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Machined Plastics
Plastics
Machined Plastic Parts Materials ABS Plastic for Machined Parts & Prototypes Acetal & Delrin MachiningAcrylic Plastic Materials & MachiningCOC/COP Plastic Materials & MachiningCPVC Plastic Material & MachiningCTFE/KEL-F Plastic Material & MachiningDelrin AF Plastic Material & Machining ECTFE/Halar Plastic Material & Machining Fluorosint® 500 and 207 Plastic Materials & MachiningHDPE Plastic Material & MachiningLDPE Plastic Material & MachiningNoryl® Plastic Material & MachiningNylatron GS: Self Lubricating Nylon for Precision MachiningNylon 6/6 Material & Machining PBT Plastic Material & MachiningPEEK Plastic Material & Machining PES (Radel A) Plastic Material & MachiningPlastic Machining With PETPhenolics/G10 Plastic Machining Polycarbonate Plastic & MachiningPolypropylene Plastic Material & MachiningPolysulfone Plastic Matetial & MachiningPPS Plastic Material & MachiningPVC Plastic & Machining PVDF Plastic Material & MachiningRadel® Plastic Material & MachiningRexolite® Plastic Material & Machining Tecadur Plastic Material & MachiningTeflon® Plastic Machining (PTFE) | Controlled FluidicsTorlon PlasticMaterial & MachiningUHMW Plastic Materials & MachiningUltem® (PEI) Plastic Material & MachiningVespel® Plastic MachiningPOLYMER OPTIONS
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DISCOVER THE RIGHT PROCESS FOR YOUR PLASTIC COMPONENT

Download our free infographic: 3D Printing vs. Multilayer Bonding vs. Single-Layer Machining


Choosing the right fabrication process can mean the difference between a component that works and one that fails in testing. This one-page visual guide breaks down how each method stacks up across key factors like:

  • Material compatibility and design flexibility
  • Tolerances and surface finish
  • Production speed and scalability
  • Common applications in medical, diagnostics, and OEM assemblies

Whether you’re designing complex microfluidic manifolds, bonded flow layers, or precision machined parts, this infographic helps you quickly compare which process fits your requirements for performance, cost, and lead time.

Get the free infographic now to make faster, more confident manufacturing decisions.

Infographic on 3D printing, multilayer, and single-layer machining, with technical images in the background and "Download Now!" button at the bottom.

MAKE BETTER BUILD VS BUY CALLS ON CUSTOM PLASTIC COMPONENTS

Sourcing plastic components across different processes can introduce hidden risk, cost, and complexity. This one-page infographic gives your team a clear, side‑by‑side view of  3D printing, multilayer bonding, and single‑layer machining so you can pressure‑test supplier quotes and  choose the right process for each part family.

See how each process compares on:

  • Piece price vs. tooling and NRE costs across volume ranges
  • Lead time, scalability, and capacity risk with different suppliers
  • Quality, tolerances, and rework risk for critical features
  • Typical use cases where each process drives the best total landed cost

Use this visual as a quick reference in design reviews, sourcing councils, and supplier negotiations to align engineering and purchasing around the same trade‑offs. 

Get the infographic now and equip your team to make faster, defensible sourcing decisions on plastic components.

 

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