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PA-12

Process: HP-MJF - HP Multi Jet Fusion
PA12 is an engineering-grade thermoplastic which is optimized for HP Multi Jet Fusion 3D printing. PA12 parts are nylon-like parts that have exceptional strength and are chemical resistance to oils, greases , aliphatic hydrocarbons and alkalies. PA12 parts are strong and can be used for functional prototyping and final direct manufactured parts.

MECHANICAL PROPERTIES TEST METHOD METRIC IMPERIAL
Tensile Strength, Max Load - XY ASTM D638 48 MPa 6960 psi
Tensile Strength, Max Load - Z ASTM D638 48 MPa 6960 psi
Tensile Modulus - XY ASTM D638 1800 MPa 261 ksi
Elongation at Break - XY ASTM D638 20% 20%
Elongation at Yield - Z ASTM D638 15% 15%
THERMAL PROPERTIES TEST METHOD METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa ASTM D648 175 °C 347 °F
Heat Deflection Temperature @ 01.82 MPa  ASTM D648  95 °C  203 °F
GENERAL PROPERTIES TEST METHOD METRIC IMPERIAL
Powder Melting Point (DSC) ASTM D3418 187 °C 369 °F
Particle Size ASTM 03451 60 μm 0.00236 in 
Bulk Density of Powder ASTM D1895 0.425 g/cm3 0.015 lb/in3
Density of parts ASTM D792 1.01 g/cm3 0.036 lb/in3
Note: Materials specified are stocked materials, other materials may be avaiable upon request. The information on the material properties are obtained from the material manfucture and SICAM expressly disclaims any product warranties and cannot guarantee the accuracy of the information presented.

PA-12 Glass Beads

Process: HP-MJF - HP Multi Jet Fusion
PA 12 Glass Bead is an engineering-grade thermoplastic powder optimized for HP Multi Jet Fusion 3D printing. The powder is filled with 40% glass bead to produce stiff, nylon-like parts that are ideal for applications such as enclosures, housings, fixtures and tooling with detail and dimensional accuracy. PA 12 GB parts are stiff thermoplastic parts that can be used for common glass bead applications in various industries.

MECHANICAL PROPERTIES TEST METHOD METRIC IMPERIAL
Tensile Strength, Max Load - XY ASTM D638 30 MPa 4350 psi
Tensile Strength, Max Load - Z ASTM D638 30 MPa 4350 psi
Tensile Modulus - XY ASTM D638 2800 MPa 406 ksi
Elongation at Break - XY ASTM D638 6.5% 6.5%
Elongation at Yield - Z ASTM D638 6.5% 6.5%
THERMAL PROPERTIES TEST METHOD METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa ASTM D648 173 °C 344 °F
 Heat Deflection Temperature @ 01.82 MPa  ASTM D648  121 °C  250 °F
GENERAL PROPERTIES TEST METHOD METRIC IMPERIAL
Powder Melting Point (DSC) ASTM D3418 186 °C 367 °F
Particle Size ASTM 03451 58 µm 0.00228 in
Bulk Density of Powder ASTM D1895

0.48 g/cm3

0.017 lb/in3
Density of Parts ASTM D792 1.3 g/cm3 0.047 lb/in3
Note: Materials specified are stocked materials, other materials may be avaiable upon request. The information on the material properties are obtained from the material manfucture and SICAM expressly disclaims any product warranties and cannot guarantee the accuracy of the information presented.

PA-11

Process: HP-MJF - HP Multi Jet Fusion
PA 11 is an engineering-grade thermoplastic optimized for HP Multi Jet Fusion 3D printing. The powder produces strong, ductile, nylon-like with chemical resistance and enhanced elongation-at-break. The parts made from PA 11 are impact resistant and can serve as functional prototypes or final products.

MECHANICAL PROPERTIES TEST METHOD METRIC IMPERIAL
Tensile Strength, Max Load - XY ASTM D638 52 MPa 7542 psi
Tensile Strength, Max Load - Z ASTM D638 52 MPa 7542 psi
Tensile Modulus - XY ASTM D638 1800 MPa 261 ksi
Elongation at Break - XY ASTM D638 50% 50%
THERMAL PROPERTIES TEST METHOD METRIC IMPERIAL
Heat Deflection Temperature @ 0.45 MPa ASTM D648 185 °C 365 °F
 Heat Deflection Temperature @ 01.82 MPa  ASTM D648 54 °C  129 °F
GENERAL PROPERTIES TEST METHOD METRIC IMPERIAL
Powder Melting Point (DSC) ASTM D3418 202 °C 396 °F
Particle Size ASTM 03451 54 µm 0.00213 in.
Bulk Density of Powder ASTM D1895 0.48 g/cm3 0.017 lb/in3
Density of parts ASTM D792 1.05 g/cm3 0.038 lb/in3
Note: Materials specified are stocked materials, other materials may be avaiable upon request. The information on the material properties are obtained from the material manfucture and SICAM expressly disclaims any product warranties and cannot guarantee the accuracy of the information presented.