Tag Archive for: CAD

CNC Machining & 3D Printing: A Hybrid Approach to Precision Manufacturing

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With recent advancements in 3D printing capabilities, it is becoming easier for manufacturers to use additive manufacturing to create parts from a wide variety of materials, including polymers like ABS, TPE, and PLA as well as carbon fiber composites, nylon, and polycarbonates. Even pricey metals like Titanium, Stainless Steel, and Inconel are becoming increasingly common in the world of additive manufacturing as well.

There is no doubt that the additive manufacturing space will continue to develop and grow in the coming years, but will it render subtractive manufacturing methods like CNC Machining obsolete? Absolutely not. In fact, precision CNC machining is likely more important to the additive manufacturing process than you may think, as a new process called “hybrid manufacturing” is quickly taking hold in the industry.

3d printing metal
3D printing of metal parts is becoming more common, but subtractive manufacturing is an important part of manufacturing precision additive parts.

Additive Manufacturing vs. Subtractive Manufacturing

Before implementing a hybrid manufacturing approach, it is important to understand the pros and cons of each method. Here is a quick breakdown of both additive and subtractive manufacturing, and the benefits and drawbacks of each.

Additive ManufacturingSubtractive Manufacturing
Adds material layers to create partsRemoves material layers to create parts
Slower process, better for small production runsFaster process, better for large production runs
Better for smaller partsBetter for larger parts
Rough surface finish that requires significant post-operation finishingMore definied surface finish with minimal post-operation finishing required
Less precise part tolerancesAble to hold extremely precise part tolerances
Cheaper material costsMore expensive material costs
Less material wasteMore material waste
Intricate details easier to createIntricate details can require complex programs and additional capabilities (5 axis)

Using CNC Machining to Create Precise 3D Printed Parts

Looking at the chart above, you will notice that one of the key differences between additive manufacturing and subtractive manufacturing is the surface finish and tolerances that can be achieved with each method. This is where a hybrid approach to additive manufacturing can be extremely beneficial.

As parts come off the printer, they can be quickly moved into a CNC machine with a program designed for part completion. The CNC machine will be able to get 3D printed parts down to the tight tolerances required by many industries and reach the desired surface finish. Advanced finishing tools and long reach, tapered tools from brands like Harvey Tool can easily machine the tight geometries of 3D printed parts, while extremely sharp diamond-coated tooling and material-specific tools designed for plastics and composites can work to create a beautiful, in-tolerance finished part regardless of the material.

long reach end mill
Long reach tools can easily machine hard to reach, intricate part details on 3D printed parts.

By designing a workflow like this in your shop, you can spend less time worrying about the precision of printed parts by adding in subtractive operations to keep material costs low, create less waste, and keep parts in tight tolerances for precision machining excellence.

Using 3D Printing to Increase CNC Machining Efficiency

If your shop is focused completely on subtractive manufacturing methods, you are probably thinking that there is no need for an additive option in your shop. Can’t a CNC machine create everything a 3D printer can, and in less time? Not necessarily. Again, by using the two methods together and taking a hybrid approach, you may be able to lower your manufacturing and material costs.

For example, you could machine the bulk of a part with typical subtractive machines, which would likely take a very long time using additive methods. Then you can go back to that part with a 3D printer to add intricate features to the part that may take complex programming and hours of planning on a subtractive machine. An impeller is a great example, where the bulk of that part can be machined, but the tricky fins and blades could be printed onto the part, and then finished back on the CNC machine.

3d printed metal parts
3D printed impeller waiting for finishing operations

The ability of additive machines to literally “add-on” to a part can also make for a cheaper approach to part design. Instead of using expensive materials like Inconel or Titanium to machine an entire part, portions of the part that do not require extreme heat resistance could be machined out of cheaper steel, while the heat resistant portions using expensive materials can be added later through additive methods.

