SABIC PEI ULTEM™ RESINS EXTEM™ Resin_Hong Kong Hongrun Entrepreneurship International Co., LTD

SABIC PEI ULTEM™ RESINS EXTEM™ Resin

Release time：2025-06-20Author：小编

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ULTEM™ RESINS
ULTEM™ resin is a Polyetherimide (PEI), which offers a unique combination of thermal performance, high modulus, dimensional stability, near-infrared transparency, and non-halogenated FR for a wide range of demanding applications. EXTEM™ resin is well-suited for applications that require a higher thermal performance, such as co-packaged optical components. SILTEM™ resin is an easy extrudable amorphous copolymer with no intentionally added PFAS for potential use in applications such as high-performance
ULTEM™ resin is a Polyetherimide (PEI), which offers a unique combination of thermal performance, high modulus, dimensional stability, near-infrared transparency, and non-halogenated FR for a wide range of demanding applications. EXTEM™ resin is well-suited for applications that require a higher thermal performance, such as co-packaged optical components. SILTEM™ resin is an easy extrudable amorphous copolymer with no intentionally added PFAS for potential use in applications such as high-performance wires and cables.
Description
The ULTEM™ resin family of amorphous thermoplastic polyetherimide (PEI) materials offers outstanding elevated thermal resistance, high strength and stiffness, and broad chemical resistance. ULTEM resins are available in transparent and opaque custom colors, as well as glass filled grades. These materials uniquely balance both mechanical properties and processability, offering design engineers exceptional flexibility and freedom. Also available are ULTEM copolymers which support even higher heat, chemical and elasticity needs. An ISCC+ certified renewable bio-based portfolio has recently been launched, offering sustainability benefits with interchangeable performance.
Benefits
LONG-TERM HEAT RESISTANCE
Excellent stability of physical and mechanical properties at elevated temperatures thanks to high glass transition temperature of 217 °C. Available with relative thermal indices (RTI) up to 180 °C
STRENGTH AND STIFFNESS
Outstanding mechanical performance when compared to other amorphous thermoplastic resins among the available alternatives, with predictable stiffness and strength up to 200 °C. Unfilled, transparent grades are equal in strength to other thermoplastics with opacifying fillers.
DIMENSIONAL STABILITY
Among the most dimensionally stable thermoplastics available, offering predictability over a wide temperature range. Filled grades offer exceptionally high-tolerance dimensional capabilities.
ENVIRONMENTAL STRESS & CRACKING RESISTANCE
Unlike most other amorphous thermoplastics, ULTEM resins retain strength and resist stress cracking when exposed to automotive and aircraft fluids, aliphatic hydrocarbons, alcohols, acids, and weak aqueous solutions.
FLAMMABILITY, SMOKE GENERATION AND TOXICITY
Inherent flame resistance without additives in most grades - exceptionally difficult to ignite, with a limiting oxygen index (LOI) of 47%, meeting UL94 V0 specifications in sections as thin as 0.41 mm. Generates extremely low smoke per the NBS smoke evolution test, with products of combustion no more toxic than those of wood.
PROCESSABILITY
Can be extruded, thermoformed, extrusion blow molded and injection molded, and flowability permits long flow lengths down to 0.2mm thick using conventional injection molding equipment.
SUSTAINABILITY
A portfolio of ISCC+ certified renewable bio-based ULTEM™ resins offers sustainability benefits while delivering exactly the same high performance and processability as incumbent ULTEM materials. Using a mass balance approach, for every 100 kg of ULTEM resin produced, SABIC replaces 25.5 kg of fossil-based feedstocks with bio-based materials derived from waste or residue, such as crude tall oil from the wood industry.
