Ascend Performance Materials Vydyne® 22HSPCN NT0856 PA66

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Ascend Performance Materials Vydyne® 22HSPCN NT0856 PA66
Categories:	Polymer; Thermoplastic; Nylon (Polyamide PA); Nylon 66 (PA66); Nylon 66, Heat Stabilized
Material Notes:	Vydyne 22HSPCN NT0856 is a general-purpose, unfilled, lubricated, heat stabilized PA66 resin. Designed principally for injection-molding fabrication, this product offers a combination of engineering properties characterized by high strength; rigidity; good toughness; high melt point; good surface lubricity; abrasion resistance; and resistance to many chemicals, machine and motor oils, solvents and gasoline. this product is designed to resist thermal degradation when exposed to warm climates. Information provided by Ascend Performance Materials.
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Physical Properties	Original Value	Comments

Density	1.13 g/cc	DAM; ISO 1183
Water Absorption	1.7 % @Temperature 23.0 °C, Time 86400 sec	DAM; ISO 62
Moisture Absorption at Equilibrium	2.9 % @Temperature 23.0 °C	DAM; ISO 62
Linear Mold Shrinkage, Flow	0.016 cm/cm @Thickness 2.00 mm	DAM; ISO 294-4
Linear Mold Shrinkage, Transverse	0.017 cm/cm @Thickness 2.00 mm	DAM; ISO 294-4

Mechanical Properties	Original Value	Comments
Tensile Strength at Break	46.0 MPa	50% RH; ISO 527-2
	55.0 MPa	DAM; ISO 527-2
Tensile Strength, Yield	52.0 MPa	50% RH; ISO 527-2
	87.0 MPa	DAM; ISO 527-2
Elongation at Break	22 %	DAM; ISO 527-2
	>= 50 %	50% RH; ISO 527-2
Elongation at Yield	4.9 %	DAM; ISO 527-2
	22 %	50% RH; ISO 527-2
Tensile Modulus	1200 MPa	50% RH; ISO 527-2
	3300 MPa	DAM; ISO 527-2
Flexural Strength	31.0 MPa	50% RH; ISO 178
	104 MPa	DAM; ISO 178
Flexural Modulus	1000 MPa	50% RH; ISO 178
	3000 MPa	DAM; ISO 178
Poissons Ratio	0.40	ISO 527-2
Izod Impact, Notched (ISO)	4.50 kJ/m² @Temperature -40.0 °C	DAM; ISO 180/1A
	4.70 kJ/m² @Temperature -30.0 °C	DAM; ISO 180/1A
	4.80 kJ/m² @Temperature 23.0 °C	DAM; ISO 180/1A
	5.10 kJ/m² @Temperature -40.0 °C	50% RH; ISO 180/1A
	5.20 kJ/m² @Temperature -30.0 °C	50% RH; ISO 180/1A
	19.0 kJ/m² @Temperature 23.0 °C	50% RH; ISO 180/1A
Charpy Impact Unnotched	NB @Temperature 23.0 °C	50% RH; ISO 179/1eU
	NB @Temperature -30.0 °C	50% RH; ISO 179/1eU
	NB @Temperature -40.0 °C	50% RH; ISO 179/1eU
	NB @Temperature 23.0 °C	DAM; ISO 179/1eU
	NB @Temperature -30.0 °C	DAM; ISO 179/1eU
	NB @Temperature -40.0 °C	DAM; ISO 179/1eU
Charpy Impact, Notched	4.00 kJ/m² @Temperature -40.0 °C	50% RH; ISO 179/1eA
	4.10 kJ/m² @Temperature -40.0 °C	DAM; ISO 179/1eA
	4.60 kJ/m² @Temperature 23.0 °C	DAM; ISO 179/1eA
	4.70 kJ/m² @Temperature -30.0 °C	50% RH; ISO 179/1eA
	4.90 kJ/m² @Temperature -30.0 °C	DAM; ISO 179/1eA
	18.0 kJ/m² @Temperature 23.0 °C	50% RH; ISO 179/1eA

Electrical Properties	Original Value	Comments
Volume Resistivity	4.19e+12 ohm-cm @Thickness 1.00 mm	50% RH; IEC 60093
	2.44e+17 ohm-cm @Thickness 1.00 mm	DAM; IEC 60093
Dielectric Strength	23.0 kV/mm @Thickness 1.00 mm	50% RH; IEC 60243
	30.0 kV/mm @Thickness 1.00 mm	DAM; IEC 60243

Thermal Properties	Original Value	Comments
CTE, linear, Parallel to Flow	112 µm/m-°C @Thickness 2.00 mm, Temperature 23.0 - 55.0 °C	DAM; ISO 11359-2
CTE, linear, Transverse to Flow	103 µm/m-°C @Thickness 2.00 mm, Temperature 23.0 - 55.0 °C	DAM; ISO 11359-2
Melting Point	260 °C	DAM; ISO 11357-3
Deflection Temperature at 0.46 MPa (66 psi)	199 °C	Unannealed; DAM; ISO 75-2/B
Deflection Temperature at 1.8 MPa (264 psi)	67.0 °C	Unannealed; DAM; ISO 75-2/A

Processing Properties	Original Value	Comments
Rear Barrel Temperature	>= 260 °C	Injection
	<= 280 °C	Injection
Middle Barrel Temperature	>= 270 °C	Injection
	<= 285 °C	Injection
Front Barrel Temperature	>= 280 °C	Injection
	<= 290 °C	Injection
Nozzle Temperature	>= 280 °C	Injection
	<= 300 °C	Injection
Melt Temperature	>= 285 °C	Injection
	<= 300 °C	Injection
Mold Temperature	>= 65.0 °C	Injection
	<= 95.0 °C	Injection
Drying Temperature	70.0 °C	Injection
Dry Time	>= 1.00 hour	Injection
	<= 3.00 hour	Injection

Descriptive Properties
Additive	Heat Stabilizer
	Lubricant
	Release agent
Appearance	Natural Color
Features	Abrasion Resistance
	Chemical Resistant
	Gasoline Resistant
	General Purpose
	Good Heat Resistance
	Good Stiffness
	Good Strength
	Good Tensile Strength
	Lubricated
	Thermal Stability
Forms	Pellets
Processing Method	Injection Molding

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PASCE8492 / 318009

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