Hybrid Manufacturing Machines

As hybrid manufacturing workflows become more popular, so do new hybrid manufacturing machines. These hybrid machines are all-in-one machines where both additive and subtractive manufacturing can be performed in a single setup. Many of these machines offer metal 3D printing as well as multi-axis machining capabilities, ready for even the most complex parts thrown their way. With a bit of customization, large-scale 3D printing machines or CNC mills can be retrofit to allow for hybrid manufacturing with add-ons from companies like Hybrid Manufacuring Technologies.

hybrid manufacturing machines
Example of a hybrid machine add-on from Hybrid Manufacturing Technologies, featuring 3D printing spindles and milling tools in the same machine carousel.

As manufacturing and design techniques get progressively “smarter” with CAM/CAD programs offering generative design and artificial intelligence, these hybrid machines could become a new standard in high-end machine shops working in advanced manufacturing industries like aerospace, medical, defense, and the mold, tool & die market.

Overall, in 2021 we are still early on in this new revolution of hybrid machining and advanced design methods, but it is important to understand the role that adding a CNC machine could have in your additive-focused shop, and vice versa. By combining additive and subtractive together, shops can mitigate the cons of each method and take full advantage of the benefits of having both options available on the shop floor.

Workshops for Warriors – Featured Customer

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Featured Image Courtesy of Workshops for Warriors

In 2008, Hernán Luis y Prado, a United States Navy officer, noticed his fellow service members looking for a successful path in life after service. Hernán decided he needed to make a change. He set out to make a difference for his fellow service members by starting Workshops for Warriors, a state-licensed, board governed, fully audited, nonprofit school. Its mission is to provide quality training, accredited educational programs, and opportunities for its students to earn third-party nationally recognized credentials to enable Veterans, transitioning service members, and others to be successfully trained and placed in their chosen advanced manufacturing career field.

We had the honor of speaking with Marine Veteran Scott Leoncini, an instructor at Workshops for Warriors, about the accomplishments and amazing work Workshops for Warriors does for our Veterans.

workshops for warriors members examining tools
Photo Courtesy of: Workshops for Warriors

What Does Workshops for Warriors Offer for Our Veterans?

Workshops for Warriors offers two primary tracks of training, both taught by Veterans: welding and machining, Scott explained. After choosing a track, students become a part of the 16-week accelerated program. Those with only a minimum of four months and one nationally-recognized certification can walk across the shipyards and gain employment. Workshops for Warriors remains committed to providing free training to Veterans who do not have access to living-wage jobs. U.S. Veterans often face challenges as they transition to civilian life, including significant barriers to civilian employment. In addition to the hard technical skills, our students are also learning soft skills such as attitude, communication, work ethic, teamwork, time management, problem-solving, critical thinking, and conflict resolution.

A proven path into a rewarding career can eliminate problems like unemployment, homelessness, broken families, and suicide. The problem of Veteran unemployment does not have easy, short-term solutions. Workshops for Warriors is uniquely positioned to expand proven innovative techniques to give Veterans marketable employment that will allow them to build careers and families. 

How Did You Find Workshops for Warriors and Become an Instructor?

After I left the Marines in 2009, after serving two tours in Iraq as a combat engineer, I desired an action-packed career. I thought my best option was to start a career in law enforcement. I got a job at a security company and worked there for a few years. During this time, a close friend of mine tragically passed away in a helicopter crash, leaving behind his pregnant wife. This made me reevaluate my current life with my wife and two children. I decided I didn’t need that action-packed career, and that my family comes before anything.

Another friend of mine actually told me about Workshops for Warriors and how it was giving him career skills in welding, and he talked about a machining program. When I showed up, I had no idea what was in store for me. I started learning all about CNC machines, and how to program and run these things. It was eye-opening and I was having a great time. After my first semester, I was asked to become a teacher’s assistant and I’ve been teaching here now for almost five years.

men setting up Haas milling machine
Photo Courtesy of: Workshops for Warriors

Where Does Your Passion for Teaching Come From?

