by James Reyes-Picknell Leave a Comment

Entropy and Maintenance – Part 3

Entropy and maintenance are more related than you might think. What happens in maintenance and many operations can be explained with this simple thermodynamic concept. Entropy is a concept that represents chaos and degradation. It occurs naturally in any physical system and will naturally grow (i.e.: the system will become more chaotic) if we don’t do something to arrest its growth. Doing something requires the expenditure of energy, so energy is what counters entropy. Entropy and maintenance are seldom discussed together, we don’t speak of these thermodynamic terms and concepts in everyday language and conversation, but they are at work behind the scenes. For practical purposes, if we want something to remain orderly we need to put some form of energy (effort) into keeping it that way. If we don’t, then nature will steadily and relentlessly increase the state of chaos in which we exist. In maintenance that means moving from proactive (which requires energy) to reactive (which drains it away).

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by Greg Hutchins Leave a Comment

Poor Management of Known Risks is Major Cause of Failed Projects

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

Studies show most projects fail due to poor management of known risks. The known risks on a project are:

Scope
Schedule.
Cost.
Quality.

The question is how do we manage known risks better? Known risks can be significantly mitigated with application of basic Project Management methods and processes.

This article will address scope. The other known risks will be addressed in separate articles.

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by Larry George Leave a Comment

Renewal Process Estimation, Without Life Data

At my job interview, the new product development director, an econometrician, explained that he tried to forecast auto parts’ sales using regression. His model was

sales forecast = Sb(s)*n(t-s) + noise; s=1,2,…,t,

where b(s) are regression coefficients to be estimated, n(t-s) are counts of vehicles of age t-s in the neighborhood of auto parts stores. The director admitted to regression analysis problems, because of autocorrelation among the n(t-s) vehicle counts, no pun intended.

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by Steven Wachs Leave a Comment

How do I Implement SPC for Short Production Runs (Part I)?

Traditional SPC methods were developed to support high volume production and long production runs. However, with the trend toward product specialization, product diversity, and flexible manufacturing, short production runs have become more common. Applying SPC in the traditional manner presents challenges in short production runs, because by the time enough data is collected to establish valid control charts, the production run may be over! [Read more…]

by Robert (Bob) J. Latino Leave a Comment

Tips for Examining Rolling Element Bearings: Prepping for a Root Cause Analysis

In our last series highlighting the 4 primary Failure Modes (FM) of component failures (erosion, corrosion, fatigue and overload), we discussed how to read fractured surfaces. In this follow up series, we will take a look at tips on how to collect, preserve and examine such failed components.

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by Doug Lehr Leave a Comment

Lab Testing Programs

The Critical Equipment Series has covered design and design risk reduction. A Laboratory Test Program (LTP) is the final step in validating the equipment design after updating it with all improvements determined through design risk reduction and related activities.

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by James Kovacevic Leave a Comment

Using Reliability Analysis to Determine Spares Stocking

How to use an FMECA or RCM Analysis to Determine What Spares to Stock

Determining which parts of stock can be a very overwhelming process. As such, many choose to blindly accept the OEM or Manufacturer’s recommendations. And why shouldn’t they? The OEM has many years of experience in building these types of assets and supplying spares, right?
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by James Reyes-Picknell Leave a Comment

Uptime Insights – 10 – Process optimization

Business processes are often talked about, yet not well understood. The big problem with them is that too few people know what the whole process actually should be. Whenever you are following a set of steps to achieve some goal you are following a process. Sometimes various people follow different steps to achieve the same goal. You rely on processes in order to deliver results. If they are ill-conceived or inefficient, then things move slowly and results are more expensive to obtain than they need to be. Well designed, efficient, and consistent processes that integrate with other related business processes keep things running smoothly, costs down, and help to keep people motivated.

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by Bryan Christiansen Leave a Comment

Using CMMS To Improve Asset Maintainability

Mature organizations seeking a competitive edge are familiar with the term Reliability Centered Maintenance (RCM). A maintenance philosophy encompassing predictive, preventative, and maintenance, RCM uses defined processes to find latent or hidden failure modes, customizing maintenance processes to maximize system performance. Most understand that the RCM philosophy enhances equipment availability through improved reliability, increasing annual earnings before interest, tax, and amortization (EBITDA). Yet, some businesses fail to understand that equipment availability comprises two crucial inputs, not one. Equipment reliability, yes, but also equipment maintainability. [Read more…]

by Greg Hutchins Leave a Comment

Delivering Outcomes, Building Trust

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

On July 17, 2020, the American Council for Technology – Industry Advisory Council (ACT-IAC) issued a report entitled “Delivering Outcomes, Building Trust”. The ACT-IAC is a non-profit educational organization established to create a “more effective and innovative government”. The report provides some ideas on how the United States Federal government can become “more resilient, adaptable, and responsive.” This piece will look at the report and its recommendations.

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by Steven Wachs Leave a Comment

Analyzing the Experiment (Part 4) – Finding Solutions

In the last article, we learned how to determine the coefficients of a predictive model for 2-level screening designs. It is more complex to determine model coefficients for multi-level experiments so for those, we rely on statistical methods software.

In this article, we look at using the model to develop solutions. So that we learn the basics, we first use some simple algebra to find a solution. Then, in the next article, we will explore some common tools that are found in DOE software programs to help uncover solutions. [Read more…]

by Robert (Bob) J. Latino Leave a Comment

Part III: The 4 Basic Physical Failure Mechanisms of Component Failure: Overload

Author’s Note: I want to reiterate that this Series about reading the basic fracture surfaces, is for novices who often first come into contact with such failed components. This Series is about the basics (101), and is intended to give readers an appreciation for the value of such ‘broken’ parts to an effective investigation/RCA. While this information will be rudimentary to seasoned materials engineers, I know they will all appreciate heightening awareness to the need to retain such failed parts for analysis, versus throwing them away and just replacing the part. Throwing away failed parts is a recipe for a repeat failure, when one does not understand why the part failed in the first place.

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by James Kovacevic Leave a Comment

Understanding the Importance of Machine Bases

How to ensure your assets are on a solid foundation

Installing an asset is a critical step that can impact reliability short term and long term. Often times assets are installed without much thought. They are thrown on the machine base, anchors drilled and away the operation goes.

But while focusing on the Installation – Potential Failure – Failure curve, it becomes obvious that time and precision during the installation point can greatly extend the life of the asset. By investing in the installation, the asset will experience less premature failures and extend any wear out mechanisms that are present in the asset.
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by James Reyes-Picknell Leave a Comment

Maintenance and Reliability Improvement with Uptime

Maintenance and Reliability improvement are keys to Operational Excellence – without them, you’ll suffer high costs and reduced outputs. This interview by Ryan Chan of UpKeep gives insight into what Uptime is, how it works towards Maintenance and Reliability improvement. The value it can deliver is high, how it does it is straight-forward, and leaders are needed to make it happen.

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by Greg Hutchins Leave a Comment

Electric Car Hidden Risk

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

Fifty years ago, having your own car was a sign of adulthood and your ticket around town. But that is all going to change within the next five to ten years due to rising CO2 levels and a new trend called Transportation as a Service. TaaS sits at the intersection of four technical macro trends. These are:

Autonomous vehicles
Electric vehicles
Connectivity
Sharing economy

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