Accendo Reliability

Your Reliability Engineering Professional Development Site

  • Home
  • About
    • Contributors
  • Reliability.fm
    • Speaking Of Reliability
    • Rooted in Reliability: The Plant Performance Podcast
    • Quality during Design
    • Critical Talks
    • Dare to Know
    • Maintenance Disrupted
    • Metal Conversations
    • The Leadership Connection
    • Practical Reliability Podcast
    • Reliability Matters
    • Reliability it Matters
    • Maintenance Mavericks Podcast
    • Women in Maintenance
    • Accendo Reliability Webinar Series
    • Asset Reliability @ Work
  • Articles
    • CRE Preparation Notes
    • on Leadership & Career
      • Advanced Engineering Culture
      • Engineering Leadership
      • Managing in the 2000s
      • Product Development and Process Improvement
    • on Maintenance Reliability
      • Aasan Asset Management
      • CMMS and Reliability
      • Conscious Asset
      • EAM & CMMS
      • Everyday RCM
      • History of Maintenance Management
      • Life Cycle Asset Management
      • Maintenance and Reliability
      • Maintenance Management
      • Plant Maintenance
      • Process Plant Reliability Engineering
      • ReliabilityXperience
      • RCM Blitz®
      • Rob’s Reliability Project
      • The Intelligent Transformer Blog
    • on Product Reliability
      • Accelerated Reliability
      • Achieving the Benefits of Reliability
      • Apex Ridge
      • Metals Engineering and Product Reliability
      • Musings on Reliability and Maintenance Topics
      • Product Validation
      • Reliability Engineering Insights
      • Reliability in Emerging Technology
    • on Risk & Safety
      • CERM® Risk Insights
      • Equipment Risk and Reliability in Downhole Applications
      • Operational Risk Process Safety
    • on Systems Thinking
      • Communicating with FINESSE
      • The RCA
    • on Tools & Techniques
      • Big Data & Analytics
      • Experimental Design for NPD
      • Innovative Thinking in Reliability and Durability
      • Inside and Beyond HALT
      • Inside FMEA
      • Integral Concepts
      • Learning from Failures
      • Progress in Field Reliability?
      • Reliability Engineering Using Python
      • Reliability Reflections
      • Testing 1 2 3
      • The Manufacturing Academy
  • eBooks
  • Resources
    • Accendo Authors
    • FMEA Resources
    • Feed Forward Publications
    • Openings
    • Books
    • Webinars
    • Journals
    • Higher Education
    • Podcasts
  • Courses
    • 14 Ways to Acquire Reliability Engineering Knowledge
    • Reliability Analysis Methods online course
    • Measurement System Assessment
    • SPC-Process Capability Course
    • Design of Experiments
    • Foundations of RCM online course
    • Quality during Design Journey
    • Reliability Engineering Statistics
    • Quality Engineering Statistics
    • An Introduction to Reliability Engineering
    • An Introduction to Quality Engineering
    • Process Capability Analysis course
    • Root Cause Analysis and the 8D Corrective Action Process course
    • Return on Investment online course
    • CRE Preparation Online Course
    • Quondam Courses
  • Webinars
    • Upcoming Live Events
  • Calendar
    • Call for Papers Listing
    • Upcoming Webinars
    • Webinar Calendar
  • Login
    • Member Home

by Nancy Regan Leave a Comment

How I applied all seven steps of Reliability Centered Maintenance

How I applied all seven steps of Reliability Centered Maintenance

How I applied all seven steps of Reliability Centered Maintenance (RCM) on my drive home from the Reliable Plant Conference

I just can’t seem to get away from Reliability Centered Maintenance (RCM).

(And that’s okay with me. After all, my (technical) heart and soul belong to RCM!)

I was driving home from Indianapolis, Indiana after speaking at the Reliable PlantConference ~ 399 miles.

Just as I hit Nashville on I-65 South, my Low Oil Level Warning Light illuminated on my 2014 Subaru Forester.

In the context of RCM, the Low Oil Level Warning Light is a Protective Device. It’s called a Protective Device because it is intended to “protect” in the event that something else goes wrong. 

In this case, that “something else” was abnormally low engine oil.

Here’s the Function of my Low Oil Level Warning Light (RCM step 1):

To be capable of visually alerting the driver in the event that the engine oil level decreases to the lower limit.

Click here to DOWNLOAD your FREE RCM Quick Reference Guide.

Okay, now back to the road. 

“Rats,” I mutter to myself.

I quickly run through the possible Failure Modes (RCM step 3), Failure Effects (RCM step 4), and Failure Consequences (RCM step 5). There are three scenarios. 

Scenario 1: The light could be falsely illuminated due to a faulty circuit (meaning the engine oil level is normal). If that’s the case, there’s nothing I can do about it until I bring my car in for service. But between now and then, my engine will be just fine (non-operational consequences).

