Commercial OEM Thermoforming

Thermoformed Plastic Products

LINDAR is a leader among thermoforming companies, using thermoforming to make plastic components, parts, and containers of all shapes and sizes. Thermoforming is a process that applies heat, pressure, and/or vacuum to form both thin and heavy gauge plastics to customized molds. LINDAR’s custom thermoforming processes provide a high-quality, flexible solution to all your plastic needs.

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Thin Gauge Thermoforming

Thin gauge thermoforming is a precise manufacturing process utilized by LINDAR for producing lightweight, high-quality plastic products. This method of thermoforming is ideal for parts ranging from 0.0008 to 0.080 inches in thickness, such as packaging and disposable products. Thin gauge thermoforming offers cost-effectiveness, versatility in design, and the ability to produce large volumes rapidly. Many thermoformed materials are recyclable, aligning with the increasing emphasis on sustainability and environmental considerations.
Common thin gauge materials include but are not limited to:
  • PET
  • Post Consumer PET
  • PLA
  • PS
  • PE
Thin Gauge Thermoforming
Heavy Gauge Thermoforming

Heavy Gauge Thermoforming

Heavy gauge thermoforming is a specialized process LINDAR uses similar to thin gauge thermoforming but involves thicker thermoplastic sheets, typically ranging from 0.060 inches (2.032 mm) and above. Heavy gauge thermoforming provides customers with a cost-effective and versatile solution for producing large, durable, and intricately designed products. Its value lies in its ability to create sturdy components with reduced tooling costs and a shorter production cycle compared to alternative manufacturing processes.

Common heavy gauge materials include but are not limited to:
  • ABS
  • PE
  • TPO
  • TPU
  • KYDEX
  • HIPS
  • PETG
  • PC

Thermoformed Products

Discover a custom solution to your manufacturing needs with LINDAR’s thermoforming expertise. LINDAR prides itself on the ability to create versatile and custom solutions across a broad range of industries, creating products from FDA-approved containers for the food industry to medical-grade plastic products and durable parts for agricultural machinery. LINDAR’s team of thermoforming manufacturers is equipped to handle projects of any scale, offering tailored solutions that meet the needs of each client. Whether it’s a small batch of specialized parts or large-scale production runs, LINDAR’s comprehensive capabilities ensure high-quality, precision-thermoformed products that meet the most rigid industry standards.

Thermoformed Agricultural Equipment Parts Include:

Cab Roof Tops

Cab Doors

Hood Assemblies

Fenders

Dash Panels

Fuel Tank Covers

Thermoformed Agricultural Equipment Parts

You need your agricultural equipment to be tough from the inside out. LINDAR knows that strong equipment starts with quality components made from the highest quality plastics. When you trust the experienced LINDAR team to create your OEM plastic components, you can trust that your agricultural equipment parts will weather even the harshest working conditions and effortlessly stand the test of time.
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Red tractor out in field

Thermoformed Medical Components

LINDAR is an ISO-certified facility experienced in medical plastics manufacturing. We proudly thermoform and assemble medical-grade equipment components including doors, covers, and surrounds, and custom thermoformed medical packaging. Our custom OEM medical components are as aesthetically pleasing as they are rigorously tested for safety and quality. You can rest assured knowing that LINDAR uses only top-of-the-line medical grade materials that are fire-rated and stain- and chemical- resistant.
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Medical Waste Bin
CT scanning machine in medical room
Thermoformed Medical Components include:

Waste Bin Liners

Coil Pack Trays & Lids

Sink Basins

Doors (Interior & Exterior)

Base Panels

Side Panels

Thermoformed Recreational Vehicle Parts Include:

Door Panels

Windshields

Trunks

Fenders

Quarter Panels

Dash Panels

Thermoformed Offroad and Recreational Vehicle Parts

To ensure your recreational vehicle can play hard, the LINDAR team works even harder. LINDAR’s extensive experience designing and custom thermoforming recreational vehicle components has earned us the trust of many industry leaders. Our top-quality custom OEM industrial equipment components are aesthetic, durable, and tough enough to withstand even the most extreme weather conditions. With fade-resistant UV-protected materials made to your exact color and finish specifications, you can expect nothing but the best from LINDAR.
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Thermoformed Lawn and Garden Equipment Parts:

Your lawn and garden equipment needs sturdy, reliable plastic components that stand up to the rigors of outdoor work. With our years of experience as a custom OEM plastic products manufacturer, LINDAR is the solution you’ve been looking for. We use state-of-the-art custom thermoforming technology and UV-protected, high-impact rated materials to keep your residential and commercial lawn and garden equipment looking and performing its best.
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Small red riding lawn mower
Thermoformed Lawn and Garden Equipment Parts Include:

Cab Roof Tops

Cab Doors

Hood Assemblies

Fenders

Dash Panels

Fuel Tank Covers

Thermoformed Construction and Industrial Equipment Parts Include:

Cab Roof Tops

Cab Doors

Hood Assemblies

Fenders

Fuel Tank Covers

Wiper Motor Shields

Thermoformed Construction and Industrial Equipment Parts

When it comes to developing construction and industrial equipment parts, durability is key. Using high-impact plastics that are resistant to heat, vibration, scratching, and marring, LINDAR’s thermoformed construction and industrial equipment components can hold up under even the toughest jobsite conditions. Our materials are UV guarded and insulated for sound and heat deflection for further protection of both your equipment and your operators.
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Frequently Asked Questions

Have questions about the thermoforming process and its competitive advantages? As thermoforming experts, we’ve got the answers you’re looking for. Don’t see your question below? Reach out to the LINDAR team and we’ll get back to you with the information you need!

What is thermoforming?

