 1. 3 Define RCM Data Inputs – Given failure characteristics, determine appropriate inputs for maintenance task selection. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -14
Build a Plan Process and Data Management Planning encompasses all RCM Analysis activities and their iterations, from initial scoping to Sustainment. RCM Analysis Process Flow Set Up 1 2 SAE GEIA-STD-0007 Data RCM Tool Data Import / Template IPT Responsibilities Analysis Activities Reporting & Data Management Sustainment Implications Maintenance Plan MTA Approved Needs/Constraints Field Data Plan Considers: 3 Maintenance Tasks and Frequencies Reliability 5 6 Recommended Maintenance Tasks, RCM Analysis Report 4 Analysis T&E and Operational Data Trade-offs Intervals, Other Actions Report Findings Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -15
Determine Data Inputs After selecting a SAE GEIA-STD-compliant analysis tool, Logistics Product Data (LPD) are identified and imported into the tool for analysis. Data Inputs T&E and Operational Data Design characteristics System configuration Developmental testing Subject matter experts Reliability analyses Maintainability analyses FMECA/FTA Human systems integrations Maintenance data systems Cost data FRACAS Set Up 1 GEIA-STD-0007 Data 2 RCM Tool Data Import / Template T&E on failure management and operational data are reported through FRACAS, which is the vehicle for data into RCM. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Tool Functionality Data management and reporting FMEA/FMECA Maintenance tasks selection Optimal interval calculation Cost comparisons 8 -16
Topic 4: Analysis – Determining Maintenance Tasks and Intervals Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -17
Analysis Our analysis consists of two main areas: 2. 1 Categorize Failure Consequences – Identify if evident/hidden failures impact safety, environment, operation, or economics. 2. 2 Identify Maintenance Tasks and Task Intervals – Determine preventive, corrective, and other maintenance actions to mitigate risk of failure; recommend frequencies and intervals to perform preventive maintenance. 2 2. 1 Categorize Failure Consequences 2. 2 Determine Maintenance Tasks/Intervals Iterative Analysis Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -18
RCM Analysis Process Map T&E, Field Data MTA RCM Analysis Determine Maintenance Tasks and Task Intervals Categorize Failure Consequences No FMECA – Determine Failure Mode Criticality 8. 1 Significant Function? Yes 8. 2 Categorize Failures by Type of Impact 8. 3 Identify On-Condition Tasks/Intervals 8. 4 Identify Interval. Based Tasks/Intervals 8. 5 Identify Run-to. Failure Tasks 8. 6 Identify Other Logical Actions Feedback RCM Analysis matches failure modes with maintenance tasks that are both applicable and effective. Does the task address failure characteristics? How effectively does the task reduce failure effects? • Trade-offs occur between Reliability, Maintainability, and cost. • Data updates drive refinement of maintenance approach. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -19
RCM Analysis Decision Diagram The RCM decision diagram is a comprehensive look at the choices involved in narrowing task selection. Evident Functional Failure Yes Is functional failure evident during normal use? 1 Direct & Hazardous Effect? 4 Yes No 2 5 No Hidden Functional Failure Adverse Effect on Operating Capability? 3 Operational Effects: Tasks required to avoid hazardous effects Tasks desirable if risk is reduced to an acceptable level Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 A Yes No Economic Effects: 6 Tasks desirable if cost is less than repair costs 8 -20
Categorizing Consequences Justifying Preventive Maintenance Safety consequences require preventive maintenance (PM); otherwise, selection of a PM task is driven by cost. Impact on Safety/Environment T&E, Field Data MTA RCM Analysis Categorize Failure Consequences No Significant Function? Yes FMECA – Determine Failure Mode Criticality Categorize Failures by Type of Impact Requires preventive maintenance. PM task must reduce probability of failure to acceptable level. Impact on Operational Capability Impact on mission exists. Cost of PM must be less than cost of repair plus cost of mission loss. Economic Impact Only No impact on mission capability. Economic consequence only. Cost of PM must be less than cost of repair. Cost of implementation of PM task is less than cost of running to failure. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -21
On-Condition Maintenance Predictive Maintenance Determine Maintenance Tasks and Task Intervals On-condition maintenance compares performance against known criteria to determine when maintenance is required, based on actual equipment condition. Identify On-Condition Tasks/Intervals Healthy Range Identify Interval-Based Tasks/Intervals Identify Run-to-Failure Tasks Identify Other Logical Actions Performance outside healthy range indicates potential failure Opportunity for maintenance, if required. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Example: Measure the tread on your tire! 8 -22
On-Condition Maintenance The P-to-F Curve Inspections occur between the time a potential failure (PF) condition first appears and complete functional failure (FF). Multiple failure conditions are possible. Applicability • Possible to define potential failure (PF) characteristics • Possible to detect potential failure with specific tasks • Consistent and sufficient PF interval Intervals Opportunity for inspections Inspection methods include human inspection and sophisticated monitoring equipment, such as built-in sensors. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Intervals determined based on: • Consequences of failure • Effectiveness of task • Accessibility of item • Skill of personnel performing inspection • Industry standards • Specific system requirements 8 -23
