Released July 18, 2022

Miles Free selects 10 of 20 very important issues in the Federal Government’s Spring 2020 Regulatory Agenda and shares with Carli Kistler-Miller and listeners the potential impact these issues have on the precision machining industry and PMPA Members.

 

Show Notes Link: https://www.reginfo.gov/public/do/eAgendaMain

 

This week’s topics: CPI, Global Comparison on Manufacturing Operation Costs, Federal Government Spring 2022 OSHA Agenda, Top OSHA Violations of FY2021.

PMPA shares important information you may have missed while you were making essential parts.    More info and links…

Released July 11, 2022

Miles Free selects 10 of 20 very important issues in the Federal Government’s Spring 2020 Regulatory Agenda and shares with Carli Kistler-Miller and listeners the potential impact these issues have on the precision machining industry and PMPA Members.

 

Show Notes Link: https://www.reginfo.gov/public/do/eAgendaMain

 

MARKET INSIGHT – Small Electric Appliance Manufacturing

NACIS 335210 | $63,905,068,000

by Joe Jackson

Marketing & Events Assistant, PMPA

Published July 1, 2022

The parts that our precision machining shops manufacture provide essential functionality to the many critical household appliances that are important to our day-to-day functions such as cooking, cleaning, food preparation and personal care.

 

Top 5 Companies

  1. Conair Corp., CT
  2. Hamilton Beach Brands Holding Co., VA
  3. Broan-Nutone LLC, WI
  4. Ad Corp., CO
  5. Tacony Corp., MO

 

  • The precision machined products manufacturing industry sales are 5.5 times that of the small electric appliance manufacturing industry.
  • Precision machined products average 2% of NAICS 335210 industry’s spend, which equates to $34 million in sales for our precision machining shops.
  • The small electric appliance manufacturing is very concentrated. Of the 563 companies verified in this NAICS Code, the top five companies make up 61% of the sales in this industry.
  • The small electric appliance manufacturing industry spend is $1.7 billion on materials, components, supplies, minerals and machinery
  • The small electric appliance manufacturing is forecast to continue its steady growth which the industry has shown over the last seven years.

 

Source: U.S. Census, NAICS.com, Tricitiesbusinessnews.com

 

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Author

Joe Jackson

Marketing & Events Assistant, PMPA

Email: gro.apmp@noskcajj — Website: pmpa.org.

 

 

 

 

 

 

Thriving With You in 2022: Sharing Solutions

PMPA’s National Technical Conference 2022 (held at The Pfister Hotel in Milwaukee, Wisconsin, May 1-3, 2022) had packed sessions, excited attendees and a lot of learning, sharing and networking.

by Carli Kistler-Miller

Director of Programs & Marketing, PMPA

Published July 1, 2022

I wrote the first draft of this article, read it, then slapped myself awake and realized…who better to tell the story than those who experienced it? So, here are comments about the overall conference and some sessions shared with us through anonymous evaluations:

Learning to work with others in the Escape Room.

Learning to work with others in the Escape Room.

“Had a great time, good networking, helped my team build better relationships and some good information to bring back to work.”

“I loved the conference. It was my first time and I look forward to returning.”

“Very well organized and presented. A fantastic experience, fantastic hotel! Very impressed.”

“Lots of good insights and reminders to take back home.”

“We’ve been applying GD&T wrong. Glad we came to this.”

Technical member exhibits.

Technical member exhibits.

“Tons of great ideas! I filled two pages of notes just in one session!”

“I am new to this industry and learned a lot.”

“Useful information on how to approach costs per machine. Will definitely look closely into this when returning to work!”

“Tons of good information to think about.”

“I had a great time, learned a lot and really look forward to coming every year.”

Save the Date! PMPA’sNational Technical Conference 2023 will be held in Cleveland, Ohio, at the Huntington Cleveland Convention Center, April 16-18, with the Precision Machining Technology Show (PMTS) following in the Convention Center on April 18-20!

 

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Author

Carli Kistler-Miller, MBA has over 25 years of experience with
communications, event/meeting planning, marketing, writing and
operations. Email: gro.apmp@rellimc — Website: pmpa.org.

 

 

Economics of Production Machining: Are You in the Speed or Feed Tribe?

Optimizing for multiple factors, not just minimizing cost for a single factor, will lead to profitable production machining.

by Miles Free

Director of Industry Research and Technology, PMPA

Published July 1, 2022

Production machining is a manufacturing domain where economics are the controlling factor. The jobs that we get are the result of our winning bid in an auction process. Factors such as ISO status, location and reputation all factor into the buying decision. However, the decision to buy from us almost always boils down to “lowest price.” Economically feasible production machining is based on achieving the lowest price to market. Our shops seldom have any real advantage in getting materials, supplies or tools at a lower cost than our competitors, so the cost of our manufacturing operations generally becomes the deciding factor.

Your shop’s tendency to be in the Tribe of Speed or the Tribe of Feed is the subject of this article. Because how you approach your machining operations can have a significant — perhaps dramatic — impact on the price you are able to offer. And, thus, the economic success of your shop.

Defining the Production Machining Process

The production machining process is an economic problem involving tooling costs, machining and operating costs, and material and nonoperating costs. As the material is specified to us by the customer, the choice of material is out of our control other than to no quote. So, the price of material is not really a factor in our current analysis. Similarly, nonproductive (nonoperating) fixed costs are baked into our manufacturing system and process, making them a nonfactor in our current analysis. 