1000
ULTEM 1000 resin is an amorphous, transparent polyetherimide (PEI) plastic offering a glass transition temperature (Tg) of 217°C. This inherently flame retardant resin has UL94 V0, V2 and 5VA ratings and is RoHS compliant. ULTEM 1000 resin is an unreinforced general purpose grade offering high heat resistance, high strength and modulus and broad chemical resistance up to high temperatures.EuropeAsiaAmericas
PROPERTIES		TYPICAL VALUES	UNITS	TEST METHODS
FLAME CHARACTERISTICS	1)
UL Yellow Card Link		E121562-101048254	-	-
UL Recognized, 94-5VA Flame Class Rating		≥3	mm	UL 94
UL Recognized, 94V-0 Flame Class Rating		≥0.75	mm	UL 94
UL Recognized, 94V-2 Flame Class Rating		≥0.4	mm	UL 94
UV-light, water exposure/immersion		F2	-	UL 746C
Oxygen Index (LOI)		47	%	ASTM D2863
Oxygen Index (LOI)		47	%	ISO 4589
Glow Wire Flammability Index 960°C, passes at	5)	3.2	mm	IEC 60695-2-12
NBS Smoke Density, Flaming, Ds 4 min		0.7	-	ASTM E662
INJECTION MOLDING	2)
Drying Temperature		150	°C
Drying Time		4月6日	Hrs
Drying Time (Cumulative)		24	Hrs
Maximum Moisture Content		0.02	%
Melt Temperature		350-410	°C
Nozzle Temperature		345-405	°C
Front - Zone 3 Temperature		345-415	°C
Middle - Zone 2 Temperature		340-405	°C
Rear - Zone 1 Temperature		330-400	°C
Mold Temperature		135-180	°C
Back Pressure		0.3-0.7	MPa
Screw speed (Circumferential speed)		0.2-0.3	m/s
Shot to Cylinder Size		40-60	%
Vent Depth		0.025-0.076	mm
ELECTRICAL	3)
Volume Resistivity		1.00E+15	Ω.cm	IEC 60093
Surface Resistivity, ROA		>1.E+15	Ω	IEC 60093
Dielectric Strength, in oil, 0.8 mm		33	kV/mm	IEC 60243-1
Dielectric Strength, in oil, 1.6 mm		25	kV/mm	IEC 60243-1
Dielectric Strength, in oil, 3.2 mm		16	kV/mm	IEC 60243-1
Relative Permittivity, 1 MHz		2.9	-	IEC 60250
Dissipation Factor, 1 MHz		0.006	-	IEC 60250
Relative Permittivity, 50/60 Hz		2.9	-	IEC 60250
Dissipation Factor, 50/60 Hz		0.0005	-	IEC 60250
Dielectric Constant	6)
at 1.1 GHz		3.01	-	-
at 5 GHz		3.02	-	-
at 10 GHz		3.02	-	-
Dissipation Factor	6)
at 1.1 GHz		0.0012	-	-
at 5 GHz		0.0024	-	-
at 10 GHz		0.0027	-	-
Comparative Tracking Index	5)	150	V	IEC 60112
Comparative Tracking Index, M	5)	100	V	IEC 60112
Volume Resistivity		1.00E+17	Ω.cm	ASTM D257
Dielectric Strength, in air, 1.6 mm		32.7	kV/mm	ASTM D149
Dielectric Strength, in oil, 1.6 mm		28	kV/mm	ASTM D149
Dielectric Strength, in oil, 3.2 mm		19.7	kV/mm	ASTM D149
Relative Permittivity, 100 Hz		3.15	-	ASTM D150
Dissipation Factor, 100 Hz		0.0015	-	ASTM D150
Relative Permittivity, 1 kHz		3.15	-	ASTM D150
Dissipation Factor, 1 kHz		0.0012	-	ASTM D150
Comparative Tracking Index (UL) {PLC}	1)	4	PLC Code	UL 746A
Hot-Wire Ignition (HWI), PLC 1	1)	≥3	mm	UL 746A
Hot-Wire Ignition (HWI), PLC 2	1)	≥0.75	mm	UL 746A
High Amp Arc Ignition (HAI), PLC 3	1)	≥3	mm	UL 746A
High Amp Arc Ignition (HAI), PLC 4	1)	≥0.75	mm	UL 746A
High Voltage Arc Track Rate {PLC}	1)	2	PLC Code	UL 746A
