“It’s great to have high-speed machining equipment when you are ready to afford it,” says Steven, president of first-rate mold company, “but in the meantime, moldmakers should know there are steps that can be taken to get there.” Steven describes his equipment as “universal” – it must be able to tap, drill, rough and finish. “I’m not a big corporation,” he comments. “I can’t buy a million dollar machine that does nothing but roughing. I need to be able to do it all.”

Steps for Success
Steven wants to share his formula for success with others, and explains in detail how he has gotten the most out of his machining center combined with the right choice of quality tools to achieve the highest standards of quality and efficiency.

Step One – Setup
According to Steven, the first step a moldmaker must take to machine at high speeds without having to purchase a fancy piece of equipment is to reduce setup time. “Everybody can do it and it doesn’t cost anything,” Steven notes. “You have to go in stages. Setup time is the time you start a project to the time you stop the project. You have to understand what you are doing and don’t look at the big picture.

When you do that it becomes so overwhelming. Break everything down into smaller stages – the time it takes for someone to square the steel, the time the steel sits on the floor – can any of this be reduced? Work on the steel as soon as it’s in-house. Start with the manufacturing end of the job. The management end is a whole other ball game.”

Step Two – Documentation
Steven practices a simple philosophy when it comes to documentation: “Say what you do, do what you say and document it. It makes a lot of sense if everybody understands what’s going on and anyone can pick up the ball at any time and just follow a machine. If someone gets the steel off of the shelf and knows that it has to be squared or drilled, write this information down so that anyone in the shop knows where it is going next. Then there is more control over what is going on; and if a machine is open it can be utilized faster.”

Step Three – Upgrade Your Equipment
Steven recommends looking at high-performance drills. “There are thousands out now,” he states. “They are an investment just like any machine and they give you two to three thousand holes at one-tenth the time that it takes you to do a normal drill hole. This is how cycle time gets reduced a little bit at a time. If you can reduce your drilling time from a half-hour to five minutes, how long does it take to pay for the high-performance drill? Not very long. Think about your long-term investment and results.”

Step Four – Roughing/Contouring
Once prep time is reduced, setup time for contouring also must be decreased, Steven notes. “This can be done by using a magnet, a fixture system, dowel pins or a combination of all three,” he says. “The goal is to be more efficient because we don’t have the manpower to do everything.

“It’s important that everyone works together,” Steven continues. “The steel is ready to be roughed, so someone has to put the steel on the machine. At that point, he goes to his CAM software and produces his roughing program. It’s good to work with software that you can program ahead while you are setting up the machine. It must process fast and have a basic format so that all operators will feel comfortable on it.”

Steven summarizes the process while recommending the buddy system: “Let’s say there are two of us. When the steel comes in the door, you grab it and put it on the machine that drills the holes. While you are doing that, I get the IGES file and produce the roughing paths. So you’ve drilled it with the high-performance drills and I have the roughing program. Now you go ahead and take that piece of steel and put it on the machine for contouring.

At that time, I get ready and grab another piece of steel that has to be drilled. The part that’s being contoured is roughing and I either have another piece of steel ready to go onto another machine – or that machine – and you go ahead and start programming the next toolpath for the next piece of steel. Now the work is flowing nicely between the two of us.

“We don’t have a programming department that doesn’t understand what tools we have or how we secure the steel, so we’ve eliminated a big communication gap,” Steven continues. “I feel if we bring the programming down to the floor in a controlled manner, we will be successful – but everything must already be planned: What types of tools do we use in our roughing? What are the parameters behind that tool? Everyone in the group needs to be on the same page so there’s no guesswork.”

Step Five – Semi-Finish and Finish Passes
According to Steven, since roughing is 25 to 30 percent of the mold build process, it’s time to either get additional machines roughing or start to produce the semi-finish and finish passes while the steel is roughing.

“When we quote a job, there might be five hours for programming, 10 hours for machining, then 10 to 15 hours for bench time (polishing and assembly),” he states. “What we’ve done is take our 10 hours of machining time and included our programming time. We’ve already cut off a third of our overhead. So while it’s machining, the operator is producing the semi-finish and finish passes. Then while it’s running, he can get the tools prepared and set in their holders, and make sure he has all of the tools – the whole nine yards.

“At that point the moldmaker needs to decide if it’s better to use a higher quality carbide tool,” he states. “For example, if the machine capabilities for finishing are 110 inches per minute, that’s all he has. So, will he want to use a tool that will go 50 or 60 inches a minute or one that will actually utilize what the machine is capable of? In other words, does it make more sense to stop and change tools on a cheaper carbide tool or to spend a little more money on a better tool that will last longer?

“My ball nose endmills cost me $160, but at 10,000 rpm I’m able to go 180 inches a minute,” Steven continues. “My competitor is going 40 inches a minute with a cheaper tool. What takes him four hours takes me one hour. So, when you buy a higher quality tool, it’s not the price of the tool, but what you are actually saving with that tool. Also remember that this tool will cut better and give you the benefit of reduced bench time. Instead of buying four machines next week because you have all of this work to do, what if you can make each machine four times more efficient?

We are increasing our capacity fourfold by using something we can throw away, and not having to increase manpower. So maybe it’s not necessary for us to buy that machine or buy a new building until we are ready.”
These little tricks will allow moldmakers to get more money, Steven emphasizes, which will give them the ability to expand and/or buy more equipment when the time is right for them.

Man With a Plan
Steven has had nothing but success employing his techniques. “I’ve reduced my cycle time, increased my profit margin and increased my capacity,” he asserts. “At what point doesn’t this sound good? If I produced everything 50 percent faster, but quadrupled my tooling costs, in the end, when all of the numbers came out in the wash, my profit margin was the same, have I done badly? No, because I have six months of the year left. I’ve produced in six months what I normally would over a year and I have still been able to keep the same profit margin. That leaves me six more months to either make profit or to get more customers.”

Steven plans on sharing the wealth through website, firstratemold.com which will teach the everyday moldmaker how to achieve similar success. “I love to teach and that’s what the website is all about,” Steven explains. “People can log on and there will be a machining process demonstration – like roughing or finishing – and they will actually be able to see what is going on and get an understanding of how it’s done. People need to understand why this works, so they can do it themselves and explain it to other people.

“First, I will describe how the part will be machined,” Steven continues. “Then, I will explain how the machines were programmed. The third part will be the machining portion and the final part will cover what it cost, time saved and how it can be justified.”

Everything will be prerecorded and put on the web digitally so it can be seen throughout the month. Then, people can respond via e-mail with questions and tell Steven what they’d like to see next. “The next demonstration will pop up based on those e-mails,” he says. “Whatever anyone is having a problem with, I will formulate a demonstration that shows how that problem can be solved – with the help of friends from around the world, of course.”

About First-rate Mold Solution Co. Ltd.
First-rate Mold Solution Co., Ltd. is based in China and engaged in supply of industry design,mold design,mold manufacturing,molding analysis,project management service,Our team has rich experience in the mold industry, We have first-class engineers in the fields of mold design, injection molding, metal stamping, metal die-casting, hot press molding and etc, we are enthusiastic to our industry and sufficiently inquisitive to learn,eternal adherents of leading-edge technologies in industrial design and manufacturing, such as the Mold technology in the United States, Germany mold technology, the mould technology in the United Kingdom, France mould technology,Italy mold technology, Japan mold technology and so on.

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