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Solvay Specialty Polymers Ixef® BXT-2000/0203 Polyarylamide (PARA)  (Unverified Data**)

Category Polymer , Thermoplastic , Polyarylamide (PAA)
Manufacturer
Trade Name
Port Shanghai port,China
Trade Terms FOB, CFR, CIF
Payment Terms L/C, T/T, Western Union
Download PDF Solvay Specialty Polymers Ixef® BXT-2000/0203 Polyarylamide (PARA)  (Unverified Data**).pdf
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Material Notes:
Ixef BXT-2000/0203 resin was developed specifically for extrusion and blow-molding processes. Unlike grades targeted for injection molding, Ixef BXT-2000/0203 resin can be successfully extruded into tube, pipe, sheet and film and blow-molded into various profiles. BXT-2000/0203 resin has proven permeation resistance to most automotive fluids and fuels. It also offers low moisture absorption, excellent dimensional stability, and chemical resistance as well as outstanding mechanical properties. - Natural: Ixef BXT-2000/0203Additional Information: Values are typical of limited production. Specifications for this product are not established yet.Extrusion Notes: Drying: - All Ixef extrusion grades should be dried to moisture levels of less than 1200 ppm prior to processing. This is usually accomplished in a desiccated dryer set at 185°F (85°C) for 4 to 8 hours. Moisture content may be checked using a thermogravimetric analyzer set at 338°F (170°C). The test should be run until no additional moisture is detected or at least 20 minutes. Once dry, proper steps must be taken to insure that no moisture is picked up by the resin before processing. Extrusion Equipment: - Ixef extrusion grades can generally be processed on standard extrusion equipment capable of achieving the process temperatures required. The extruder should be sized to keep polymer residence time under five minutes. The extruder screw should have a Length/Diameter (L/D) ratio of 20:1 to 30:1, and a compression ratio of at least 3:1, preferably 4:1. The screw should be designed to have 40 to 50% feed zone, 25 to 30% transition zone and 25 to 30% metering zone. - Extrusion die design should minimize sharp transitions and eliminate dead zones where polymer may be held up and degrade. Spider plates for tube dies and crossheads for wire coating should offer generous tapers to minimize nit lines. - Extrusion dies should be constructed of appropriate materials, preferably stainless steel and all flow surfaces highly polished. The die should contain heater cartridges and a controlling thermocouple. A pressure transducer is recommended to monitor die pressure and prevent equipment damage. A melt temperature sensor is recommended to prevent excessive polymer temperatures. Processing: - The extruder barrel adapter(s) and die should be set at the temperatures noted on the data sheet for the particular grade being processed. A positive temperature profile (gradually increasing temperature from rear to front of the extruder) should always be used. When starting up, it is advisable to allow the equipment to soak at temperature for at least two hours to allow all components to reach a correct and uniform temperature. - Screw speeds of 10 rpm or greater will provide the shear necessary to melt and homogenize the polymer as well as to keep residence times to a minimum. - It is advisable to start the extrusion process slowly to monitor pressures and melt quality. Minor adjustments in temperature can have a significant effect on melt quality. Tubing: - The excellent melt strength of the unfilled extrusion grade allows for great flexibility in draw. Tubes may be sized from 50 to 99% of the die diameter. (Draw down ratios from 1:1 to 2:1.) A vacuum calibrator is generally used to size the O.D. of the tube, with sizing rings at the desired diameter. The calibrator should be placed as close to the die as possible. A water spray in the calibrator is not usually required due to high heat transfer. Depending on extruder size and extrudate dimension, high extrusion rates can be achieved and are desirable. Film/Sheet: - Films of thickness down to 0.004 (0.01mm) have been successfully extruded in the unfilled grades. The extrudate can be drawn significantly, allowing a number of gauge films to be produced from a single die, simply by varying the takeoff speed. Film width is a function of the die, however it can also be controlled by moving the take-up rolls away from the die. As the rolls are moved further from the die, the width of the film will decrease as long as the film is being drawn. The filled grades can practically be extruded as thin as 0.020 (0.5mm) and cannot be drawn as much as the unfilled. Profile: - High tolerance and near-net shape profiles may be formed with Ixef Extrusion grades. Die design should be as noted above with dimensions cut to be 100% to 110% of the desired finished dimension. As the extrudate will often be relatively low in viscosity, especially for the unfilled grades, various methods of supporting the extrudate as it cools may be employed. These include complete encapsulative support, vacuum forming and the use of fixtures to maintain shape and tolerance. While most profiles will utilize a takeoff puller, in some cases the puller can be used to impart back pressure to help build die pressure and densify the profile. This will usually be the case in large cross section profiles. Consideration of control of the cooling rate should be given for large profiles to prevent stress cracks. The cooling rate may be controlled by the use of heated forming fixtures. Blow Molding: - Standard practices for blow molding should be followed. The temperature profile noted below should be used as a starting point and adjusted to achieve optimum parison quality. Process Setup: - Machine Conditions - Starting point temperatures for extrusion or blow molding - Extruder temperatures -- Barrel, Rear: 428°F (220°C) -- Middle: 465°F (235°C) -- Front: 480°F (250°C) -- Adapter: 470°F (245°C) -- Die: 460°F (240°C) - The above temperatures may need to be adjusted to achieve optimum extrudate appearance and extrusion rates. Avoid temperatures above 525°F (275°C). - Sheet and film take off roll temperatures: Minimum 225°F(107°C) Shutdown and Purging Instructions: - It is recommended that the machine be purged of Ixef resin at the end of a run. This can be accomplished by running the extruder dry and then adding an appropriate purge compound to the feed hopper and running the screw until the extrudate is clear of any Ixef resin. If a purge compound is not available, fractional melt flow (extrusion grade) polyethylene will be an acceptable purge. - Once all the Ixef resin has been purged from the machine, reduce the barrel temperatures. It is strongly suggested that any heads or dies be removed and cleaned while still warm.Information provided by Solvay Specialty Polymers.
Physical Properties Metric English Comments
Density 1.12 g/cc
0.0405 lb/in³
ISO 1183
Apparent Bulk Density 0.700 g/cc
0.0253 lb/in³
ASTM D1895B
Melt Flow 6.0 g/10 min