Arc Resistance, Tungsten {PLC}	1)	5	PLC Code	ASTM D495
PHYSICAL	3)
Density		1.27	g/cm³	ISO 1183
Moisture Absorption, (23°C/50% RH/24hrs)		0.2	%	ISO 62-4
Moisture Absorption, (23°C/50% RH/Equilibrium)		0.7	%	ISO 62-4
Water Absorption, (23°C/24hrs)		0.25	%	ISO 62-1
Water Absorption, (23°C/saturated)		1.25	%	ISO 62-1
Melt Volume Rate, MVR at 360°C/5.0 kg		13	cm³/10 min	ISO 1133
Specific Gravity		1.27	-	ASTM D792
Water Absorption, (23°C/24hrs)		0.25	%	ASTM D570
Water Absorption, (23°C/Saturated)		1.25	%	ASTM D570
Melt Flow Rate, 337°C/6.6 kgf		9	g/10 min	ASTM D1238
Poisson's Ratio		0.36	-	ASTM E132
Mold Shrinkage, flow, 3.2 mm	4)	0.5-0.7	%	SABIC method
Mold Shrinkage, xflow, 3.2 mm	4)	0.5-0.7	%	SABIC method
THERMAL	3)
HDT/Bf, 0.45 MPa Flatw 80104 sp=64mm		209	°C	ISO 75/Bf
HDT/Af, 1.8 MPa Flatw 80104 sp=64mm		192	°C	ISO 75/Af
Vicat Softening Temp, Rate A/50		215	°C	ISO 306
Vicat Softening Temp, Rate B/50		211	°C	ISO 306
Vicat Softening Temp, Rate B/120		212	°C	ISO 306
CTE, -40°C to 150°C, flow		5.20E-05	1/°C	ISO 11359-2
CTE, -40°C to 150°C, xflow		5.20E-05	1/°C	ISO 11359-2
Ball Pressure Test, 125°C +/- 2°C		PASS	-	IEC 60695-10-2
Thermal Conductivity		0.22	W/m-°C	ISO 8302
HDT, 0.45 MPa, 6.4 mm, unannealed		210	°C	ASTM D648
HDT, 1.82 MPa, 6.4 mm, unannealed		201	°C	ASTM D648
HDT, 0.45 MPa, 3.2 mm, unannealed		207	°C	ASTM D648
HDT, 1.82 MPa, 3.2mm, unannealed		190	°C	ASTM D648
Vicat Softening Temp, Rate B/50		211	°C	ASTM D1525
CTE, -20°C to 150°C, flow		5.20E-05	1/°C	ASTM E831
CTE, -20°C to 150°C, xflow		5.20E-05	1/°C	ASTM E831
Thermal Conductivity		0.22	W/m-°C	ASTM C177
Relative Temp Index, Elec	1)	170	°C	UL 746B
Relative Temp Index, Mech w/impact	1)	170	°C	UL 746B
Relative Temp Index, Mech w/o impact	1)	170	°C	UL 746B
IMPACT	3)
Izod Impact, unnotched 80104 +23°C		NB	kJ/m²	ISO 180/1U
Izod Impact, unnotched 80104 -30°C		NB	kJ/m²	ISO 180/1U
Izod Impact, notched 80104 +23°C		6	kJ/m²	ISO 180/1A
Izod Impact, notched 80104 -30°C		6	kJ/m²	ISO 180/1A
Charpy 23°C, V-notch Edgew 80104 sp=62mm		4	kJ/m²	ISO 179/1eA
Charpy -30°C, V-notch Edgew 80104 sp=62mm		4	kJ/m²	ISO 179/1eA
Izod Impact, unnotched, 23°C		1800	J/m	ASTM D4812
Izod Impact, unnotched, -30°C		1540	J/m	ASTM D4812
Izod Impact, notched, 23°C		53	J/m	ASTM D256
Izod Impact, notched, -30°C		50	J/m	ASTM D256
Izod Impact, Reverse Notched, 3.2 mm		1335	J/m	ASTM D256
Gardner, 23°C		36	J	ASTM D3029
MECHANICAL	3)
Tensile Stress, yield, 50 mm/min		110	MPa	ISO 527
Tensile Strain, yield, 50 mm/min		6	%	ISO 527
Tensile Strain, break, 50 mm/min		50	%	ISO 527
Tensile Modulus, 1 mm/min		3200	MPa	ISO 527
Flexural Stress, yield, 2 mm/min		160	MPa	ISO 178
Flexural Modulus, 2 mm/min		3300	MPa	ISO 178
Ball Indentation Hardness, H358/30		140	MPa	ISO 2039-1
Hardness, Rockwell M		106	-	ISO 2039-2
Tensile Stress, yld, Type I, 50 mm/min		115	MPa	ASTM D638
Tensile Strain, yld, Type I, 50 mm/min		7	%	ASTM D638
