Celanese Vandar® 2100UV PBT, Impact Modified

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Celanese Vandar® 2100UV PBT, Impact Modified
Categories:	Polymer; Thermoplastic; Polyester, TP; Polybutylene Terephthalate (PBT); Polybutylene Terephthalate (PBT), Glass Filled, Impact Modified
Material Notes:	Vandar 2100UV is a polyester alloy designed to offer maximum impact strength at room and low temperatures. This unfilled compound is characterized by outstanding chemical resistance, dimensional stability, paintability, and toughness. Vandar 2100UV is available in UV stable colors. Information provided by Celanese
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Physical Properties	Metric	English	Comments

Specific Gravity	1.23 g/cc	1.23 g/cc	ASTM D792
Density	1.216 g/cc	0.04393 lb/in³	ISO 1183
Water Absorption	0.10 % @Temperature 22.8 °C	0.10 % @Temperature 73.0 °F	24hr immersion; ASTM D570
Moisture Absorption	0.200 %	0.200 %	23°C/50%RH; ISO 62
Linear Mold Shrinkage, Flow	0.018 cm/cm	0.018 in/in	ASTM D955
	0.017 - 0.022 cm/cm	0.017 - 0.022 in/in	ISO 294-4
Linear Mold Shrinkage, Transverse	0.017 - 0.022 cm/cm	0.017 - 0.022 in/in	ISO 294-4
Melt Flow	5.5 g/10 min @Load 5.00 kg, Temperature 250 °C	5.5 g/10 min @Load 11.0 lb, Temperature 482 °F	[cm3/10min]; ISO 1133

Mechanical Properties	Metric	English	Comments
Hardness, Rockwell M	38	38	ISO 2039-2
Tensile Strength at Break	29.0 MPa	4210 psi	50mm/min; ISO 527-2/1A
Tensile Strength, Yield	38.0 MPa	5510 psi	50mm/min; ISO 527-2/1A
	43.4 MPa	6300 psi	ASTM D638
Tensile Stress at Strain	26.0 MPa @Strain 50 %	3770 psi @Strain 50 %	ISO 527-2/1A
Elongation at Break	150 %	150 %	ASTM D638
	174 %	174 %
	247 %	247 %	50mm/min; ISO 527-2/1A
Elongation at Yield	4.4 %	4.4 %	50mm/min; ISO 527-2/1A
Tensile Modulus	1.763 GPa	255.7 ksi	50mm/min; ISO 527-2/1A
Flexural Strength	47.0 MPa	6820 psi	ISO 178
	60.0 MPa	8700 psi	ASTM D790
Flexural Modulus	1.674 GPa	242.8 ksi	ISO 178
	1.93 GPa	280 ksi	ASTM D790
Izod Impact, Notched	52.9 J/cm	99.0 ft-lb/in	ASTM D256
	1.60 J/cm @Temperature -28.9 °C	3.00 ft-lb/in @Temperature -20.0 °F	ASTM D256
Izod Impact, Notched (ISO)	NB	NB	ISO 180/1A
Charpy Impact Unnotched	NB	NB	ISO 179/1eU
	NB @Temperature -30.0 °C	NB @Temperature -22.0 °F	ISO 179/1eU
Charpy Impact, Notched	8.00 J/cm²	38.1 ft-lb/in²	ISO 179/1eA
	1.90 J/cm² @Temperature -30.0 °C	9.04 ft-lb/in² @Temperature -22.0 °F	ISO 179/1eA

Electrical Properties	Metric	English	Comments
Volume Resistivity	1.00e+14 ohm-cm	1.00e+14 ohm-cm	IEC 60093
Surface Resistance	1.00e+14 ohm	1.00e+14 ohm	IEC 60093
Dielectric Constant	3.6 @Frequency 1e+6 Hz	3.6 @Frequency 1e+6 Hz	IEC 60250
	4.0 @Frequency 100 Hz	4.0 @Frequency 100 Hz	IEC 60250
Dielectric Strength	24.0 kV/mm	610 kV/in	IEC 60243-1
Dissipation Factor	0.0070 @Frequency 100 Hz	0.0070 @Frequency 100 Hz	IEC 60250
	0.020 @Frequency 1e+6 Hz	0.020 @Frequency 1e+6 Hz	IEC 60250

Thermal Properties	Metric	English	Comments
CTE, linear, Parallel to Flow	130 µm/m-°C	72.2 µin/in-°F	ISO 11359-2
Melting Point	225 °C	437 °F	10°C/min; ISO 11357-1,-2,-3
	225 °C	437 °F	ASTM D3418
Deflection Temperature at 0.46 MPa (66 psi)	86.0 °C	187 °F	ISO 75-1, -2
	104 °C	220 °F	ASTM D648
Deflection Temperature at 1.8 MPa (264 psi)	48.9 °C	120 °F	ASTM D648
	51.0 °C	124 °F	ISO 75-1, -2
Vicat Softening Point	128 °C	262 °F	ISO 306
Glass Transition Temp, Tg	60.0 °C	140 °F	ISO 11357-1,-2,-3
Flammability, UL94	HB @Thickness 1.60 mm	HB @Thickness 0.0630 in

Processing Properties	Metric	English	Comments
Processing Temperature	65.0 - 96.0 °C	149 - 205 °F	cavity
	250 - 260 °C	482 - 500 °F	hot runner
Feed Temperature	230 - 240 °C	446 - 464 °F
Zone 1	230 - 240 °C	446 - 464 °F
Zone 2	235 - 250 °C	455 - 482 °F
Zone 3	235 - 250 °C	455 - 482 °F
Zone 4	240 - 260 °C	464 - 500 °F
Die Temperature	240 - 260 °C	464 - 500 °F
Melt Temperature	235 - 260 °C	455 - 500 °F
	260 °C	500 °F	ISO 294
Mold Temperature	82.0 °C	180 °F	ISO 294
Injection Velocity	300 mm/sec	11.8 in/sec	ISO 294
Drying Temperature	120 - 130 °C	248 - 266 °F
Dry Time	4.00 hour	4.00 hour
Moisture Content	<= 0.020 %	<= 0.020 %
Hold Pressure	86.0 MPa	12500 psi	ISO 294

Descriptive Properties
Injection molding	Yes
Injection speed	medium-fast
Processing conditions acc. ISO	7792-2

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 view all the property values for this datasheet as they were originally entered into MatWeb.

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