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11 Questions To Ask Before Picking A Plastic Mold ...

Dec. 23, 2024

11 Questions To Ask Before Picking A Plastic Mold ...

When you're getting ready to begin the injection molding process, the first choice you make'and one of the most crucial decisions'is which plastic mold manufacturing partner you'll select. The partner you choose should, of course, deliver on all your mold requirements'but they should also prototype your part, help you with part design adjustments, warranty their work, and much more. And most importantly, the right partner will ensure you don't end up with a useless mold that doesn't produce quality parts'or, as we like to call a faulty mold'a boat anchor.

By asking potential plastic mold manufacturing partners these 11 questions, you'll all but eliminate any doubt that they will be a great partner for you.

11 Questions To Ask Your Plastic Mold Manufacturing Partner

1. Can you build a tool that will match my annual volume requirement?

Molds are most often constructed in one of three classes: Class 101, 102, or 103. Each class varies in the material it uses, how (or whether) it's hardened, the maintenance it requires, and the cycles it can tolerate before it requires adjustments. A class 101 mold, for example, is most often built from hardened stainless steel'but if you're only going to run 50,000 parts a year, a class 102 tool built from a different, less expensive material may be more appropriate for your part. A good plastic mold manufacturing partner will walk you through the benefits and considerations of each class of mold, and guide you to the class that is ideal for your situation.

2. Can we get a warranty on the tool?

Be advised: Many plastic mold manufacturing companies do not offer warranties unless you specifically request one. Even if they do, study the ins and outs of the warranty and precisely what it covers before signing on the dotted line.

At Micron, we typically warranty a class 101 tool, for example, for up to one million cycles without any cost to the customer. This means we'd cover any and all maintenance and/or expense on the mold up to that point. So if you have a 64-cavity tool from Micron, this warranty would last you through 64 million parts.

3. Do you do mold-making in house or are they made overseas?

Some plastic mold manufacturers simply broker a mold deal between your company and an overseas mold maker. There can be major differences between a tool created in China vs.the U.S.'check out this article for a full rundown.

4. Do you have the ability to rapid prototype or 3D print parts to reveal potential flaws in the design?

The creation of your tool is one of the most expensive parts of the injection molding process, so doing it wrong is not an option. You can make adjustments in the prototyping stage until the mold is correct'but otherwise, changes are expensive.

Here at Micron, once we have a tool order, we print a prototype of the part for free. Giving customers a chance to see alternate ideas, or flaws in the design, helps us both in making a better part.

5. Can you build a mold for the size part I need?

Not every molding manufacturer is equipped to mold extremely large or extremely small plastic parts. If you're building an injection molded car bumper, for example, some plastic mold manufacturers won't have the capability to mold something of that magnitude. If the company asserts that they can build an unusual-size injection mold, ask for examples of similar parts they've previously created .

6. What materials will the finished mold be able to handle?

If your plastic part will be molded using highly abrasive plastic material'or a type of plastic material that is injected at very high temperatures'you'll want to be certain the company you're considering can build a mold that will handle these requirements.

7. How do you achieve the right mold tolerances?

Specific mold tolerances may be critical for your plastic part, and understanding how the molder achieves and validates those tolerances is useful information to have. Additionally, if any part of your mold needs specialized measurements'say, an one-dimensional automotive part that needs to be extremely precise so there's no variation part-to-part'be sure to let them know ahead of time.

8. What is your process for high-cavitation molding?

If you need a high-cavity mold, find out how your potential mold manufacturing partner manages the mold building process. For example, to ensure that plastic evenly distributes in your high-cavitation mold, your partner should include a high-quality hot manifold (used to inject plastic into the mold) to assist with this distribution process.

9. Can you validate that the mold will work?

To validate what they build, your mold manufacturing partner will need to sample the tool to ensure it produces quality parts. If you're getting your mold separate from your injection molding manufacturer, be sure that the tool is sampled at the same cycle and cooling time you'll need when you move to production. For example, if your part requires a 30-second cycle time and the part needs to cool for 15 seconds, but the sample only includes a 2 second cooling stage, the sample parts won't be an accurate reproduction of what you'll get during production.

10. What specific molding capabilities can you accommodate?

If you need to fit a small metal bearing inside your plastic part, you likely need a vertical injection mold. If you're molding a computer mouse or a toothbrush with a hard plastic material and soft plastic grip, you'll need either two-shot or overmolding. Be certain your mold manufacturer can create a mold for the characteristics you require.

11. How quickly can you turn out a mold?

Everyone wants something fast, cheap, and high quality'but we typically tell our customers they can can have two out of three. For example, if you want a high-quality mold created fast, it'll cost you. And some mold manufacturers specialize in rapid tooling, but these molds are typically fast and cheap, not high quality. At any rate, be sure the mold manufacturing company you select can turn out a mold in the timeline you require. Here at Micron, if you need a tool built more quickly than usual, we can often partner with outside resources to save time. Or, if you need a mold built for less than our mold shop can create it for, we can partner with outside tool builders that will work under our quality and engineering guidelines.

You know what to ask a potential mold manufacturer'but what about your injection molding manufacturer?

In this ebook, you'll learn about 13 questions to ask an injection molding company before selecting them. Download it for free today!

