Orgalloy® polyamide alloys combine the important physical and chemical properties of short-chain polyamides with the economic and process advantages of polyolefins. They are designed to offer improved dimensional stability, lower density and better mechanical properties than PA 6 and PA 6.6 resins.
Orgalloy® RS 6000 NAT resin is a polyamide 6 alloy designed for injection molding. This natural grade offers an outstanding dimensional stability, chemical resistance to automotive fluids and is ideal for the realization of complex parts.
Main applications:
Automotive tube clamping.
Ablation plate for miniature circuit breaker.
Electric connectors.
Spor parts.
Packaging:
This grade is delivered dried in sealed packaging (25kg bags) ready to be processed.
Shelf life:
Two years from the date of delivery. For any use above this limit, please refer to our technical services.
| Original Document | Technical Datasheet(English) | |||
| Features | Heat StabilizedDimensional StabilityChemical Resistance | |||
| Additive | Light StabilizerHeat Stabilizer | |||
| Appearance | Pellets/GranulesNatural Color | |||
| Processing | Injection | |||
| Physical | Value/Unit(Sign in to View) | Test Standard | Test Condition |
|---|---|---|---|
Density/Specific Gravity | *** g/cm³ | ISO 1183 | Cond. |
Density/Specific Gravity | *** g/cm³ | ISO 1183 | Dry |
Melt Volume Flow Rate(MVR) | |||
235℃/2.16 kg | *** cm³/10 min | ISO 1133 | Dry |
Mold Shrinkage | |||
Flow | *** % | ISO 294-4, 2577 | Dry |
Across Flow | *** % | ISO 294-4, 2577 | Dry |
Water Absorption | *** % | ISO 62 | Dry |
Moisture /Humidity Absorption | *** % | ISO 62 | Dry |
| Mechanical | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Tensile Modulus | *** Mpa | ISO 527-1/-2 | Cond. |
Tensile Modulus | *** Mpa | ISO 527-1/-2 | Dry |
Tensile Strength | |||
Yield | *** Mpa | ISO 527-1/-2 | Cond. |
Yield | *** Mpa | ISO 527-1/-2 | Dry |
Tensile Elongation | |||
Yield | *** % | ISO 527-1/-2 | Cond. |
Yield | *** % | ISO 527-1/-2 | Dry |
Nominal Tensile Strain at Break | *** % | ISO 527-1/-2 | Cond. |
Nominal Tensile Strain at Break | *** % | ISO 527-1/-2 | Dry |
Tensile Creep Modulus | |||
1h | *** Mpa | ISO 899-1 | Cond. |
1000h | *** Mpa | ISO 899-1 | Cond. |
| Impact | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Charpy Notched Impact Strengh | |||
23℃ (73℉) | *** kJ/m² | ISO 179/1eA | Cond. |
23℃ (73℉) | *** kJ/m² | ISO 179/1eA | Dry |
Charpy Unnotched Impact Strengh | |||
23℃ (73℉) | *** kJ/m² | ISO 179/1eU | Cond. |
| Hardness | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Shore D hardness | *** D | ISO 7619-1 | 15s |
| Thermal | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Heat Deflection Temperature(HDT) | |||
0.45 Mpa (66 psi)(4.6kg/cm²) | *** °C | ISO 75-1/-2 | Dry |
1.8 Mpa (264 psi)(18.6kg/cm²) | *** °C | ISO 75-1/-2 | Dry |
Vicat Softening Temperature(VST) | *** °C | ISO 306 | Dry, 50°C/h 50N |
Coefficient of Linear Thermal Expansion | |||
Flow | *** E-6/K | ISO 11359-1/-2 | Dry |
Across Flow | *** E-6/K | ISO 11359-1/-2 | Dry |
Melt Temperature(Tm) | *** °C | ISO 11357-1/-3 | Dry, 10°C/min |
Processing Temperature | *** °C | - | Injection Molding |
Mould temperature | *** °C | - | Injection Molding |
| Flammability | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Flame Rating | |||
HB | *** mm | IEC 60695-11-10 | Dry |
HB | *** mm | IEC 60695-11-10 | Dry |
| Electrical | Value/Unit(Sign in to View) | Test Standard | Test Condition |
Volume Resistivity | *** Ohm-m | IEC 60093 | Cond. |
Surface Resistivity | *** Ohm | IEC 60093 | Cond. |
Dielectric Constant(Permittivity) | |||
100Hz | *** - | IEC 60250 | Cond. |
1MHz | *** - | IEC 60250 | Cond. |
Dissipation Factor | |||
100Hz | *** E-4 | IEC 60250 | Cond. |
1MHz | *** E-4 | IEC 60250 | Cond. |
Comparative Tracking Index (CTI) | |||
- | *** - | IEC 60112 | Cond. |
Dielectric Strength | *** kV/mm | IEC 60243-1 | Cond. |
Dielectric Strength | *** kV/mm | IEC 60243-1 | Dry |
The information presented on this datasheet was acquired by AjiEng.com from the producer of the material. AjiEng.com makes substantial efforts to assure the accuracy of this data. However, AjiEng.com assumes no responsibility for the data values and strongly encourages that upon final material selection, data points are validated with the material supplier.