On-Condition Maintenance CBM+ and Prognostics & Health Management (PHM) CBM+ optimizes on-condition maintenance through a comprehensive set of tools, technology, and processes that provide more accurate condition data and failure predictions. Diagnostic Capabilities What is the component’s current condition and ability to perform its function? Processes Software Design Tools Hardware Health Management Systems: Integrated information systems track, and analyze diagnostic/prognostic data to facilitate appropriate logistical actions. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Communications Prognostic Capabilities What future failures might occur and when? What is the component’s remaining useful life? 8 -24
CBM+ and PHM Impact on Supportability Conducting maintenance based on accurate and timely condition data contributes directly to improved mission effectiveness. • Improves Operational Availability • Improves maintenance effectiveness • Reduces Mean Down Time • Reduces overall logistical footprint Reduces life cycle ownership costs Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -25
Interval-based Tasks Overview Determine Maintenance Tasks and Task Intervals Interval-based maintenance tasks are scheduled regardless of actual equipment condition. Identify On-Condition Tasks/Intervals Identify Interval-based Tasks/Intervals Identify Run-to-Failure Tasks Identify Other Logical Actions Applicability • Consumable • Subject to wear out • Demonstrate a known failure pattern Types of Interval-based Tasks • Servicing/Lubrication • Hard Time Remove/Replace • Failure Findings Inspections Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Examples: • Inspection • Adjustments • Cleaning • Lubrication • Parts replacement • Calibration • Repair 8 -26
Interval-based Tasks Overview Determine Maintenance Tasks and Task Intervals Interval-based maintenance tasks are scheduled regardless of actual equipment condition. Identify On-Condition Tasks/Intervals Identify Interval-Based Tasks/Intervals Identify Run-to-Failure Tasks Identify Other Logical Actions Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -27
Servicing/Lubrication Tasks Interval-based Maintenance Servicing and lubrication tasks are not the result of a specific failure, but are part of normal maintenance schedules for an item. Servicing Lubrication Replenishes consumables expended during normal operational use, such as fuel. Protects against friction and wear. Applicability • Required by system design or operational need • Non-permanent lubrication requiring replenishment Intervals • Scheduled according to need • Scheduled based on life of lubricant, usage, operational environment Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -28
Hard Time Remove/Replace Interval-based Maintenance Hard time maintenance tasks remove a component for repair or replacement at a predetermined age, regardless of equipment condition. Applicability Safe Limit Point where probability of failure less than requirement Maximizes Unreliability Economic useful life Limit Age Wear Out Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 • Item can survive to useful life • Known wear-out age • On-condition inspection not applicable Intervals Safety consequences determine interval: • Safe Limit: Point below which no failure can occur • Economic Life Limit: Point when cost is less than/same as run-tofailure • Reliability requirement 8 -29
Hard Time Remove/Replace Water Pump Example Requirement: A car’s water pump must meet a minimum Reliability of 85% over a 96, 000 kilometer interval. This kind of Reliability graph is called a Weibull curve, and it is constructed from test data to predict future events. 85% Reliability, 96 k km Reliability 78% Reliability, 100 k km 20% Reliability, 104. 5 k km 0% Reliability, 110 k km Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -30
Economic Remove/Replace Water Pump Example Water Pump Cost/1000 Km Requirement: Using a cost per distance graph, determine the most economical replacement time. 100, 000 kilometer is most economical, but below the 85% Reliability requirement Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -31
Hard Time Remove/Replace Water Pump Example Hard time maintenance tasks remove a component for repair or replacement at a predetermined point in time, cycles , or mileage, regardless of equipment condition. Unreliability Economic Life Limit Safe Limit Wear Out Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -32
Failure Finding Inspections Interval-Based Maintenance Hidden failures noticeable to operator during normal operations require regular failure finding inspections. Examples Back-up systems Protective systems Circuit breakers Relief valves Applicability • Failure not known to operator during normal use • Built-in redundancy • Critical situation should a secondary failure occur Intervals • Pre-/post-mission inspections checklist Operator identifies failure during normal operating procedures. Evident Failure Hidden Failures Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 Requires actions outside normal operations to detect failure 8 -33
Run-to-Failure Corrective Maintenance Determine Maintenance Tasks and Task Intervals A run-to-failure task allows the failure to happen, with no preceding preventive maintenance. This type of failure is unscheduled and therefore carries costs beyond just repair. Identify On-Condition Tasks/Intervals Identify Interval-Based Tasks/Intervals Identify Run-to-Failure Tasks Identify Other Logical Actions Applicability • Non-critical failure • Unlikely failure • Consequences of failure acceptable • Redundancy exists • Small items Costs • Item repair • Secondary damage • Multiple failures • Loss of operations Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -34
Run-to-Failure Water Pump Example The water pump is NOT a good candidate for run-to-failure. Its failure can cause secondary damage to other engine components and is likely to occur after its 96, 000 km scheduled removal cycle. Economic Life Limit Safe Limit Run To Failure Wear Out Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -35