Tensile Strain, brk, Type I, 50 mm/min		60	%	ASTM D638
Tensile Stress, yld, Type I, 5 mm/min		110	MPa	ASTM D638
Tensile Strain, yld, Type I, 5 mm/min		7	%	ASTM D638
Tensile Strain, brk, Type I, 5 mm/min		60	%	ASTM D638
Tensile Modulus, 5 mm/min		3350	MPa	ASTM D638
Flexural Stress, yld, 1.3 mm/min, 50 mm span		165	MPa	ASTM D790
Flexural Modulus, 1.3 mm/min, 50 mm span		3200	MPa	ASTM D790
Flexural Stress, yld, 2.6 mm/min, 100 mm span		160	MPa	ASTM D790
Flexural Modulus, 2.6 mm/min, 100 mm span		3400	MPa	ASTM D790
Hardness, Rockwell M		109	-	ASTM D785
Taber Abrasion, CS-17, 1 kg		10	mg/1000cy	ASTM D1044
EXTRUSION BLOW MOLDING
Drying Temperature		140-150	°C
Drying Time		4月6日	Hrs
Drying Time (Cumulative)		24	Hrs
Maximum Moisture Content		0.01-0.02	%
Melt Temperature (Parison)		320-355	°C
Barrel - Zone 1 Temperature		325-350	°C
Barrel - Zone 2 Temperature		330-355	°C
Barrel - Zone 3 Temperature		330-355	°C
Barrel - Zone 4 Temperature		330-355	°C
Adapter - Zone 5 Temperature		330-355	°C
Head - Zone 6 - Top Temperature		330-355	°C
Head - Zone 7 - Bottom Temperature		330-355	°C
Screw Speed		10-70	rpm
Mold Temperature		65-175	°C
Die Temperature		325-355	°C
1000FC
ULTEM 1000FC resin is an amorphous, transparent polyetherimide (PEI) plastic offering a glass transition temperature (Tg) of 217?C. This inherently flame retardant resin has UL94 V0, V2 and 5VA ratings and is RoHS compliant. ULTEM 1000FC resin is an unreinforced general purpose grade offering high heat resistance, high strength and modulus and broad chemical resistance up to high temperatures. This grade is US FDA and EU Food Contact compliant and has NSF51 listing for selected colors.Europe
1010
ULTEM 1010 resin is an amorphous, transparent polyetherimide (PEI) plastic offering enhanced flow and a glass transition temperature (Tg) of 217°C. This inherently flame retarant resin has UL94 V0 and 5VA ratings. ULTEM 1010 resin is an unreinforced general purpose grade offering high heat resistance, high strength and modulus and broad chemical resistance up to high temperatures.EuropeAsiaAmericas
PROPERTIES		TYPICAL VALUES	UNITS	TEST METHODS
FLAME CHARACTERISTICS	1)
UL Yellow Card Link		E121562-101048269	-	-
UL Recognized, 94-5VA Flame Class Rating		≥3	mm	UL 94
UL Recognized, 94V-0 Flame Class Rating		≥0.75	mm	UL 94
UL Recognized, 94V-2 Flame Class Rating		≥0.4	mm	UL 94
Oxygen Index (LOI)		44	%	ASTM D2863
Oxygen Index (LOI)		47	%	ISO 4589
NBS Smoke Density, Flaming, Ds 4 min		2	-	ASTM E662
Glow Wire Flammability Index 960°C, passes at	6)	3.2	mm	IEC 60695-2-12
MECHANICAL	2)
Tensile Stress, yield, 50 mm/min		110	MPa	ISO 527
Tensile Strain, yield, 50 mm/min		6	%	ISO 527
Tensile Strain, break, 50 mm/min		50	%	ISO 527
Tensile Modulus, 1 mm/min		3200	MPa	ISO 527
Flexural Stress, yield, 2 mm/min		160	MPa	ISO 178
Flexural Modulus, 2 mm/min		3300	MPa	ISO 178
Ball Indentation Hardness, H358/30		140	MPa	ISO 2039-1
