Articles

Find all articles across all article series listed in reverse chronological order.

The CI Toolbox for Improved Sleuthing

One of the biggest challenges in Continuous Improvement isn’t solving the problem. Understanding and applying CI methodologies effectively is often where teams struggle most.

Every day, manufacturing teams play detective using tools from the CI toolbox. A machine suddenly slows down – RCA. A defect appears that wasn’t there yesterday – Defect handling. Downtime increases – pass down escalation. Customer complaints begin arriving – LSS.

It’s choosing the right CI methodology to solve it.

Too often organizations jump directly into:

Kaizen events
5S programs (5S)
TPM activities (TPM)
Six Sigma projects (SS)
Value Stream Mapping (VSM)
Root Cause Analysis (RCA)
Post-mortem Breakdown Analysis (BDA)

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by Ryan Burns Leave a Comment

Investigating Beyond “That’s How We Do It”

The Problem

The investigation starts before it officially begins.

A senior tech walks past the failed pump, glances at the shaft, and says “Oh, I know what this is — happens every time the humidity drops.” The room nods. Someone opens the RCA template and starts filling in the cause chain. The logic tree gets built around the conclusion, not toward it.

This is tribal knowledge in action. It isn’t malicious and it isn’t lazy. It’s what happens when unwritten, undocumented experience fills the space that objective evidence should occupy. The veteran’s pattern recognition is real and often valuable. The problem is that it goes untested, and the investigation quietly becomes a formality.

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by JD Solomon Leave a Comment

5 Ways Reliability Professionals Can Improve Effective Listening at Executive Meetings

Listening in a business meeting, especially one involving senior leaders, is a far different skill from listening in casual conversation. The stakes are higher, the messages are subtle, and the dynamics are often more complex. True listening in these situations requires reliability engineers to have discipline, perception, and intent. These are five insights to help you become a more effective listener when engaging with executive leadership teams.

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by Benjamin Agbesi Leave a Comment

The Day the Cement Ball Mill Went Silent

What It Taught Me About Reliability Engineering

It was a Tuesday morning, the kind that starts quietly and then doesn’t. I was on shift at the cement plant when the alarm hit the control room. One moment everything was running within parameters. The next, the Ball Mill had tripped, and the entire production line was holding its breath.

No dramatic explosion. No single obvious failure. Just silence. The kind of silence in a plant that costs real money by the minute.

I’ve been in reliability engineering long enough to know that the first question is never “what broke?” The right question is always “why did it break here, why now, and why didn’t we see it coming?”

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by Chris Weir Leave a Comment

Cost of Poor Reliability – where the real impact lies

The cost of poor reliability is often underestimated because much of it is hidden.

What organisations tend to see first are the immediate costs of repair, such as parts, labour and downtime. What is less visible, but often far more significant, is everything that follows.

Why Simple MTBF Is Costing Industry Millions (Part 1)

Many industries are using this formula to manage Multi-Million-dollar assets:

MTBF = Total Operating time ÷ Number of failures

Simple. Easy. Dangerously incomplete.

The problem?

Simple arithmetic MTBF assumes failures are Random and Constant. It treats asset health as Static.

But real-life industrial assets are not static. Failure rates are not constant.

Assets age. Lubricants degrade. Corrosion accelerates. Fatigue accumulates. Failure rates begin changing long before catastrophic breakdown occurs.

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by Ray Harkins Leave a Comment

Recovery Behavior: What Happens After the Stop Matters

This article is adapted from Chapter 11 of my book, Measuring Manufacturing Effectiveness.

The book explores how manufacturing effectiveness is shaped not only by equipment performance and process capability, but also by how organizations respond when things do not go as planned. While the chapters form an integrated framework, each one is written to stand on its own for readers encountering the work at different points.

Most manufacturing systems experience stops. Equipment fails, materials are delayed, quality issues arise, and plans change. What differentiates high-performing organizations is not the absence of disruption, but how they recover when disruptions occur. [Read more…]

by Semion Gengrinovich Leave a Comment

Weibull: The Ultimate Fit for Every Failure?

The Weibull distribution is a versatile statistical model that has become a cornerstone in reliability engineering and quality management. Developed by Swedish mathematician Waloddi Weibull in 1937, it was initially used to model the distribution of material strength, particularly the yield strength of materials. Weibull presented this distribution to the American Society of Mechanical Engineers (ASME) in 1951, marking a significant milestone in its adoption.

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by nomtbf Leave a Comment

A World of Constant Failure Rates

What if all failures occurred truly randomly?