I love teaching Veterans and helping them transition so they don’t have to go through the same five years I did of, “What am I going to do with my life?” I’ve gone through the same situation a lot of the people coming to us are currently in.

I think that there are three fundamentals that anyone looking for a career or path can apply to their lives and be successful. You have to show up on time, you have to work hard, and you have to be willing to learn. I didn’t know anything about machinery when I first got into this field. When I went through it as a student myself, I applied those three things to my work habits, and now I’m an instructor. I had pigeonholed myself for a long time. But you have to recognize that there’s always something else, something up next and that’s what I want to help teach the Veterans who come through here.

What Courses Does Workshops for Warriors Provide?

We offer many different courses, including CAD courses in Solidworks and CAM courses in Mastercam, and we offer welding courses for Gas Metal and Flux Cored Arc Welding. We also offer advanced training in Flowmaster Programming and Waterjet Operation, 3D Printing, and Robotics. With these courses, we offer many credentials to start a real career. The machining program is accredited by the National Institute for Metalworking Skills (NIMS). NIMS is recognized by the United States Department of Education. The welding program is accredited by the American Welding Society (AWS), which is the worldwide leader in certification programs for the welding industry.

Thanks to private donors, Veterans and transitioning service members are able to become trained and certified in our advanced manufacturing programs. Students can apply to enter one of our programs, or take specific classes that meet their needs.

What Jobs Have You Seen Veterans Acquire After Workshops for Warriors?

We have seen many success stories from Veterans once they leave Workshops for Warriors. One Veteran, in particular, visited us in search of direction in 2019. The machining program had one spot left for the semester, so he took it. He is now certified in machining and welding. He entered a job market that was struggling after his graduation. But he still had a job lined up with 5th Axis Machining in San Diego. His future plans are to own his own business to support his family.

man teaching about machining tool holder
Photo Courtesy of: Workshops for Warriors

How Could People Help Support Workshops for Warriors?

They can donate directly to us on our website, or on our Facebook page. Or, people looking to help support us can reach out to us by email, [email protected], or by calling us at 619-550-1620, with any questions. We also accept equipment donations for each program, welding, and machining. You can also support us by following on Facebook, Instagram, Twitter, LinkedIn, YouTube, or our newsletter.

What Advice Would you Give to Anyone Looking to Start a Career Path?

After leaving the service, I fell into a depression. I kept thinking, “I’ll never be as good as I was back then.” It was hard to not have “Marine” be the primary part of my identity, so I became blinded by my obsession with still being the superhero kicking down doors. Don’t paint yourself into a corner. Be flexible and make sure to show up on time, work hard, and be willing to have an open mind and ready to learn. Test your comfort zone. When I left the service, I only knew how to be the man with the gun. Workshops for Warriors gave me a chance to be more than that – it gave me a direction in life. I now get to do what I love and help my fellow Veterans.

To learn more about Workshops for Warriors and their mission you can visit their website or follow them on Instagram, Facebook, LinkedIn or Twitter.

Save Time With Quick Change Tooling

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Making a manual tool change on any CNC machine is never a timely or rewarding process. Typically, a tool change in a standard holder can take up to 5 minutes. Add that up a few times, and suddenly you have added significant minutes to your production time.

As CNC machine tool and cutting tool technology has advanced, there are more multi-functional tools available to help you avoid tool changes. However, sometimes it just isn’t feasible, and multiple tool changes are needed. Luckily, Micro 100 has developed a revolutionary new method to speed up tool changes significantly.

What is the Micro-Quik Tooling System?

Developed in Micro 100’s world-class grinding facility in Meridian, Idaho, the Micro 100 Micro-Quik tooling system is held to the same standards and tight tolerances as all of the Micro 100 carbide tooling.

The quick change tooling system allows for highly repeatable tool changes that save countless hours without sacrificing performance. This system combines a unique tool holder with a unique tool design to deliver highly repeatable and accurate results.