Hardness, Rockwell M		106	-	ISO 2039-2
Tensile Stress, yld, Type I, 50 mm/min		115	MPa	ASTM D638
Tensile Strain, yld, Type I, 50 mm/min		7	%	ASTM D638
Tensile Strain, brk, Type I, 50 mm/min		60	%	ASTM D638
Tensile Stress, yld, Type I, 5 mm/min		110	MPa	ASTM D638
Tensile Strain, yld, Type I, 5 mm/min		7	%	ASTM D638
Tensile Strain, brk, Type I, 5 mm/min		60	%	ASTM D638
Tensile Modulus, 5 mm/min		3350	MPa	ASTM D638
Flexural Stress, yld, 1.3 mm/min, 50 mm span		165	MPa	ASTM D790
Flexural Modulus, 1.3 mm/min, 50 mm span		3200	MPa	ASTM D790
Flexural Stress, yld, 2.6 mm/min, 100 mm span		160	MPa	ASTM D790
Flexural Modulus, 2.6 mm/min, 100 mm span		3400	MPa	ASTM D790
Hardness, Rockwell M		109	-	ASTM D785
Taber Abrasion, CS-17, 1 kg		10	mg/1000cy	ASTM D1044
IMPACT	2)
Izod Impact, unnotched 80104 +23°C		NB	kJ/m²	ISO 180/1U
Izod Impact, unnotched 80104 -30°C		NB	kJ/m²	ISO 180/1U
Izod Impact, notched 80104 +23°C		5	kJ/m²	ISO 180/1A
Izod Impact, notched 80104 -30°C		5	kJ/m²	ISO 180/1A
Charpy 23°C, V-notch Edgew 80104 sp=62mm		4	kJ/m²	ISO 179/1eA
Charpy -30°C, V-notch Edgew 80104 sp=62mm		4	kJ/m²	ISO 179/1eA
Izod Impact, unnotched, 23°C		1600	J/m	ASTM D4812
Izod Impact, unnotched, -30°C		1500	J/m	ASTM D4812
Izod Impact, notched, 23°C		32	J/m	ASTM D256
Izod Impact, notched, -30°C		41	J/m	ASTM D256
Izod Impact, Reverse Notched, 3.2 mm		1174	J/m	ASTM D256
Gardner, 23°C		33	J	SABIC method
THERMAL	2)
HDT/Bf, 0.45 MPa Flatw 80104 sp=64mm		209	°C	ISO 75/Bf
HDT/Af, 1.8 MPa Flatw 80104 sp=64mm		192	°C	ISO 75/Af
Vicat Softening Temp, Rate A/50		215	°C	ISO 306
Vicat Softening Temp, Rate B/50		211	°C	ISO 306
Vicat Softening Temp, Rate B/120		212	°C	ISO 306
CTE, -40°C to 150°C, flow		5.20E-05	1/°C	ISO 11359-2
CTE, -40°C to 150°C, xflow		5.20E-05	1/°C	ISO 11359-2
Ball Pressure Test, 125°C +/- 2°C		PASS	-	IEC 60695-10-2
Thermal Conductivity		0.22	W/m-°C	ISO 8302
HDT, 0.45 MPa, 6.4 mm, unannealed		210	°C	ASTM D648
HDT, 1.82 MPa, 6.4 mm, unannealed		201	°C	ASTM D648
HDT, 0.45 MPa, 3.2 mm, unannealed		207	°C	ASTM D648
HDT, 1.82 MPa, 3.2mm, unannealed		190	°C	ASTM D648
Vicat Softening Temp, Rate B/50		211	°C	ASTM D1525
CTE, -20°C to 150°C, flow		5.20E-05	1/°C	ASTM E831
CTE, -20°C to 150°C, xflow		5.20E-05	1/°C	ASTM E831
Thermal Conductivity		0.22	W/m-°C	ASTM C177
Relative Temp Index, Elec		170	°C	UL 746B
Relative Temp Index, Mech w/impact		170	°C	UL 746B
Relative Temp Index, Mech w/o impact		170	°C	UL 746B
PHYSICAL	2)
Density		1.27	g/cm³	ISO 1183
Moisture Absorption, (23°C/50% RH/24hrs)		0.2	%	ISO 62-4
Moisture Absorption, (23°C/50% RH/Equilibrium)		0.7	%	ISO 62-4
Water Absorption, (23°C/24hrs)		0.25	%	ISO 62-1
Water Absorption, (23°C/saturated)		1.25	%	ISO 62-1
Melt Volume Rate, MVR at 360°C/5.0 kg		25	cm³/10 min	ISO 1133
Melt Volume Rate, MVR at 340°C/5.0 kg		13	cm³/10 min	ISO 1133
Specific Gravity		1.27	-	ASTM D792
