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POLYCARBONATE MANIFOLDS

Highly Versatile, Rigid, & Strong

POLYCARBONATE MANIFOLDS AT A GLANCE

Polycarbonate manifolds are quickly replacingĀ acrylicĀ as a baseline material. Polycarbonate readily bonds and welds, supports higher operating temperatures, and has better chemical resistance than acrylic.

  • 10-20% more costly than acrylic
  • Highly impact resistant
  • High clarity
  • Continuous service temperature to 225Ā°F
  • Better chemical resistance; good for alcohols
  • Available as a USP Class VI material
  • Gray or purple tint typical
  • Scratches easily

Polycarbonate has many possible configurations as aĀ multi-layer laminated manifoldĀ with .020 or smaller channels (depending on the application). From a design standpoint, many discourage using square channels within manifolds here. Polycarbonate manifolds should have either D-shaped or full round channels for optimal flow. Channel spacing as close as 1x nearest feature size is possible. What's more, we can place flat bottom Ā½-28 ports or similar can on the bond line with surface finishes for valve mounting can hold as low as 20 Āµin.

When bonded, engineers can expect a very clear polycarbonate manifold (with a light gray or purplish tint, if using tinted stock). For frequent assembly and disassembly of pumps or valves, consider heat-staked threaded inserts overĀ direct machined threadsĀ orĀ helicoils. This is becuase polycarbonate is stress sensitive to long-term loading in stress risers. The pullout strength and low stress on other adjoining components make inserts a best-practice choice for polycarbonate manifold design.

Easy To Work With

This thermoplastic is easy to machine, polish, weld, and bond.

Elastic But Strong

Polycarbonate manifolds offer highĀ modules of elasticityĀ without compromising their strength or structure.

Electrical Capabilities

Excellent electrical properties and low moisture absorption extend its viability intoĀ electronic applications.

Diverse Use Cases

Many industries use PC regularly, including medical, diagnostics, and research.

High Impact Resistance

This plastic can take a punch and keep going. We can reinforce PC with glass for extra rigidity and strength.

High Clarity

With a slight blue or purple tint, we can polish PC to have a transparent finish.

TENSILE STRENGTH AT YIELD

8900 psi

TENSILE MODULUS

340,000 psi

FLEXURAL STRENGTH

13,500

FLEXURAL MODULUS

340,000

TENSILE STRENGTH AT YIELD

8900 psi

HEAT DEFLECTION TEMPERATURE

270Ā°F at 264 psi

FLAMMABILITY

V0 & 94HB

BIOCOMPATIBLE

USP Class 6 available

CONTINUOUS SERVICE TEMPERATURE

Up to 250Ā°F

CLARITY GRADE

Available inĀ clear window grade (Grade 3)Ā 

Polycarbonate has the capacity to transmit 88% of light, making it ideal for windows and other products. Light transmittal, along with its superior impact resistance and toughness, makes polycarbonate an excellent choice for sight glasses, other optical uses, and housing parts. It is highly utilized in aircraft, fluid handling, electronic manufacturing, and the automotive industries.

AT A GLANCE

  • 10-20% more costly than acrylic
  • Highly impact resistant
  • High clarity
  • Continuous service temperature to 225Ā°F
  • Better chemical resistance; good for alcohols
  • Available as a USP Class VI material
  • Gray or purple tint typical
  • Scratches easily

Polycarbonate has many possible configurations as aĀ multi-layer laminated manifoldĀ with .020 or smaller channels (depending on the application). From a design standpoint, many discourage using square channels within manifolds here. Polycarbonate manifolds should have either D-shaped or full round channels for optimal flow. Channel spacing as close as 1x nearest feature size is possible. What's more, we can place flat bottom Ā½-28 ports or similar can on the bond line with surface finishes for valve mounting can hold as low as 20 Āµin.

When bonded, engineers can expect a very clear polycarbonate manifold (with a light gray or purplish tint, if using tinted stock). For frequent assembly and disassembly of pumps or valves, consider heat-staked threaded inserts overĀ direct machined threadsĀ orĀ helicoils. This is becuase polycarbonate is stress sensitive to long-term loading in stress risers. The pullout strength and low stress on other adjoining components make inserts a best-practice choice for polycarbonate manifold design.

CAPABILITIES

Easy To Work With

This thermoplastic is easy to machine, polish, weld, and bond.

Elastic But Strong

Polycarbonate manifolds offer highĀ modules of elasticityĀ without compromising their strength or structure.

Electrical Capabilities

Excellent electrical properties and low moisture absorption extend its viability intoĀ electronic applications.

Diverse Use Cases

Many industries use PC regularly, including medical, diagnostics, and research.

High Impact Resistance

This plastic can take a punch and keep going. We can reinforce PC with glass for extra rigidity and strength.

High Clarity

With a slight blue or purple tint, we can polish PC to have a transparent finish.

GENERAL CHARACTERISTICS

TENSILE STRENGTH AT YIELD

8900 psi

TENSILE MODULUS

340,000 psi

FLEXURAL STRENGTH

13,500

FLEXURAL MODULUS

340,000

TENSILE STRENGTH AT YIELD

8900 psi

HEAT DEFLECTION TEMPERATURE

270Ā°F at 264 psi

FLAMMABILITY

V0 & 94HB

BIOCOMPATIBLE

USP Class 6 available

CONTINUOUS SERVICE TEMPERATURE

Up to 250Ā°F

CLARITY GRADE

Available inĀ clear window grade (Grade 3)Ā 

POLYCARBONATE & LIGHT TRANSMISSION

Polycarbonate has the capacity to transmit 88% of light, making it ideal for windows and other products. Light transmittal, along with its superior impact resistance and toughness, makes polycarbonate an excellent choice for sight glasses, other optical uses, and housing parts. It is highly utilized in aircraft, fluid handling, electronic manufacturing, and the automotive industries.