The math would be easier.

The exponential distribution would be the only time to failure distribution. We wouldn’t need Weibull or other complex multi-parameter models. Knowing the failure rate for an hour would be all we would need to know, over any time frame.

Sample size and test planning would be simpler. Just run the samples at hand long enough to accumulate enough hours to provide a reasonable estimate for the failure rate. [Read more…]

by Greg Hutchins Leave a Comment

Implement Anticipatory Solutions

Instead Of Reactive Responses

Guest Post by Daniel Burrus(first posted on CERM ® RISK INSIGHTS – reposted here with permission)

In years past, many businesses have succeeded with an agile, reactive approach to business where they respond to climate, competition, and social circumstances in an “after the fact” way. This focus was predominantly on responding to disruptions as they came in, putting out fires to solve issues.

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by Mike Sondalini Leave a Comment

6-Step IONICS Method

Develop an Enterprise Asset Risk Control Strategy for Enterprise Resource Wellness

The 6-Step ‘Plant Wellness Way EAM System-of-Reliability’ methodology is more that DMAIC and more than using ISO 55001. It does not seek acceptable failure rates; its objective is total failure elimination from your operation.

In this strategy, your enterprise would be viewed through lenses of increasing magnification. The view at the highest level is the overall value stream map. Each high-level map comprises your company’s key activities, so the second level view is each individual activity. Each activity comprises many resources (tools, instruments, equipment, operators, materials, work products, etc.) so the third level view is each individual resource. Finally, each resource comprises many components, so the fourth level view is for each component. An appropriate risk abatement analytical procedure would be applied to a specific level with the requirement that a given procedure must be capable of producing a zero-failure rate. Such enterprise risk control procedures would include Process Optimization, an ACE 3T Quality Management System, and equipment reliability analysis.

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by Nancy Regan Leave a Comment

Unit 10: RCM in Action – RCM Case Studies of Transformation

In Unit 10, we take a deep dive into two real-world case studies that highlight the transformative power of Reliability Centered Maintenance (RCM). These case studies, drawn from my own experience, demonstrate how RCM was implemented in two different contexts using a facilitated working group approach. The first case study details an RCM program I started with the US Navy on Aviation Common Support Equipment, which led to a significant reduction in proactive maintenance man-hours, consumables, and hazardous material disposal, while also decreasing unscheduled maintenance. The second case study focuses on the CH-47 Chinook helicopter, where RCM implementation resulted in a drastic reduction in maintenance tasks, man-hours, and aircraft downtime, ultimately helping the Chinook achieve its readiness goal for the first time. Through these examples, you’ll see how RCM can optimize maintenance programs, eliminate unnecessary tasks, and enhance overall equipment reliability. Join me as we explore these powerful examples of RCM in action.

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by Ryan Burns Leave a Comment

“I Know What Happened.”

The Problem

Confirmation bias in RCA rarely shows up as rushing. It shows up as certainty.

The most experienced people in the room recognize a failure pattern and unconsciously lock onto a familiar explanation. “It’s always that coupling.” “Same bearing issue again.” “We’ve seen this a hundred times.” The investigation might still look rigorous, but it quietly narrows. The team hunts for evidence that supports the veteran narrative, stops asking deeper questions, and lands on a surface-level physical cause.

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by JD Solomon Leave a Comment

NPV versus NPC: Why the Small Distinction Matters to Reliability Engineers

Every major capital program eventually hits the same crossroads: two projects, one budget, and a decision that will last for decades. Many teams unknowingly mix up net present value (NPV) and net present cost (NPC), treating them as if they were interchangeable. They are not. The choice between them can flip the ranking of alternatives, distort affordability, and steer organizations toward outcomes they never intended. Understanding the difference is a responsibility for reliability engineers who develop recommendations and senior leaders who use them.

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by Benjamin Agbesi Leave a Comment

Reactive Maintenance Is Not a Strategy. It is Tax

Every unplanned shutdown has a price tag. Most organizations only count the obvious one: the cost of the repair itself. They rarely account for the lost production, the emergency procurement premiums, the overtime hours, the downstream schedule disruptions, or the quiet erosion of team morale that follows when breakdowns become routine.

Reactive maintenance: fixing things after they fail: is not simply an operational choice. It is a compounding liability. And in industrial operations across Africa, it remains one of the most significant and least-discussed drains on productivity, asset life, and organizational performance.

The engineering profession has the tools, the frameworks, and the data to do better. The question is whether organizations are willing to make the shift: in thinking, in culture, and in investment: before the next failure forces the conversation.

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