Water Absorption, (23°C/24hrs)		0.25	%	ASTM D570
Water Absorption, (23°C/Saturated)		1.25	%	ASTM D570
Melt Flow Rate, 337°C/6.6 kgf		17.8	g/10 min	ASTM D1238
Poisson's Ratio		0.36	-	ASTM E132
Mold Shrinkage, flow, 3.2 mm	4)	0.5-0.7	%	SABIC method
Mold Shrinkage, xflow, 3.2 mm	4)	0.5-0.7	%	SABIC method
ELECTRICAL	2)
Volume Resistivity		1.00E+15	Ω.cm	IEC 60093
Surface Resistivity, ROA		>1.E+15	Ω	IEC 60093
Dielectric Strength, in oil, 0.8 mm		33	kV/mm	IEC 60243-1
Dielectric Strength, in oil, 1.6 mm		25	kV/mm	IEC 60243-1
Dielectric Strength, in oil, 3.2 mm		16	kV/mm	IEC 60243-1
Relative Permittivity, 1 MHz		2.9	-	IEC 60250
Dissipation Factor, 1 MHz		0.006	-	IEC 60250
Relative Permittivity, 50/60 Hz		2.9	-	IEC 60250
Dissipation Factor, 50/60 Hz		0.0005	-	IEC 60250
Dielectric Constant	5)
at 1.1 GHz		3.01	-	-
at 5 GHz		3.02	-	-
at 10 GHz		3.02	-	-
Dissipation Factor	5)
at 1.1 GHz		0.0012	-	-
at 5 GHz		0.0024	-	-
at 10 GHz		0.0027	-	-
Comparative Tracking Index		150	V	IEC 60112
Comparative Tracking Index, M		100	V	IEC 60112
Volume Resistivity		1.00E+17	Ω.cm	ASTM D257
Dielectric Strength, in air, 1.6 mm		32.7	kV/mm	ASTM D149
Dielectric Strength, in oil, 1.6 mm		28	kV/mm	ASTM D149
Dielectric Strength, in oil, 3.2 mm		19.7	kV/mm	ASTM D149
Relative Permittivity, 100 Hz		3.15	-	ASTM D150
Dissipation Factor, 100 Hz		0.0015	-	ASTM D150
Relative Permittivity, 1 kHz		3.15	-	ASTM D150
Dissipation Factor, 1 kHz		0.0012	-	ASTM D150
Comparative Tracking Index (UL) {PLC}		4	PLC Code	UL 746A
Hot-Wire Ignition (HWI), PLC 1		≥3	mm	UL 746A
Hot-Wire Ignition (HWI), PLC 2		≥0.75	mm	UL 746A
High Amp Arc Ignition (HAI), PLC 3		≥3	mm	UL 746A
High Amp Arc Ignition (HAI), PLC 4		≥0.75	mm	UL 746A
High Voltage Arc Track Rate {PLC}		2	PLC Code	UL 746A
Arc Resistance, Tungsten {PLC}		5	PLC Code	ASTM D495
INJECTION MOLDING	3)
Drying Temperature		150	°C
Drying Time		4月6日	Hrs
Drying Time (Cumulative)		24	Hrs
Maximum Moisture Content		0.02	%
Melt Temperature		350-410	°C
Nozzle Temperature		345-405	°C
Front - Zone 3 Temperature		345-415	°C
Middle - Zone 2 Temperature		340-405	°C
Rear - Zone 1 Temperature		330-400	°C
Mold Temperature		135-180	°C
Back Pressure		0.3-0.7	MPa
Screw speed (Circumferential speed)		0.2-0.3	m/s
Shot to Cylinder Size		40-60	%
Vent Depth		0.025-0.076	mm
EXTRUSION BLOW MOLDING
Drying Temperature		140-150	°C
Drying Time		4月6日	Hrs
Drying Time (Cumulative)		24	Hrs
Maximum Moisture Content		0.01-0.02	%
Melt Temperature (Parison)		320-355	°C
Barrel - Zone 1 Temperature		325-350	°C
Barrel - Zone 2 Temperature		330-355	°C
Barrel - Zone 3 Temperature		330-355	°C
Barrel - Zone 4 Temperature		330-355	°C
Adapter - Zone 5 Temperature		330-355	°C
Head - Zone 6 - Top Temperature		330-355	°C
Head - Zone 7 - Bottom Temperature		330-355	°C
Screw Speed		10-70	rpm
Mold Temperature		65-175	°C
Die Temperature		325-355	°C

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