Each quick change tool holder features a locating/locking set screw to secure the tool and a locating pin which helps align the tool for repeatability. Removing a tool is as simple as loosening the set screw and inserting its replacement.

removing tool from quick change system

During tool changes, the precision ground bevel on the rear of the tool aligns with a locating pin inside the tool holder. The distance from this locational point to the tip of the tool is highly controlled under tight tolerances, meaning that the Micro-Quik tooling system ensures a very high degree of tool length and centerline repeatability. The “L4” dimension on all of our quick change tools, as seen in the image above, remains consistent across the entire product line. Check out the video below for a demonstration of the Micro 100 Micro-Quik system in action!

Quick Change Tooling Benefits

quick change system with micro 100 boring bar

The most obvious benefit to using Micro 100’s Micro-Quik Quick Change Tooling System is the time savings that come with easier tool changes. By using the quick change holders in combination with quick change tooling, it is easy to reduce tool changes from 5 minutes to under 30 seconds, resulting in a 90% decrease in time spent swapping out tools. This is a significant benefit to the system, but there are benefits once the tool is in the machine as well.

As mentioned above, the distance from the locational point on each tool shank to the tip of the tool is highly controlled, meaning that regardless of which type of tool you insert into the holder, your stick out will remain the same. This allows you to have confidence in the tooling and does not require additional touch offs, which is another major time saver.

assortment of boring bars with quick change system

By removing additional touch-offs and tool changes from your workflow, you also reduce the chances for human or machine error. Improper touch-offs or tool change errors can cause costly machine crashes and result in serious repairs and downtime. With the Micro 100 Micro-Quik Quick Change Tooling System, initial setups become much easier, allowing you to hit the cycle start button with total confidence for each run.

By making a few simple changes to your tool holding configurations and adopting the Micro-Quik system, your shop can save thousands in time saved, with less machine downtime and increased part production. To learn more about the Micro 100 Micro-Quik cutting tools and tool holders, please visit Micro 100.

KAD Models – Featured Customer

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Featured Image Courtesy of KAD Models

Established in 2012, KAD Models is a small, yet steadily growing prototype machine shop, which originated in the San Francisco Bay Area and has since opened its second location in Vermont. They have been a regional leader in the advanced manufacturing space for many years, and operate in close connection with other machine shops and related businesses like turning facilities, anodizers, welders, and more. KAD Models staff is comprised of diverse occupational backgrounds (e.g. mechanic, industrial engineer, blacksmith, etc.). Further, they have invested into their local community college and technical training programs to support an expanding talent pipeline for advanced manufacturing.

Brian Kippen is the owner & founder of KAD Models & Prototypes, Inc. Before launching KAD with model maker John Dove, Brian worked as the Director of Operations at A&J Product Solutions and a machinist at Performance Structures. Brian is drawn to the challenge of making design concepts into reality, and motivated by the ever-changing landscape of machining. Brian took time to speak with us about KAD Models, his experiences, machining techniques, and so much more.

KAD Models cnc machining a custom part
Photo Courtesy of: KAD Models

Can you give us a little background on how KAD Models was started?

I worked for a few years repairing automobiles, then following high school, I attended college for about three weeks. After some strong encouragement from my mom, I moved out west. I joined the Marines, broke both of my feet, and was honorably discharged. Then, I got my broken foot in the door at a machine shop and knew what I wanted to be when I grew up. After years of working as a machinist, I went into business with one of my previous employers. After a year and a half, the partnership degraded and I made the decision to buy out my partner.

It’s been really gratifying to see the business grow and get to know different types of customers as the shop’s reputation spreads. One of the reasons I wanted to start my own shop is that I really wanted to see the industry evolve in a new way, to better meet people’s needs. It’s been really great to see that decision and the investments I’ve made in building KAD pay off.

