When designing your plastic part, it’s crucial to consider what the part’s fit and function will be.
First and foremost, the function of the product will affect the fit and form of the plastic part in almost every case. So as you draw out your design, make sure you’re cognizant of its fundamental usage.
What special properties need to be included to make your plastic part stand out as more functional than potentially competing products?
These, among many other product-specific questions, should be answered before you worry about the style of your custom plastic product.
Answering these questions provides you with a better understanding of what type of resin should be used to manufacture your part.
Now that you understand exactly what your part needs to do, you’ll need to figure out what it will look like, how it will feel, and how it will interact with other elements within the product’s environment.The goal is to strive for optimal performance.
In this context, “Fit” refers to how a plastic part mates to another part or occupies a specified amount of cubic inches within a box or on a shelf. *
For Example:
The thickness of the part’s walls should stay consistent whenever possible.
Inconsistencies in the wall thickness can cause the plastic to warp. When the plastic cools, it cools from the outside inward which can cause the outside walls to be pulled inward (called sinks), internal stress, or internal voids.
Make sure the walls of the part aren’t exactly perpendicular
This wall feature is called a draft angle. It allows the part to come out of the mold smoothly. We recommend a draft angle of between 2 and 5 degrees.
Consider Rounded corners
Rounded corners allow material to flow through the part more efficiently. This also reduces stress on the material during the cooling process, in turn reducing its tendency to crack, bow, warp, or have fragile corners.
Make note of parting lines
A parting line is a line where the two halves of the mold meet. This can create a thin blemish around the part depending on how it was designed. If you need a sharp edge on your part, you can reduce blemishes incorporating that edge in the parting line.
Consider hole depth to diameter ratio
Most plastics companies recommend the hole depth-to-diameter ratio to stay under two. There are two types of holes:– Through Holes– Blind Holes
Unlike through holes, blind holes don’t protrude through the plastic part. The pins that are used to make these blind holes shouldn’t be too long, because the heat and pressure can potentially warp the insertion area.
Eliminate undercuts if possible
To save money, it would be wise to avoid using undercuts. Undercuts will almost always result in a more expensive part, due to a more complex mold design and typically more process time is needed to create them.
An undercut is any protrusion or indentation that houses any non-standard mating part of the plastic. (For example: A T-shaped connector)
Consider utilizing ribbed features
If you want to strengthen the molded part without adding additional wall thickness, ribbing is a great way to accomplish this. Taller ribs can lead to issues like warping and bending. But if your piece has subtle and simple ribbing, it should serve the function well.
It’s all about the cubic inches.
Let’s say you own an ice cream company, and you’re hoping to modernize the ice cream container so that it increases user-friendliness and fits perfectly in the frozen section at Walmart.
You’ll need to design for a specific amount of shelf space.
It’s important to know that this shelf space allotted varies for each product type. For example, Walmart won’t accept a 10-gallon ice cream tub.
Your contact for any of these big box retailers will be able to provide you with the exact amount of cubic inches your product can occupy. Be careful, because if you don’t abide, they don’t have to stock your product.
Design Hint: You’ll need to understand the Supplier Standards, obtain a Universal Product Code (UPC), and you must carry Product Liability Insurance to sell your product in big box stores.
Also, you’ll need to notify your plastic part manufacturer that the retail market is your end goal!
Plastic injection molding is a cornerstone of our manufacturing capabilities. This process involves injecting molten plastic material into a multi-piece mold cavity. Once the plastic cools and solidifies within the mold, it is removed, resulting in the production of the desired plastic component. Injection molding services offer several advantages, including high production speed, accuracy, and versatility in design.
The blow molding process involves inflating a hollow plastic parison (a plastic tube) into a mold cavity, where it takes on the shape of the mold. Once the plastic cools and solidifies within the mold, it is removed, resulting in the production of various hollow plastic products such as bottles and containers. Our blow molding service, subject to availability, offers excellent cost-efficiency for producing hollow, lightweight plastic items in large volumes.
Our precision molding services take the principles of injection molding to the next level. Precision molding is characterized by even tighter tolerances and greater attention to detail. It's ideal for applications in which the utmost precision and consistency are required.
Plastic extrusion is a process in which the plastic material is forced through a die to create continuous profiles with consistent cross-sections. This method is often used for producing items like tubing, pipes, and certain types of seals and gaskets. Start a new Plastic Extrusion quote.
When intricate or specialized plastic components are needed, our plastic machining services are sought after. This process involves the removal of material from a plastic workpiece using various cutting tools. Plastic machining allows for the creation of complex shapes and precise dimensions.
We understand the importance of prototyping in the product development cycle. Our plastic prototyping services allow clients to test and evaluate designs before committing to full-scale production. Iterative processes such as 3D printing and our urethane casting services help identify potential design issues early on and ensure that the final product meets all requirements in the most efficient way possible.
Our experienced team collaborates closely with clients to optimize designs for manufacturability, cost-effectiveness, and performance. This early-stage consultation ensures that the custom plastic parts meet their intended purpose while minimizing production challenges.
In addition to manufacturability feedback, we help clients select the proper manufacturing process, materials, and tooling strategies. Once the manufacturing process is finalized and the custom mold is designed and produced, we run and ship T1 samples. Manufacturing starts when the client gives the go-ahead after assessing the functionality and quality of the sample pieces. Final components are then produced and inspected throughout the process to ensure quality control and delivered according to the established or required delivery schedule. Our prototype molding services are a great starting place to test the market before scaling up to higher production volume tooling, which Xometry can assist you with.