Scenario 2: The light could be illuminated because the oil level really IS low due to “normal consumption.” (Synchronicity was at play here. Just the other day, my husband (a gear head) and I were talking about that fact that my Forester has a Boxer engine and those engines typically “consume” oil due to normal use.)) I had at least another 150 miles to go. I probably had enough oil to make it home without damaging my engine…but…it wouldn’t be wise to continue driving without checking it out (possible operational consequences).

Scenario 3: The light could be illuminated because the oil level really IS low due to a leak in the oil system. That’s the worst-case-scenario because it’s very important that my engine gets proper lubrication. Inadequate lubrication could cause internal damage to engine components and possibly leave me stranded on the side of the road (operational and possible safety consequences).

My gut said it was either Scenario 1 or Scenario 2. But I had no way of being sure.

Still, in an attempt to deny reality (because I really didn’t feel like stopping), I called my husband hoping he would tell me to just keep driving.

As I expected, he told me to stop and check my oil level. And then he said “do you know how?”

I chuckled to myself. I wanted to say Are you kidding me? Of course, I know how to check my oil. I just gave a presentation about Reliability Centered Maintenance? But I didn’t. I knew he was just concerned. I simply said “yes, I do.”

I got off at the next exit and checked my oil level. (Thank you, Dennis for putting the blue towel in my car.) The level was a little on the low side – but still within normal range.

But…I didn’t know what was specifically causing (AKA Failure Mode) the Low Oil Level Warning Light to illuminate. If I actually had a leak, I needed to replenish the reservoir. I looked around and didn’t see any evidence of a leak…but I was still far from home.

I consulted the owner’s manual. (I can’t help it. I’m a woman. I have to read the directions.)

My engine takes synthetic oil. The gas station didn’t have any, so (per the manual) I got the next best thing for my Forester. I replenished the reservoir with conventional 5W-30.  

I purchased two extra quarts. In the context of RCM, you could consider those Protective Devices. I would only need them for the rest of the trip in the event that I really did have a leak.

(And…just in case the RCM gods were trying to tell me something, I bought a lottery ticket for that night’s Power Ball drawing.)

Within minutes of driving again, the Low Oil Level Warning Light extinguished. Ahhh…..

And it stayed extinguished for the rest of the trip.

That weekend, Subaru confirmed that my engine is expected to “consume” oil between changes, and I was coming up on 7,400 miles since my last service. 

They changed my oil (RCM step 6, Proactive Maintenance and Intervals, Scheduled Replacement Task) and checked out the lubrication system. Everything was good-to-go. No leaks. My oil was low due to normal consumption (Failure Mode).

So there you have it. 

A simple ride home from a maintenance conference and I applied all seven steps of the RCM process: 1. Functions, 2. Functional Failures, 3. Failure Modes, 4. Failure Effects, 5. Failure Consequences, 6. Proactive Maintenance and Intervals, and 7. Default Strategies.

Click here to DOWNLOAD your FREE RCM Quick Reference Guide.

You may be wondering how I sneaked RCM step 7 in there!

In a real-world RCM analysis, we determine how often to check our Protective Devices (assuming they can be checked) in order to achieve the availability, we say we want. In the context of RCM, they’re called Failure Finding tasks and they’re classified as Default Strategies (RCM step 7).

Although I didn’t initiate the Failure Finding task, when my Low Oil Level Warning Light illuminated, it was a natural complete check of the system – from sensor to warning light!

Like I said…I just can’t seem to get away from RCM…and that’s just fine with me!

PS: The lottery ticket was a loser!

Filed Under: Articles, Everyday RCM, on Maintenance Reliability

« Getting to Consensus
What’s Wrong Now? Shotgun Repair »

Leave a Reply Cancel reply

Your email address will not be published. Required fields are marked *

Articles by Nancy Regan
in the Everyday RCM series

Join Accendo

Receive information and updates about articles and many other resources offered by Accendo Reliability by becoming a member.

It’s free and only takes a minute.

Join Today

Recent Posts

  • What is the Difference Between Quality Assurance and Quality Control?
  • Covariance of the Kaplan-Meier Estimators?
  • Use Of RFID In Process Safety: Track Hazardous Chemicals And Track Personnel
  • How to Reduce Maintenance Cost The Right Way
  • Significance Over Success. Innovation Over Change. Anticipation Over Agility

© 2023 FMS Reliability · Privacy Policy · Terms of Service · Cookies Policy

This site uses cookies to give you a better experience, analyze site traffic, and gain insight to products or offers that may interest you. By continuing, you consent to the use of cookies. Learn how we use cookies, how they work, and how to set your browser preferences by reading our Cookies Policy.