By definition, it’s the process of heating a thermoplastic material and shaping it in a mold. Since the 1930s, thermoforming companies have been using the process to make plastic components, parts, and containers of all types and sizes. Using heat, pressure, and/or vacuum to form plastic around customized molds, this highly effective plastic molding manufacturing process is used to make everything from food containers and paint trays to custom heavy gauge parts and assemblies for equipment and machinery.

Why thermoforming?

Scale: Thermoforming is an ideal manufacturing process for medium to large run sizes of various products, especially large parts of up to 96’’ x 144’’ x 40’’. The process can also combine various parts into one assembled component. The finished product comes color-matched with many material options.

Cost: Thermoforming is a cost-effective means of producing larger parts compared to other manufacturing processes; as part size increases, thermoforming costs are less than injection molding costs. Producing a single-sided thermoforming tool is less expensive than a double-sided injection mold.

Efficiency: Thermoforming is a significantly less time-consuming process than injection molding. On average, injection molding takes 12-16 weeks for production tooling. Choosing thermoforming for the same project can cut that time in half, as thermoforming averages a production tooling time of just 6-8 weeks. This makes thermoforming ideal for projects requiring a quick turnaround.

What are the benefits of plastic thermoforming?

There are many benefits of plastic thermoforming including cost effectiveness, design flexibility, material efficiency, fast production timelines, and product durability. 

  • Cost-Effectiveness: Plastic thermoforming typically involves lower tooling costs compared to other plastic molding processes like injection molding, making it ideal for small to medium production runs.
  • Design Flexibility: The thermoforming process allows for the creation of complex shapes and designs that can be customized to specific requirements, including varying wall thicknesses, textures, and finishes.
  • Material Efficiency: Thermoforming uses a wide range of thermoplastics, optimizing material use based on application needs, resulting in less waste and more efficient production.
  • Speed and Efficiency: The quick production cycle of plastic thermoforming speeds up the manufacturing process, benefiting industries needing fast turnaround times.

Durability and Strength: Depending on the material, thermoformed products can offer excellent durability and strength, suitable for both lightweight and heavy-duty applications.

What are common types of thermoformable materials?

Common thermoformable materials include:

  • Acrylonitrile Butadiene Styrene (ABS): Known for its toughness and impact resistance.
  • Polyvinyl Chloride (PVC): Available in both flexible and rigid forms, used in packaging and construction.
  • Polycarbonate (PC): Renowned for its strength and transparency, often used in eyewear and electronics.
  • High Impact Polystyrene (HIPS): Used in food packaging and display trays.
  • Polyethylene Terephthalate (PET): Commonly found in beverage bottles and food containers.
  • Polymethyl Methacrylate (PMMA): Also known as acrylic, used for clarity in displays and signage.

These thermoformable materials are popular in packaging, automotive, medical, consumer goods, and construction industries due to their versatility and ease of processing.

How does a thermoforming machine work?

A thermoforming machine shapes plastic sheets into desired forms using heat, molds, and pressure or vacuum. Here are the key steps involved:

  1. Heating: A thermoplastic sheet is loaded into the thermoforming machine and heated until pliable using infrared heaters or other elements, ensuring uniform temperature.
  2. Forming: The heated sheet is positioned in the forming station and shaped over or into a mold using vacuum, pressure, or mechanical force.
  3. Cooling and Setting: The formed plastic is cooled in the mold to solidify it, then removed manually or automatically.
  4. Trimming and Finishing: Excess material is trimmed, and additional steps like drilling, painting, or labeling may be applied.
  5. Quality Control: The final product undergoes quality checks to ensure it meets specifications and standards.
What are the benefits of thermoformed parts over metal parts?

Thermoformed plastic parts offer significant advantages over metal parts, including:

  1. Weight Reduction: Thermoformed plastic parts are generally lighter than metal, ideal for automotive and aerospace industries.
  2. Cost Efficiency: Plastic materials  are typically less expensive than metals and molds are quicker to produce, which result in significant cost savings.
  3. Design Flexibility: Thermoforming allows for the creation of complex designs that can  be easily modified and customized, making them ideal for prototyping and short-run production.
  4. Corrosion Resistance: Unlike metals, many plastics are naturally resistant to corrosion and do not require additional coatings or treatments to protect against rust or oxidation.
  5. Insulation: Thermoformed plastics  provide better thermal and electrical insulation properties.
  6. Simplified Manufacturing: The thermoforming process integrates multiple features, reducing assembly needs and labor costs.
  7. Aesthetic Options: Thermoformed parts coe in a wide range of colors, textures, and finishes  without the need for additional painting or surface treatments.  Some thermoformed plastics are naturally transparent which make them ideal for products like display cases, lenses, or protective covers.
  8. Durability: Certain thermoformed plastics are  impact resistant and can absorb and dissipate energy, resulting in a highly durable product.
  9. Noise Reduction: Thermoformed plastic parts help reduce noise and vibration.
  10. Sustainability: Many plastics are recyclable and have a lower environmental impact compared to metalworking.

These benefits make thermoformed plastic parts an attractive alternative to metal parts in various applications, offering advantages in terms of cost, weight, design flexibility, and more.

What are the types of thermoforming machines?

Thermoforming machines can be categorized based on their forming methods and production scale:

  1. Vacuum Forming Machines: Primarily used for simpler vacuum forming processes.
  2. Pressure Forming Machines: Utilized for more detailed and complex shapes using both vacuum and pressure.
  3. Twin-Sheet Thermoforming Machines: Form two plastic sheets simultaneously, which are then joined to create hollow parts.
  4. Roll-Fed Thermoforming Machines: Designed for high-speed production using rolls of plastic material, ideal for large-scale production.

Each type of thermoforming machine is tailored to specific materials, designs, and production volumes, making the choice of machine crucial in the manufacturing process.