Solaxis Antero™ 800NA PEKK-based FDM, Processed on Fortus 450mc

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Solaxis Antero™ 800NA PEKK-based FDM, Processed on Fortus 450mc
Categories:	Polymer; 3D Printing/Additive Manufacturing Polymer; Thermoplastic; Polyketone; PEKK, Unreinforced
Material Notes:	Antero™ 800NA is a PEKK-based FDM® thermoplastic that combines FDM’s design freedom and ease of use with the excellent strength, toughness and wear-resistant properties of PEKK material. Antero 800NA exhibits high heat resistance, chemical resistance, low outgassing and dimensional stability, particularly in large parts. Applications include aircraft components exposed to jet fuel, oil and hydraulic fluid, spacecraft parts that demand low outgassing and chemical-resistant industrial parts. Using Antero 800NA with FDM technology avoids the waste associated with subtractive manufacturing of high-cost bulk PEKK material. Antero 800NA is available on Fortus 450mc™ and F900™ 3D Printers and is compatible with breakaway support material SUP8000B™. Information provided by Solaxis for typical production specimens.
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Physical Properties	Original Value	Comments

Specific Gravity	1.28 g/cc	ASTM D792
Moisture Absorption	0.150 %	Loss during outgassing; ASTM E595
Outgassing - Total Mass Loss	0.27 %	ASTM E595
Collected Volatile Condensable Material	0.010 %	ASTM E595

Mechanical Properties	Original Value	Comments
Tensile Strength, Ultimate	40.6 - 51.2 MPa @Thickness 3.17 mm	ZX Orientation, Type 1, 0.2 in./min; ASTM D638
	92.7 - 93.5 MPa @Thickness 3.17 mm	XZ Orientation, Type 1, 0.2 in./min; ASTM D638
Tensile Strength, Yield	40.6 - 51.2 MPa @Thickness 3.17 mm	ZX Orientation, Type 1, 0.2 in./min; ASTM D638
	92.7 - 93.5 MPa @Thickness 3.17 mm	XZ Orientation, Type 1, 0.2 in./min; ASTM D638
Elongation at Break	0.94 - 1.5 % @Thickness 3.17 mm	ZX Orientation, Type 1, 0.2 in./min; ASTM D638
	5.35 - 7.45 % @Thickness 3.17 mm	XZ Orientation, Type 1, 0.2 in./min; ASTM D638
Elongation at Yield	0.58 - 1.64 % @Thickness 3.17 mm	ZX Orientation, Type 1, 0.2 in./min; ASTM D638
	3.73 - 4.89 % @Thickness 3.17 mm	XZ Orientation, Type 1, 0.2 in./min; ASTM D638
Tensile Modulus	2.80 - 3.20 GPa @Thickness 3.17 mm	XZ Orientation, Type 1, 0.2 in./min; ASTM D638
	2.80 - 4.20 GPa @Thickness 3.17 mm	ZX Orientation, Type 1, 0.2 in./min; ASTM D638
Flexural Strength	54.0 - 74.0 MPa	ZX Orientation, Type 1, 0.05 in./min; ASTM D790
	139 - 145 MPa	XZ Orientation, Type 1, 0.05 in./min; ASTM D790
Flexural Modulus	2.60 - 2.80 GPa	ZX Orientation, Type 1, 0.05 in./min; ASTM D790
	3.00 - 3.20 GPa	XZ Orientation, Type 1, 0.05 in./min; ASTM D790
Flexural Strain at Break	2.02 - 2.8 %	ZX Orientation, Type 1, 0.05 in./min; ASTM D790
Compressive Yield Strength	98.0 - 102 MPa	XZ Orientation, Method 1, 0.05 in./min; ASTM D695
	98.0 - 104 MPa	ZX Orientation, Method 1, 0.05 in./min; ASTM D695
Compressive Strength	98.0 - 102 MPa	Ultimate, XZ Orientation, Method 1, 0.05 in./min; ASTM D695
	98.0 - 104 MPa	Ultimate, ZX Orientation, Method 1, 0.05 in./min; ASTM D695
Compressive Modulus	2.20 - 2.40 GPa	ZX Orientation, Method 1, 0.05 in./min; ASTM D695
	2.44 - 2.46 GPa	XZ Orientation, Method 1, 0.05 in./min; ASTM D695
Izod Impact, Notched	22.0 - 32.0 J/m	ZX Orientation, Method A; ASTM D256
	31.0 - 43.0 J/m	XZ Orientation, Method A; ASTM D256
Izod Impact, Unnotched	47.0 - 103 J/m	ZX Orientation, Method A; ASTM D256
	572 - 3080 J/m	XZ Orientation, Method A; ASTM D256

Electrical Properties	Original Value	Comments
Volume Resistivity	>= 5.40e+14 ohm-cm	XY; ASTM D257
	>= 5.40e+14 ohm-cm	ZX; ASTM D257
Dielectric Constant	3.23	XY; ASTM D150-98
	3.32	ZX; ASTM D150-98
Dissipation Factor	0.0030	ZX; ASTM D150-98
	0.0040	XY; ASTM D150-98

Thermal Properties	Original Value	Comments
CTE, linear	29.23 µm/m-°C	X; ASTM E831
	50.52 µm/m-°C	Z; ASTM E831
	53.14 µm/m-°C	Y; ASTM E831
Deflection Temperature at 0.46 MPa (66 psi)	150 °C	ASTM D648
Deflection Temperature at 1.8 MPa (264 psi)	147 °C	ASTM D648
Glass Transition Temp, Tg	149 °C	ASTM D7426-08

Some of the values displayed above may have been converted from their original units and/or rounded in order to display the information in a consistent format. Users requiring more precise data for scientific or engineering calculations can click on the property value to see the original value as well as raw conversions to equivalent units. We advise that you only use the original value or one of its raw conversions in your calculations to minimize rounding error. We also ask that you refer to MatWeb's terms of use regarding this information. Click here to go back to viewing the property data in MatWeb's normal format.

PSOLXIS980 / 256136

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