MAKROLON® MG (Machine Grade) polycarbonate engineering plate is an amorphous thermoplastic material made from MAKROLON polycarbonate sheet.
This "None Tougher" polycarbonate offers extremely high impact strength, high modulus of elasticity, outstanding dimensional stability and good mechanical and electrical properties. MAKROLON MG polycarbonate sheet has a 270°F (132°C) heat deflection temperature at 264 psi.
MAKROLON MG polycarbonate sheet is ideal for use in a wide range of applications where clarity and impact strength is essential. Typical applications for MAKROLON MG polycarbonate sheet include sight glasses, manifolds, insulators, diaphragms, and other machined parts. The product can be used in the medical, electrical, semiconductor, military/government, and other industrial markets.
A circular saw blade with carbide teeth utilizing the “triple chip” tooth design is the preferred method of cutting MAKROLON MG polycarbonate sheet. Table or overhead panel saws are normally used. Circular saws should be run in the speed range of 6000-8000 ft./min. Blades for cutting 3/32˝ and thicker material should have 3-5 teeth per inch. The hook or rake angle should be 10°–15°.
Standard high-speed twist drills should be used when drilling MAKROLON MG polycarbonate sheet. To achieve the best possible hole, surface speeds of 200 to 300 in./min. for drills less than 1/4˝ to 1/2˝ in diameter should be used when material is machined dry. A cooling medium* should be used with speeds of 500 to 700 in./min. for drills under 1/4˝ diameter, and 1500 to 1600 in./min. for drills 1/4˝ to 1/2˝ in diameter. A feed rate of 0.001 to 0.0015 per revolution is also recommended.
Milling can be used for either roughing or achieving extremely high-quality surface finishes. Best results can be obtained when using a high-speed steel end drill of the four-flute type with a 15°-rake angle. You may consider using lubricants* such as light machine oil* when routing.
Using conventional metal turning lathes with variable speed control, MAKROLON MG polycarbonate sheet can be cut without coolant at turning speeds of 1500 to 2500 in./min. If cutting at higher speeds, water is preferred as a coolant. Good results can be obtained when using a round-tip cutter, a high turning speed, a shallow cut and a low cross-feed rate. Radii of 15 to 30 mils are suggested for round tip cutters.
MAKROLON MG polycarbonate sheet is machine grade, not optically clear. It can be polished using one of the following methods, mechanically or vapor polished. This will help improve optical clarity. Please follow all EPA, local, state, and governmental guidelines when using any chemical-type polishing method.
*Sheffield Plastics recommends checking with your supplier of cutting oils, coolants, and other products used during machining as to the best product to use when machining MAKROLON MG polycarbonate sheet or any other polycarbonate plate.
The following are suggested guidelines or concerns regarding machining/working with MAKROLON MG polycarbonate sheet or any other engineering plastics.
- Thermal expansion is up to 10 times greater with plastics than metals.
- Plastics will lose heat more slowly than metals.
- Avoid localized overheating.
- Softening/melting temperatures of plastics are much lower than metals.
- Coolants are generally not required for most machining operations (not including drilling).
- Optimum surface finishes and close tolerances may be achieved using non-aromatic, water-soluble coolants. We suggest spray mists and pressurized air as effective means of cooling the material during cutting, drilling, and turning.
- General purpose petroleum-based cutting fluids, although suitable for many metals and plastics, may contribute to stress cracking of amorphous plastics such as MAKROLON MG polycarbonate sheet.
Typical Physical Properties
|Specific Gravity||ASTM D792||-||1.2|
|Rockwell Hardness||ASTM D785||-||M70/R118|
|Water Absorption, Equilibrium, 24 hrs||ASTM D570||%||0.15|
|Tensile Strength, Yield||ASTM D638||psi||9000|
|Tensile Strength, Ultimate||ASTM D638||psi||9,500|
|Tensile Modulus||ASTM D638||psi||345000|
|Flexural Strength||ASTM D790||psi||13,500|
|Flexural Modulus||ASTM D790||psi||345000|
|Compressive Strength||ASTM D695||psi||12,500|
|Compressive Modulus||ASTM D695||psi||345000|
|Shear Strength, @ Yield||ASTM D732||psi||6000|
|Shear Strength, Ultimate||ASTM D732||psi||10000|
|Shear Modulus||ASTM D732||psi||114000|
|Coefficient of Thermal Expansion||ASTM D696||In/in/F||3.75 x 10-5|
|Coefficient of Thermal Conductivity||ASTM C177||Btu-in/hr-ft2-F||1.35|
|Heat Deflection Temperature, @ 264 psi||ASTM D648||F||270|
|Heat Deflection Temperature, @ 66 psi||ASTM D648||F||280|
|Dieletric Constant, @ 10 Hz||ASTM D150||-||2.96|
|Dieletric Constant, @ 60 Hz||ASTM D150||-||3.17|
|Volume Resistivity||ASTM D257||Ohm-cm||8.2 x 1015|
|Dissipation Factor, @ 60 Hz||ASTM D150||-||0.0009|
|Dissipation Factor, @ 1 Hz||ASTM D150||-||0.01|
|Arc Resistance||ASTM D495||Seconds|
|S. Steel Strip Electrode||10-11|
|Dielectric Strength, in air, 125 mils||ASTM D149||V/mil||380|
|UL 94 @ > or = .375˝||UL 94||-||V0|
Sheffield Plastics Inc. will not be responsible for the use of this information relative to actual application. Users must make their own determination of its suitability for their specific application. No warranty is made for the fitness of any product, and nothing herein waives any of the seller’s conditions of sale.