Other Logical Actions Determine Maintenance Tasks and Task Intervals Other actions outside of maintenance tasks may be required to reduce the risk of failure to an acceptable level. Identify On-Condition Tasks/Intervals Identify Interval-Based Tasks/Intervals Identify Run-to-Failure Tasks Identify Other Logical Actions Applicability • When run-to-failure is not an option, but preventive maintenance is not applicable • Positive ROI on Availability and cost • Reduced impact of failure Examples • Redesign • Change to procedures • Change to training • Change in technical manuals • Change to emergency procedures • Additional data collection and analyses Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -36
Topic 5: Report Findings – Data Management and Communication Paths Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -37
Report Findings Our analysis findings fall into three broad categories: 3. 1 Run RCM Report – Run report summarizing significant functions, functional failure analysis (FMECA), and maintenance task selections/intervals. 3. 2 -3. 3 Package Tasks into Initial Maintenance Plan – Bundle tasks, frequencies, and intervals into work packages for adoption into the MTA process. 3. 1 3 Run RCM Report 3. 2 Package Tasks into Initial Maintenance Plan 3. 3 Update MTA Recommendations Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -38
Report & Implement Findings RCM Analysis Report Findings: 1 • List of significant items by effect category • FMECA results • Evident vs. hidden failures • Maintenance task summary with task selection and interval for each failure SAE GEIA-STD-0007 Data Approved MTA Tasks are packaged for input into MTA, where the LCL updates the LPD. Recommendations submitted to IPT for approval. 6 5 RCM Analysis Report Recommended Maintenance Tasks, Intervals, Other Actions 4 Trade-offs Report Findings Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -39
RCM Analysis Report The RCM Analysis report summarizes the functional failure analysis and maintenance task selections. Exercise and Simulation: You’ll be completing the RCM Analysis report for the Strike Talon’s R/T Cooling Assembly. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -40
Map Failure Modes to Tasks The failure modes identified in the RCM Analysis eventually translate into preventive tasks in the Logistics Product Database. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -41
Inspect UAV SATCOM Control Task CAUTION INSPECT Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -42
RCM Analysis Results IPT Communication Paths Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -43
Topic 6: Exercise and Simulation Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -44
What maintenance tasks are appropriate to perform on the fans in order to meet Reliability requirements for the Aux Cooling Assembly? Key Question Exercise & Simulation Exercise: Identify data inputs to conduct RCM Analysis. Simulation: Using data inputs: • Part 1: Conduct RCM Analysis on the fans to determine the most appropriate and effective maintenance tasks • Part 2: For the selected tasks, determine the appropriate frequency Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -45
Set Up Identify data inputs to conduct RCM Analysis Exercise 10 minutes Group grade Directions In Blackboard, select the Lesson 8: Exercise link in the lesson folder. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -46
Analyze Report Findings Using data inputs, conduct RCM Analysis on the fans to determine the most appropriate and effective maintenance tasks and frequencies. Simulation 30 minutes Not graded Directions In Blackboard, select the Lesson 8: Simulation Part 1 link in the lesson folder. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -47
Topic 7: Summary Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -48
Takeaways RCM Analysis impacts design effectiveness, mission effectiveness, and design Affordability. RCM Analysis: • Spans the larger framework of R&M, FMECA, MTA, and LORA analyses. • Determines maintenance tasks and frequencies for critical failures identified by the FMECA and FTA. • Outcomes serve as input to Maintenance Task Analysis (MTA). The MTA is the authoritative analysis that consolidates all other analyses that impact maintenance tasks. • Uses FRACAS as a primary input: Failure reporting, analysis, and corrective actions based on CBM, T&E, and field data. Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 System Functioning at Intended Level 8 -49
Summary TLO: Analyze Reliability Centered Maintenance (RCM) analysis processes and Topic contribution to Supportability and Supportability Analysis (Case Study) Objectives Topic 1: Introduction Topic 2: Overview of RCM Analysis Topic 3: Set Up – Building a Plan and Gathering Inputs Topic 4: Analysis – Determining Maintenance Tasks and Intervals • • Welcome Where Are You? What Influence Do You Have? • Analyze the impact of Reliability Centered Maintenance (RCM) Analysis on Supportability and Supportability Analysis. • Examine RCM Analysis planning considerations, analysis tools, and data inputs. • • Examine the RCM analytical process and its steps. Analyze failure maintenance strategy options resulting from RCM Analysis. Relate RCM to the Condition Based Maintenance Plus (CBM+) process. Examine diagnostic, prognostic, and health management capabilities in the CBM+ process and their impact on Supportability and Supportability Analysis. Topic 5: Report Findings • – Data Management and Communication Paths Topic 6: Exercise and Simulation • • Examine reporting requirements and communication paths for managing RCM Analysis results. Find and validate applicable inputs from previous analyses Given a specific failure mode, determine the most applicable and effective failure maintenance strategies and intervals. Topic 7: Summary Log 211 Lesson 8: Reliability Centered Maintenance FINAL Analysis v 1. 3 8 -50
- Slides: 50