@Temperature 240 °C
6.0 g/10 min

@Temperature 464 °F
Mechanical Properties Metric English Comments
Tensile Strength at Break 39.9 MPa
5790 psi
ASTM D638
Tensile Strength, Yield 63.4 MPa
9200 psi
ASTM D638
63.8 MPa
9250 psi
ISO 527-2
Elongation at Break 44 %
44 %
ASTM D638
77 %
77 %
Nominal; ISO 527-2
Elongation at Yield 3.7 %
3.7 %
ISO 527-2
4.0 %
4.0 %
ASTM D638
Modulus of Elasticity 2.48 GPa
360 ksi
ASTM D638
Tensile Modulus 2.47 GPa
358 ksi
ISO 527-2
Izod Impact, Notched 3.50 J/cm
6.56 ft-lb/in
ASTM D256
NB
NB
ASTM D4812
Izod Impact, Notched (ISO) 15.0 kJ/m²
7.14 ft-lb/in²
ISO 180
Izod Impact, Unnotched (ISO) 190 kJ/m²
90.4 ft-lb/in²
ISO 180
Thermal Properties Metric English Comments
Melting Point 230 °C
446 °F
Deflection Temperature at 1.8 MPa (264 psi) 82.0 °C
180 °F
Unannealed; ISO 75-2/A
Processing Properties Metric English Comments
Zone 1 220 °C
428 °F
Zone 2 235 °C
455 °F
Zone 3 250 °C
482 °F
Adapter Temperature 250 °C
482 °F
Die Temperature 250 °C
482 °F
Drying Temperature 85.0 °C
185 °F
Dry Time 4.00 - 8.00 hour
4.00 - 8.00 hour
Descriptive Properties Value Comments
Appearance Natural Color
Availability Africa & Middle East
Asia Pacific
Europe
North America
South America
Features Barrier Resin
Fuel Resistant
Good Chemical Resistance
Good Creep Resistance
Good Dimensional Stability
High Flow
Low Moisture Absorption
Outstanding Surface Finish
Forms Pellets
Generic PARA
Permeation 0.83 g·mm/m²/atm/24 hr
CE 10 Fuel; 60°C; SAE J2659
Processing Method Blow Molding
Extrusion
Take-Off Roll 107°C
Uses Blow Molding Applications
Film
Piping
Sheet
Tubing
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