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  Datasheet ISO 

 
Global grade; MVR 9.5 cm³/10 min; General purpose; Medium viscosity; Easy release
 
Date: 21.03.2006
ISO Shortname:  ISO 7391-PC,MR,61-09-9
Property Test Condition Unit Standard Value
Rheological properties
C Melt volume-flow rate 300 °C; 1.2 kg cm³/(10 min) ISO 1133 9.5
C Molding shrinkage, parallel 60x60x2; 300 °C / MT 80 °C; 500 bar % ISO 294-4 0.65
C Molding shrinkage, normal 60x60x2; 300 °C / MT 80 °C; 500 bar % ISO 294-4 0.7
Molding shrinkage, parallel/normal Value range based on general practical experience % acc. ISO 2577 0.6 - 0.8
Melt mass-flow rate 300 °C; 1.2 kg g/(10 min) ISO 1133 10
Mechanical properties (23 °C/50 % r. h.)
C Tensile modulus 1 mm/min MPa ISO 527-1,-2 2400
C Yield stress 50 mm/min MPa ISO 527-1,-2 66
C Yield strain 50 mm/min % ISO 527-1,-2 6.1
C Nominal strain at break 50 mm/min % ISO 527-1,-2 > 50
Stress at break 50 mm/min MPa ISO 527-1,-2 65
Strain at break 50 mm/min % acc. ISO 527-1,-2 115
C Tensile creep modulus 1 h MPa ISO 899-1 2200
C Tensile creep modulus 1000 h MPa ISO 899-1 1900
Flexural modulus 2 mm/min MPa ISO 178 2350
Flexural strength 2 mm/min MPa ISO 178 98
Flexural strain at flexural strength 2 mm/min % ISO 178 7.0
Flexural stress at 3.5 % strain 2 mm/min MPa ISO 178 74
C Charpy impact strength 23 °C kJ/m² ISO 179-1eU N
C Charpy impact strength -30 °C kJ/m² ISO 179-1eU N
Charpy notched impact strength 23 °C; 3 mm kJ/m² acc. ISO 179-1eA 70P
Charpy notched impact strength -30 °C; 3 mm kJ/m² acc. ISO 179-1eA 12C
Izod notched impact strength 23 °C; 3.2 mm kJ/m² acc. ISO 180-A 85P
Izod notched impact strength -30 °C; 3.2 mm kJ/m² acc. ISO 180-A 12C
C Puncture maximum force 23 °C N ISO 6603-2 5400
C Puncture maximum force -30 °C N ISO 6603-2 6300
C Puncture energy 23 °C J ISO 6603-2 60
C Puncture energy -30 °C J ISO 6603-2 65
Ball indentation hardness N/mm² ISO 2039-1 115
Thermal properties
C Glass transition temperature 10 °C/min °C ISO 11357-1,-2 145
C Temperature of deflection under load 1.80 MPa °C ISO 75-1,-2 125
C Temperature of deflection under load 0.45 MPa °C ISO 75-1,-2 138
C Vicat softening temperature 50 N; 50 °C/h °C ISO 306 145
Vicat softening temperature 50 N; 120 °C/h °C ISO 306 146
C Coefficient of linear thermal expansion, parallel 23 to 55 °C 10-4/K ISO 11359-1,-2 0.65
C Coefficient of linear thermal expansion, transverse 23 to 55 °C 10-4/K ISO 11359-1,-2 0.65
C Burning behavior UL 94 (1.6 mm) [UL recognition] 1.5 mm Class UL 94 V-2
C Burning behavior UL 94 [UL recognition] 2.4 mm Class UL 94 V-2
Burning behavior UL 94 [UL recognition] 0.75 mm Class UL 94 V-2
Burning behavior UL 94 [UL recognition] 2.5 mm Class UL 94 HB
Burning behavior UL 94 [UL recognition] 3.0 mm Class UL 94 HB
Burning behavior UL 94 [UL recognition] 6.0 mm Class UL 94 HB
C Oxygen index Method A % ISO 4589-2 27
Thermal conductivity 23 °C W/(m·K) ISO 8302 0.20
Resistance to heat (ball pressure test) °C IEC 60695-10-2 135
Temperature index (Tensile strength) 20000 h; 1.5 mm °C IEC 60216-1 130
Halving interval (Tensile strength) 1.5 mm °C IEC 60216-1 8.7
Temperature index (Tensile impact strength) 20000 h; 1.5 mm °C IEC 60216-1 120
Halving interval (Tensile impact strength) 1.5 mm °C IEC 60216-1 7.4
Temperature index (Electric strength) 20000 h; 1.5 mm °C IEC 60216-1 135
Halving interval (Electric strength) 1.5 mm °C IEC 60216-1 7.4
Relative temperature index (Tensile strength) [UL recognition] 1.5 mm °C UL 746B 125
Relative temperature index (Tensile impact strength) [UL recognition] 1.5 mm °C UL 746B 115
Relative temperature index (Electric strength) [UL recognition] 1.5 mm °C UL 746B 125
Glow wire test (GWFI) 1.0 mm °C IEC 60695-2-12 850
Glow wire test (GWFI) 1.5 mm °C IEC 60695-2-12 850
Glow wire test (GWFI) 2.0 mm °C IEC 60695-2-12 850
Glow wire test (GWFI) 3.0 mm °C IEC 60695-2-12 900
Glow wire test 1.5 mm °C acc. EDF HN60 E.02 750
Glow wire test 3.0 mm °C acc. EDF HN60 E.02 750
Application of flame from small burner Method K and F; 2.0 mm Class DIN 53438-1,-3 K1, F1
Needle flame test Method K; 1.5 mm s IEC 60695-2-2 5
Needle flame test Method K; 2.0 mm s IEC 60695-2-2 5
Needle flame test Method K; 3.0 mm s IEC 60695-2-2 10
Needle flame test Method F; 1.5 mm s IEC 60695-2-2 60
Needle flame test Method F; 2.0 mm s IEC 60695-2-2 60
Needle flame test Method F; 3.0 mm s IEC 60695-2-2 120
Incandescent bar test Rating IEC 60707-BH BH2/< 30 mm
Burning rate (US-FMVSS) >=1.0 mm mm/min ISO 3795 passed
Flash ignition temperature Procedure B °C ASTM D1929 470
Self ignition temperature Procedure B °C ASTM D1929 540
Electrical properties (23 °C/50 % r. h.)
