NORYL™ Resin PCN2910 - Asia

Want to keep this datasheet? Save it now in your required format

Description

NORYL™ PCN2910 resin is a 35% glass/mica filled blend of polyphenylene ether (PPE) + high impact polystyrene (HIPS). This high modulus, injection moldable grade contains non-brominated, non-chlorinated flame retardant and carries a UL94 flame rating of 5VB at 2.3mm, V0 at 3mm, and V1 at 1.5mm. NORYL PCN2910 resin exhibits good dimensional stability, low specific gravity, and Low Warpage. It is an excellent candidate for printer chassis applications where high modulus and tight tolerance molding are required.

This material data has been provided by Sabic.

"Typical" values were obtained via a literature search. "Predicted" values were imputed via artificial intelligence technology. While we have placed significant efforts in ensuring data accuracy, "typical" and "predicted" data should be considered indicative and verified by appropriate material testing. Please do contact us if additional information on the the predicted data method is required.
All metrics apply to room temperature unless otherwise stated. SI units used unless otherwise stated.
Equivalent standards are similar to one or more standards provided by the supplier. Some equivalent standards may be stricter whereas others may be outside the bounds of the original standard.

Ashby charts

Properties

General

PropertyTemperatureValueComment

Relative density

23.0 °C

1.38 [-]

Show Supplier Material materials with Relative density of 1.38 [-]

ASTM D 792

Mechanical

PropertyTemperatureValueComment

Elastic modulus

23.0 °C

10.6 GPa

Show Supplier Material materials with Elastic modulus of 10.6 GPa

ISO 527 | 1 mm/min

Elongation

23.0 °C

5 %

Show Supplier Material materials with Elongation of 5 %

SABIC - Japan Method | yld, Type I, 10 mm/min

Flexural modulus

23.0 °C

9.1 GPa

Show Supplier Material materials with Flexural modulus of 9.1 GPa

ISO 178 | 2 mm/min

Flexural strength

23.0 °C

160 MPa

Show Supplier Material materials with Flexural strength of 160 MPa

ISO 178 | yield, 2 mm/min

Impact strength, Charpy notched

23.0 °C

4 kJ/m²

Show Supplier Material materials with Impact strength, Charpy notched of 4 kJ/m²

ISO 179/2C | 23°C

Impact strength, Izod notched

23.0 °C

5 kJ/m²

Show Supplier Material materials with Impact strength, Izod notched of 5 kJ/m²

ISO 180/1A | 80*10*4, 23°C

Impact strength, Izod notched, ASTM

23.0 °C

68 J/m

Show Supplier Material materials with Impact strength, Izod notched, ASTM of 68 J/m

ASTM D 256

Impact strength, Izod unnotched

23.0 °C

14 kJ/m²

Show Supplier Material materials with Impact strength, Izod unnotched of 14 kJ/m²

ISO 180/1U | 80*10*4, 23°C

Impact strength, Izod unnotched, ASTM

23.0 °C

331 J/m

Show Supplier Material materials with Impact strength, Izod unnotched, ASTM of 331 J/m

ASTM D 4812 | 23°C

Instrumented Impact, Total Energy

23.0 °C

7 J

Show Supplier Material materials with Instrumented Impact, Total Energy of 7 J

ASTM D 3763 | 23°C

Tensile strength

23.0 °C

115 MPa

Show Supplier Material materials with Tensile strength of 115 MPa

SABIC - Japan Method | brk, Type I, 10 mm/min

Thermal

PropertyTemperatureValueComment

Coefficient of thermal expansion

23.0 °C

2.1E-5 - 3.3E-5 1/K

Show Supplier Material materials with Coefficient of thermal expansion of 2.1E-5 - 3.3E-5 1/K

TMA | -30°C to 30°C

Heat deflection temperature

129 °C

Show Supplier Material materials with Heat deflection temperature of 129 °C

Heat deflection temperature, 1.80 MPa

129 °C

Show Supplier Material materials with Heat deflection temperature, 1.80 MPa of 129 °C

ISO 75/Af | Flatw 80*10*4 sp=64mm

Relative temperature index, electrical

65 °C

Show Supplier Material materials with Relative temperature index, electrical of 65 °C

UL 746B

Relative temperature index, mechanical impact

65 °C

Show Supplier Material materials with Relative temperature index, mechanical impact of 65 °C

UL 746B

Relative temperature index, mechanical strength

65 °C

Show Supplier Material materials with Relative temperature index, mechanical strength of 65 °C

UL 746B

Vicat softening temperature

140 °C

Show Supplier Material materials with Vicat softening temperature of 140 °C

ASTM D 1525 | Rate B/50

Flammability

UL Recognized, 94-5VB Flame Class Rating: ≥2.3mm UL 94 <br> UL Recognized, 94V-1 Flame Class Rating: ≥1.5mm UL 94 <br> UL Recognized, 94V-0 Flame Class Rating: ≥3mm UL 94 <br> UL Yellow Card Link: https://iq.ul.com/ul/cert.aspx?ULID=228572- - <br> UL Yellow Card Link 2: https://iq.ul.com/ul/cert.aspx?ULID=237063- -

Rheological Properties

PropertyTemperatureValueComment

Melt mass-flow rate

11 g/10min

Show Supplier Material materials with Melt mass-flow rate of 11 g/10min

ASTM D 1238 | 300°C/2.16 kgf

Shrinkage

23.0 °C

0.25 %

Show Supplier Material materials with Shrinkage of 0.25 %

SABIC method

Technological properties

Property
Application areas

Document Handling, Data Management, Circuit Protection, Enclosures, Enclosure/Housing/Cover, Electronic Components, Security/Detection, Wireless Communications

Availability

Asia

Processing methods

Drying Time (Cumulative): 8hrs
Melt Temperature: 295 to 315.0°C
Front - Zone 3 Temperature: 280 to 315.0°C
Nozzle Temperature: 295 to 315.0°C
Back Pressure: 0.3 to 0.7MPa
Screw Speed: 20 to 100.0rpm
Rear - Zone 1 Temperature: 260 to 305.0°C
Middle - Zone 2 Temperature: 270 to 310.0°C
Maximum Moisture Content: 0.02%
Shot to Cylinder Size: 30 to 70.0%
Drying Time: 3 to 4.0hrs
Mold Temperature: 75 to 105.0°C
Drying Temperature: 105 to 110.0°C

Supplier Disclaimer

While the information is provided in good faith, SABIC MAKES NO WARRANTY, EXPRESS OR IMPLIED, INCLUDING MERCHANTABILITY AND NONINFRINGEMENT OF INTELLECTUAL PROPERTY, NOR ASSUMES ANY LIABILITY, DIRECT OR INDIRECT, WITH RESPECT TO THE PERFORMANCE, SUITABILITY OR FITNESS FOR INTENDED USE OR PURPOSE OF THESE PRODUCTS IN ANY APPLICATION. Each Buyer must determine the suitability of SABIC's materials for the Buyer's particular use through appropriate testing and analysis. No statement by SABIC concerning a possible use of any product, service or design is intended, or should be construed, to grant any license under any patent or other intellectual property right.