5 Questions to Ask Before Instrumenting a Mold

Sensors and molds

Five questions to answer before you instrument a mold:

1. What do you want the sensor to do for you?

This is the most critical question to ask yourself before installing sensors in your mold. But most people stall right here because they're not sure what functions a sensor can perform. A lot of people just want to instrument a tool because they've heard they should run DECOUPLED MOLDING® processes, or they want to try out process control software. Others are curious about the ability to collect data, track a part to a molding cycle, resolve ongoing challenges, or create a template to maintain or transfer processes. Whatever the answer, this single question needs one before proceeding so you can make decisions to work toward your goal moving forward.

Qisheng Product Page

Once you answer that question, you can begin to explore the many different functions sensors can serve if used correctly. Some examples are: monitoring pressure at a specific area in the cavity, transferring the injection portion of the cycle to hold via pressure or temperature, detecting mold defection, sequencing valves gates, sorting, and the list goes on. Once you know what you want the sensor to achieve, you have some important decisions to make.

2. Where do you want to install the sensor?

Now to install it. Conventional installation techniques to consider include post gate, mid-cavity, and end of fill, but there are more less common locations in addition to these. You may need one or a combination of these techniques, depending on your particular project. In some cases, it's not necessary to sensor every cavity.

The Benefits of Each Sensor Location

Post gate sensors allow you to know the moment plastic enters the cavity and at what pressure. With this information, you can perform various studies, including pressure loss (from the nozzle to the gate), pack rate, and gate seal (pressure lost when the hold pressure is released). Also, post gate sensors are often the location of choice when transferring off cavity pressure. Still, other locations can work as well, depending on your machine and percentage of barrel usage.

Mid-cavity sensors can also aid in performing calculations like determining pressure lost through the cavity and cavity deflection. Also, they can help with timing the firing pattern of valve gates on larger parts, like car panels, where manifolds are being implemented. Used in this application, sensors can help with moving knit lines or reducing the flow length ratio. Mid-cavity sensors are also a good option for very small parts, as they can typically represent an average pressure in the cavity.

End-of-fill sensors can also be used in calculations but add an additional beneficial attribute: monitoring the pressure required to fill your part. Short shots have always been an issue in the injection molding industry. If used in conjunction with a post gate sensor, you can see the pressure lost through the cavity and observe the cooling behavior of the plastic, which is critical in semi-crystalline polymers.

Temperature sensors can be used to detect the time at which the flow front passes over a particular area in the cavity and the surface temperature of the plastic or steel. You can then use this telemetry to fire valve pins or adjust accordingly.

Knowing some of the different functions of instrumenting a tool will significantly aid in deciding what sensor type and location you'll need to achieve your goal.

3. What Type of Sensor Technology Do You Need?

Once you determine what you want to achieve and where you need to place your sensors, then the next step is to determine what type of sensor technology to use. There are several factors to take into consideration, including available real-estate in the tool and cost. The two pressure sensor options we offer are Strain Gage and Piezoelectric. Strain Gage sensors generally are more cost-effective, require less maintenance, and have less noise but require more space.

4. How Should You Install the Sensor?

The most common installation styles for pressure sensors are direct and in-direct. Direct is when the sensor comes in contact with the plastic, sometimes called flush mount. In-direct is when the sensor is mounted away from the area of interest, and the pressure is transferred to the sensor via transfer pin, static pin, or ejector sleeve.

After decades of sensor installs, customer feedback, and testing, we firmly believe that mounting the sensor in the clamping plate and utilizing a transfer pin to transfer the pressure is the most robust configuration. Some of the benefits include:

Mitigating the chances of damaging the sensor due to the tool's action or while it is serviced on the bench
Ease of accessibility
Minimizing heat exposer to the sensor
Improving the sensor's life by removing it from the movement and shock of the ejector plate

5. What Load Capacity Do You Need?

Next, we move towards determining the load capacity of the sensor. The load capacity is determined by the predicted force that will be exerted on the sensor. You can make this determination in several ways, the preferred method being a flow simulation with predictions of the pressure in your chosen area. If this is not available, you can resort to the material datasheet, which frequently gives a pressure or tonnage factor. This gives you the recommended pressure per square inch required within the cavity to mold that particular resin properly.

If the tool under consideration for sensoring is already built and simulations are not a luxury you have, you can perform a Short Shot Study. To do this, you fill the part gradually at your preferred linear speed or volumetric flow rate and observe the filling pattern. Determining Post Gate (PG) is fairly straight forward, however determining Mid-Cavity and End of Fill (EOF) can be a little trickier depending on the material, flow rate, and geometry. The key is to not make too many assumptions without supporting your decisions with actual data.

A Real-World Example

Let's imagine for a minute that you want a cavity pressure sensor for your tool. Let's run through each question to create an implementation plan.

1. What do you want the sensor to do for you? The goal is to ensure you hit a particular cavity pressure on each cycle, eliminate part variation, and sort out suspect parts.

2. Where do you want to install the sensor? Your parts are very small in size, so a mid-cavity sensor would be sufficient in representing the average cavity pressure.

3. What type of sensor technology do you need? Because there is limited real estate, you opt for the piezo option.

4. How should you install the sensor? You choose to go with a flush-mount installation because the simplicity and minimal hardware requirements offer a small footprint in your limited space.

5. What load capacity do you need? The plastic flow simulation software provided data showing where the plastic would flow and that the recommended sensor capacity in your mold is ppsi.

The Key Takeaway

Putting a sensor anywhere in a tool can give you some form of data, but it may not be value-added. The key is knowing upfront what you want the sensor to do for you.

For more Precision Stamping Moldinformation, please contact us. We will provide professional answers.

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