Thermoforming provides an economical alternative to metal, fiberglass, or wood components and delivers key advantages like weight reduction, rapid prototyping, low tooling costs, fast production turnaround time.
Because of the nature of the thermoforming process, combined with the availability of many material options, custom molded plastics offer numerous benefits to the end-user, including; durability, UV resistance, chemical resistance, flammability, toxicity, impact strength, high heat or cold temperature performance to name a few. Raw materials are selected based upon your requirement's and specifications
But what are the specific types of jobs that are ideal candidates for thermoforming?
We suggest the following three scenarios, often in combination, are the ideal times to consider thermoforming:
- The final part is from six inches square up to 6' x 10'.
- The production volume is low with runs of 10's to 1,000's of parts.
- The time to production is short.
Custom Thermoformed parts
Quite simply, a thermoformed plastic part weighs less than an equivalent stamped metal part. This difference alone impacts all part handling operations, the ease of final part assembly, and the end product.
Thermoforming also improves the look and feel of a large part compared to a metal stamped part. Plastics are molded into complex shapes in various colors and often deliver a more sleek and designed appearance than metal.
Custom molded parts often require a level of impact strength to meet safety and operational requirements. With an extensive range of resins available for thermoforming, plastic parts often exceed the strength of stamped metal parts.
Typically, thermoforming is a more repeatable process for custom components than metal stamping, so part consistency and quality are improved.
Thermoformed parts are easily built up as sub-assemblies and pre-assemblies, significantly reducing OEM production time and costs. Combining multiple elements into one, thermoforming reduces overall project cost, simplifies inventory management, and lowers installation time.
Components like bumpers, door panels, barriers, bins, exterior covers, housings, and trays are ideal candidates for conversion to thermoforming.
Low production volume thermoformed parts
An experienced thermoforming design team can turn around initial prototypes in a few weeks compared to months for injection molding and metal stamping suppliers.
Rapid tooling modifications and updates allow OEM manufacturers and assembly companies to get their new products to market faster and make ongoing updates and modifications without affecting just-in-time manufacturing requirements.
Because of thermoforming's underlying processes, tooling costs are low compared to other plastic molding processes and metal stamping. In most cases, only one-half of the mold is needed and not a male/female toolset, significantly reducing costs, design time, and increasing design flexibility.
Typical thermoforming tools cost $10,000 - $50,000, compared to $150,000+ for other molding and stamping methods. If an OEM's production volumes are 10's, 100's, or even 1,000's per month, this tooling cost differential is a key factor in choosing thermoforming.
The economics of the thermoforming process from a manufacturing point of view also helps make low production volume runs economically feasible.
Thermoforming production lines are easy to set up and maintain compared to other injection molding technologies and metal stamping. There is also less downtime.
Thermoforming is a robust and reliable technology with low cost to operate, meaning low volume production jobs are an ideal fit.
Short time to production
We can machine wood or composite materials to create tooling for the fast turnaround of prototypes.
We can make prototypes using various materials as well for testing and product review.
Thermoforming allows for simple but effective and accurate initial tooling to test designs and materials without spending tens of thousands of dollars on prototype tooling.
Wood tooling allows us to make approximately a dozen test parts—more than enough to do initial design feasibility tests.
Machinable composite tools are more robust, and can be used to mold up to a few thousand parts. Parts can then be used for pre-production prototypes for verification and testing of fit, form, and function.
The critical factor in making thermoforming prototype tooling is that they can be built in a few weeks or even in a few days in some cases. Tools are easily modified without having to start from scratch.
Quick turnaround for prototype and production tools significantly reduces the time from initial design to production.
About Plastic Components, Inc.
We are a thermoform plastics molder specializing in medium and heavy gauge large vacuum formed parts since 1972. We consolidate tooling, engineering, and manufacturing under one roof. We have forming capability up to 6' X 10' with fixture and CNC Trims.
We will deliver your thermoformed parts on time, to specification, and on your budget!