We produce approximately $1.5M of parts for 100+ distinct clients each year.  Since its founding in 2012, KAD has continued on a steady path of growth, adding staff, equipment, and clients without marketing or advertising. We build a broad range of products such as automotive drive axles, silicone cardiovascular valves, and fully functional consumer product models. Due to the nature of prototyping, no component is outside of the realm of possibility. 

What machines are currently in your shop?

We use Haas CNC machines. At our West coast facility, we have six machines, five vertical 4 AXIS machining centers with capacities up to 26” Y AND 50” X and one 5 AXIS universal machining center. At our East coast facility, we currently have two new CNC ONE 3 AXIS and one 5 AXIS universal machining center paired with a Trinity Automation AX5 robotic cell. I decided to get a 5 axis milling machine earlier last year because I felt we should invest before the absolute necessity arose. I’m excited about the creative options it opened up and it’s been fun to put it to good use. We are currently using both Fusion 360 and Surfcam software.

What sets KAD Models apart from the competition?

Our quick turnaround time of 3-5 days with our ability to tackle very complex parts sets KAD apart from a majority of manufacturers.

I also think our willingness to really dig in with the client and get to know what they need and why. We have a really creative team here at KAD and thrive at not only building complex parts, but helping industrial designers and engineers think through manufacturing, design, and usage requirements to build the simplest, most effective product we can. I’ve created prototypes before, just from a conversation with someone – not even a CAD drawing. It’s these types of interesting challenges that made me want to be a machinist in the first place and that keeps me engaged and excited day-to-day.

end mill machining metal
Photo Courtesy of: KAD Models

KAD Models is an innovative company. Can you speak about what innovations KAD makes?

Well, KAD works with some of the most innovative companies out there, across all kinds of industries: medical devices, aerospace, automotive, and consumer electronics. We help people at the forefront of innovation bring their ideas to life, so I’d say innovation is basically our bread and butter. As far as our innovations in process, as I said before, KAD has a really creative team. Since we are well known for prototyping and since prototype manufacturing need not follow all the common work holding rules, we break them on a daily basis.

What is your favorite part of your job?

I love the challenge of taking on seemingly impossible ideas and turning them into tangible things. I’m really satisfied when I can come home after a long day and have held the things I’ve made in my hands. I’m also really proud to be a business owner. It’s incredibly rewarding to see a team you’ve taught and grown to take on and be inspired by the same types of problems as you. It’s been really cool to see what we’ve been able to accomplish for our clients. My personal passion remains automotive.  KAD has reverse-engineered many no longer available automobile components and designed parts that upgrade vintage Datsuns.

assortment of prototype parts made by Kad Models
Photo Courtesy of: KAD Models

Why is high-quality tooling important to you?

In prototyping, you often get one chance in order to make deadlines. High quality and high-performance tools allow you to get this done without question. Given 95% of our tooling is either Helical or Harvey, I would say that high-quality tooling helps us out on a daily basis. We also use High Efficiency Milling (HEM) techniques, which Helical is optimized for. We find with long cutters and with deep pockets, HEM is almost a must.  Often though, on shallow areas, it’s overkill.  As with salt, there can be too much. 

cnc machined metal wine rack
Photo Courtesy of: KAD Models

If you could give one piece of advice to a new machinist what would it be?

Fail fast and fail often. Then learn from your mistakes. 

I think the biggest thing is getting to know other machinists, learning other methods, and being open to alternative ideas. It’s important to keep your mind open because there’s always more than one way to machine something. One of the things I’ve found most rewarding about running my own shop is getting to set the tone of how we work with other shops and adjacent industries. I’m really passionate about the manufacturing community as a whole and I’m glad blogs like this exist to help draw connections amongst us.

Also, don’t be afraid to challenge the status quo. I love working with new machinists because they bring different ideas to the table. That’s really important for innovation and to keep us all moving forward.

Feel free to check them out at www.kadmodels.com or on Instagram @kadmodels or stop by their west coast shop in California or new east coast location in Vermont.