Machined Plastics
Plastics
Machined Plastic Parts Materials ABS Plastics & MachiningAcetal & 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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LEARN THE BEST PRACTICES TO CREATE THE BEST LABWARE

Free White Paper for Labware Designers & Engineers

OEMs and product developers in diagnostics, research, and environmental labs will find actionable best practices in our new white paper on designing high-performance plastic labware. Our team’s specialized expertise in bonding and precision-machining of plastic components ensures your designs meet today’s demands for miniaturization, sterility, automation compatibility, and regulatory compliance. Download now for proven material selection and manufacturability strategies to elevate your next-generation labware.

 

plastic labware design white paper cover containing a clear plastic tube, a clear purple plastic manifold, and a diagnostic device in green circles on a blue and white background

WHAT YOU'LL GET FROM THIS WHITE PAPER

 

Design for next‑gen labware: OEMs and product designers in diagnostics, research, and environmental labs face growing demand for miniaturized, high‑throughput devices that remain sterile and compliant. The white paper outlines best practices using high‑performance polymers and precision machining to meet these stringent requirements

Optimize material choices: Smart polymer selection cuts cost and risk. The white paper guides on choosing plastics (e.g. COC/COP, PEEK, polycarbonate) that balance chemical resistance, clarity, and manufacturability. Leveraging Controlled Fluidics’ precision‑machining and bonding expertise, these materials deliver the durability and performance demanding labware requires

Manufacturing & assembly focus: Manufacturing excellence ensures success. We combine precision CNC milling and a proprietary diffusion‑bonding process to create leak‑tight, multi-layer labware optimized for automated systems. Our team highlights assembly best practices (avoiding stress‑cracking and bond defects) so complex devices prototype smoothly and scale reliably