C Relative permittivity 100 Hz - IEC 60250 3.1
C Relative permittivity 1 MHz - IEC 60250 3.0
C Dissipation factor 100 Hz 10-4 IEC 60250 5
C Dissipation factor 1 MHz 10-4 IEC 60250 90
C Volume resistivity Ohm·m IEC 60093 1E14
C Surface resistivity Ohm IEC 60093 1E16
C Electric strength 1 mm kV/mm IEC 60243-1 33
C Comparative tracking index CTI Solution A Rating IEC 60112 275
Comparative tracking index CTI M Solution B Rating IEC 60112 125
Electrolytic corrosion Rating IEC 60426 A1
Other properties (23 °C)
C Water absorption (Saturation value) Water at 23 °C % ISO 62 0.30
C Water absorption (Equilibrium value) 23 °C; 50 % RH % ISO 62 0.12
C Density kg/m³ ISO 1183 1200
Water permeation 23 °C; 85 % RH; 100 µm film g/(m²·24 h) ISO 15106-1 15
Gas permeation Oxygen; 100 µm film cm³/(m²·24 h*bar) acc. ISO 2556 700
Gas permeation Oxygen; 25.4 µm (1 mil) film cm³/(m²·24 h*bar) acc. ISO 2556 2760
Gas permeation Nitrogen; 100 µm film cm³/(m²·24 h*bar) acc. ISO 2556 130
Gas permeation Nitrogen; 25.4 µm (1 mil) film cm³/(m²·24 h*bar) acc. ISO 2556 510
Gas permeation Carbon dioxide; 100 µm film cm³/(m²·24 h*bar) acc. ISO 2556 4300
Gas permeation Carbon dioxide; 25.4 µm (1 mil) film cm³/(m²·24 h*bar) acc. ISO 2556 16900
Bulk density Pellets kg/m³ ISO 60 660
Material specific properties
C Viscosity number cm³/g ISO 1628-4 59
Refractive index Procedure A - ISO 489 1.586
Haze for transparent materials 3 mm % ISO 14782 < 0.8
Luminous transmittance (clear transparent materials) 1 mm % ISO 13468-2 89
C Luminous transmittance (clear transparent materials) 2 mm % ISO 13468-2 89
Luminous transmittance (clear transparent materials) 3 mm % ISO 13468-2 88
Luminous transmittance (clear transparent materials) 4 mm % ISO 13468-2 87
Processing conditions for test specimens
C Injection molding-Melt temperature °C ISO 294 300
C Injection molding-Mold temperature °C ISO 294 80
C Injection molding-Injection velocity mm/s ISO 294 200
C These property characteristics are taken from the CAMPUS plastics data bank and are based on the international catalogue of basic data for plastics according to ISO 10350.
Disclaimer
Disclaimer for Sales products
This information and our technical advice - whether verbal, in writing or by way of trials - are given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. Our advice does not release you from the obligation to verify the information currently provided - especially that contained in our safety data and technical information sheets - and to test our products as to their suitability for the intended processes and uses. The application, use and processing of our products and the products manufactured by you on the basis of our technical advice are beyond our control and, therefore, entirely your own responsibility. Our products are sold in accordance with the current version of our General Conditions of Sale and Delivery.
Test values
Unless specified to the contrary, the values given have been established on standardised test specimens at room temperature. The figures should be regarded as guide values only and not as binding minimum values. Kindly note that, under certain conditions, the properties can be affected to a considerable extent by the design of the mould/die, the processing conditions and the colouring.
Processing note
Under the recommended processing conditions small quantities of decomposition product may be given off during processing.To preclude any risk to the health and well-being of the machine operatives, tolerance limits for the work environment must be ensured by the provision of efficient exhaust ventilation and fresh air at the workplace in accordance with the Safety Data Sheet. In order to prevent the partial decomposition of the polymer and the generation of volatile decomposition products, the prescribed processing temperatures should not be substantially exceeded.Since excessively high temperatures are generally the result of operator error or defects in the heating system, special care and controls are essential in these areas.
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