Tooling cost is a factor because it impacts our analysis as a function of speed. At higher speeds, more material is presented to the tool, causing more abrasive and frictional wear than at lower speeds. Abrasive wear is a function of the surface footage contacting the part — more footage equals more abrasion. Frictional wear is a result of higher cutting tool temperatures reducing the strength of the tool edge. Frictional heat increases with higher surface speed. It is this frictional heating that is responsible for the thermal failure of our cutting tools at higher speeds. 

Frictional wear and frictional heat eventually degrade the performance of the tool, resulting in unacceptable surface finish and loss of dimensional conformance of the surface of the part, making it necessary to replace the tool. With higher speeds, more tools are required (and increased downtime to replace them!), so tool cost increases with increasing speed. While the cost to change and replace a tool is a constant for each tool, increasing speed creates increasing wear, requiring more tool changes. Tool cost is an important factor under our control — by finding an optimum speed that gives the maximum tool life.

The other side of this problem is the fact that the machining cost — the cost of labor and overhead — decreases with increasing speed. Increased speed minimizes time needed to drop a part complete. We need to balance the reduced times that increased (higher) speed gives us to produce the part against the decreased cost of tooling that decreased speeds delivers. (As a result of less wear due to lowered abrasion, friction and heat.) We need to determine the cutting speed that delivers the longest tool life and the lowest time to produce.

Between the conditions for lowest cost for tools and those that provide for the least amount of time to produce the part is a range of conditions that delivers both the longest tool life and greatest output. By minimizing tool consumption, while maximizing output over time, the shop achieves the most efficient use of all its resources.

Based on the material grade required by the customer (the grade determines the speeds and feeds available to the machinist), better tool life is obtained by using high feed and low speed rather than low feed and high speed. Less horsepower is required per cubic inch of metal removed, and fewer revolutions per minute are required. This reduces rubbing (abrasive and frictional wear) on the tool. To be fair, surface finish is not as good as feed increases, but operating at the feeds and speeds that deliver both an acceptable surface finish and maximize cubic inches of removal per unit time will result in the most acceptable parts at the end of the hour, shift, day and more.

The Tribe of Speed

The motto of the Tribe of Speed is “We don’t sell parts, we sell the time on our machines. Minimizing the time on our machines is the way to profits.”

I absolutely agree with the first sentence of this motto. We do sell the time of our machines used to make the part. We also sell the cost of the tools and the downtime as well as the materials needed to make the part. It is an oversimplification to say that the time to make the part is the sole determinant of our shop’s success — economic or otherwise — on a given job. The Tribe of Speed is interested in winning the race. It sees production of each part as a sprint to be won time and time again. While minimizing cycle time is one way of reducing cost of the finished product, it is neither the optimum way to reduce total costs nor to maximize production.

The Tribe of Feed 

The motto of the Tribe of Feed is “What can I do that will get me the greatest number of compliant, shippable parts at the end of the day?” The tribe of feed isn’t into speed with its propensity to have more frequent — and more sudden — unexpected tool failures. The Tribe of Feed is interested in “steady as she goes.” The Tribe of Feed seeks predictable tool life, predictable uptime and predictable tool changes as the result of optimized parameters for all aspects of the machining process. Their approach takes into account tool life/tool cost, maximizing process uptime and minimizing unexpected downtime. 

Fast speeds may win in a sprint, but this misses the fact that our provision of parts is actually a marathon. If the goal is most parts at the end of the shift or day, then the operating process that maximizes tool life and the number of parts made by each tool is our choice. If maximizing metal removal (the definition of our subtractive production machining process) is the goal, then balancing feed and speed to give us lowest tool cost and lowest cycle time is our best way forward. (See the sidebar for how one PMPA shop looked at their chips to learn their feed was too low.) 

Defining ‘Winning’

Optimizing our processes for optimum and near steady state conditions can result in more parts per hour, shift, day and week than trying to reduce cycle time. Steady state can result in more predictable operations, lower downtime and more revenue for the shop. Steady state is achieved by balancing speed and feed to maximize tool life and uptime while maintaining minimal times to machine.

To which tribe do you belong? The Tribe of Feed? Or the Tribe of Speed? To which tribe does your engineering and shop culture belong? What about your sales team? Aligning everyone’s “membership” with the goals and objectives of the company might just be a way to improve working conditions, reduce costs and downtime, and increase revenues as well as attract more business.

Choose your tribe — wisely.

Feed Increase Saved Half a Shift of Time Over 18,000 Parts

Darrin Baker, 2nd Swiss Lead CNC Machinist at Pindel Global Precision, shared an experience on LinkedIn following his attendance at a session on “How to Read A Chip” at PMPA’s recent National Technical Conference. “Excellent example of reading chips and optimizing them… In the top left of the photo, you’ll see some conical chips created by a cutoff tool. With a quick change of feeds, you get the more tightly wrapped chips you see in the bottom half of the picture. The cones were very consistent, but the tightly wound ring is optimal.” (The cones are a clue that the speed is too high for the feed for that particular material.)

 

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Author

Miles Free III is the PMPADirector of Industry Affairs with over 40 years of experience in the areas of manufacturing, quality, and steelmaking. He helps answer “How?, “With what?” and “Really?” Miles’ blog is at pmpaspeakingofprecision.com; email –  gro.apmp@eerfm; website – pmpa.org

 

 

July 2022

Craftsman’s Cribsheet #108

The table lists the standards cited by Federal OSHA for The Precision Turned Product Manufacturing NAICS code in FY 2021. General requirements for all machines, handling materials, and hazard communication were the top three citations by penalty amount for our industry. Finding and fixing any shortcomings in these areas would eliminate recognized hazards and reduce the risk of violations in your shop.

 

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