Hexcel® HiFlow® 1078-1 Bi-component Epoxy System

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Hexcel® HiFlow® 1078-1 Bi-component Epoxy System
Categories:	Polymer; Thermoset; Epoxy
Material Notes:	Description: HiFlow® 1078-1 is an aerospace bi-component resin system with liquid Part A & Part B specially developed for Liquid Composite Molding technologies, such as LRI and RTM. Delivered as two component system, HiFlow® 1078-1 provides several benefits over a mono-component resin: air shipment is allowed, storage at 23± 5°C for 12 months and larger packages are possible. HiFlow® 1078-1 Part A:B mixing ratio by weight is 100 : 63. HiFlow® 1078-1 presents services temperatures from -60°C up to 120°C with greater toughness, Tg stability and cycle processing flexibility making it ideal for primary and secondary aerospace structures. Long injection windows due to HiFlow® 1078-1 low viscosity are also easily reached, facilitating large parts manufacturing. HiFlow® 1078-1 resin can be used in combination with HexForce®, HiTape® & HiMax® reinforcements. HiFlow® 1078-1 is fully compatible with Hexcel binders and veils. They provide easy preforming properties and reinforcement dimensional stability. Advantages High glass transition temperatures: dry1: Tg> 200°C; wet2: Tg> 170°C Low moisture absorption: 1,0 – 2,0% < 100mPa.s at process temperatures Toughened system Liquid Part A & Part B at room temperature Longer shelf life (12 months at RT), as bicomponent system Information provided by Hexcel Corporation.
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Physical Properties	Original Value	Comments

Density	1.12 g/cc
Moisture Absorption	1.00 - 2.00 %
Viscosity	9.00 cP @Temperature 180 °C	3°C/min
	10.0 cP @Temperature 175 °C	2°C/min
	12.0 cP @Temperature 150 °C	1°C/min
	20.0 cP @Temperature 140 °C	0.5°C/min
	10000 cP @Temperature 48.0 °C	0.5°C/min
	10000 cP @Temperature 152 °C	0.5°C/min
	10000 cP @Temperature 48.0 °C	1°C/min
	10000 cP @Temperature 175 °C	1°C/min
	10000 cP @Temperature 48.0 °C	2°C/min
	10000 cP @Temperature 197 °C	2°C/min
	10000 cP @Temperature 48.0 °C	3°C/min
	10000 cP @Temperature 210 °C	3°C/min

Mechanical Properties	Original Value	Comments
Tensile Strength, Ultimate	30.0 MPa @Temperature 120 °C	Wet; ASTM D638
	55.0 MPa @Temperature 120 °C	Dry; ASTM D638
	70.0 MPa @Temperature 23.0 °C	Wet; ASTM D638
	90.0 MPa @Temperature 23.0 °C	Dry; ASTM D638
Tensile Modulus	1.70 GPa @Temperature 120 °C	Wet; ASTM D638
	2.30 GPa @Temperature 120 °C	Dry; ASTM D638
	2.80 GPa @Temperature 23.0 °C	Wet; ASTM D638
	3.00 GPa @Temperature 23.0 °C	Dry; ASTM D638
Compressive Yield Strength	60.0 MPa @Temperature 120 °C	Wet; ASTM D695
	80.0 MPa @Temperature 120 °C	Dry; ASTM D695
	120 MPa @Temperature 23.0 °C	Wet; ASTM D695
	130 MPa @Temperature 23.0 °C	Dry; ASTM D695
Compressive Strength	240 MPa	after 30J impact; ASTM D7136/ D7137
	250 MPa	after 15J impact; ASTM D7136/ D7137
	435 MPa @Temperature 115 - 125 °C	0°, Ultimate, Wet; EN2850A1
	490 MPa @Temperature 115 - 125 °C	0°, Ultimate, Dry; EN2850A1
	620 MPa @Temperature 18.0 - 28.0 °C	0°, Ultimate, Dry; EN2850A1
	625 MPa @Temperature 18.0 - 28.0 °C	0°, Ultimate, Wet; EN2850A1
Compressive Modulus	2400 MPa @Temperature 120 °C	Dry; ASTM D695
	2400 MPa @Temperature 120 °C	Wet; ASTM D695
	2900 MPa @Temperature 23.0 °C	Wet; ASTM D695
	3100 MPa @Temperature 23.0 °C	Dry; ASTM D695
Fracture Toughness	0.637 ksi-in½
Shear Modulus	3.00 GPa @Temperature 115 - 125 °C	In plane, Wet; EN6031
	3.40 GPa @Temperature 115 - 125 °C	In plane, Dry; EN6031
	3.60 GPa @Temperature 85.0 - 95.0 °C	In plane, Wet; EN6031
	3.70 GPa @Temperature 65.0 - 75.0 °C	In plane, Wet; EN6031
	3.90 GPa @Temperature 18.0 - 28.0 °C	In plane, Wet; EN6031
	4.10 GPa @Temperature 18.0 - 28.0 °C	In plane, Dry; EN6031
Shear Strength	65.0 MPa @Temperature 115 - 125 °C	Ultimate, In plane, Wet; EN6031
	80.0 MPa @Temperature 115 - 125 °C	Ultimate, In plane, Dry; EN6031
	80.0 MPa @Temperature 85.0 - 95.0 °C	Ultimate, In plane, Wet; EN6031
	85.0 MPa @Temperature 65.0 - 75.0 °C	Ultimate, In plane, Wet; EN6031
	105 MPa @Temperature 18.0 - 28.0 °C	Ultimate, In plane, Wet; EN6031
	110 MPa @Temperature 18.0 - 28.0 °C	Ultimate, In plane, Dry; EN6031

Thermal Properties	Original Value	Comments
CTE, linear	30.6 µin/in-°F @Temperature -50.0 - 20.0 °C
	38.9 µin/in-°F @Temperature 20.0 - 100 °C
	47.2 µin/in-°F @Temperature 100 - 180 °C
Glass Transition Temp, Tg	-15.0 °C	midpoint
	205 °C	Onset
	245 °C	Peak

Processing Properties	Original Value	Comments
Gel Time	20.0 min @Temperature 180 °C	Time to reach 1000 mPa.s
	20.0 min @Temperature 180 °C	Time to reach 200 mPa.s
	25.0 min @Temperature 180 °C	G’ & G’’ crossover
	25.0 min @Temperature 170 °C	Time to reach 200 mPa.s
	30.0 min @Temperature 170 °C	Time to reach 1000 mPa.s
	35.0 min @Temperature 170 °C	G’ & G’’ crossover
	35.0 min @Temperature 160 °C	Time to reach 200 mPa.s
	40.0 min @Temperature 160 °C	Time to reach 1000 mPa.s
	45.0 min @Temperature 150 °C	Time to reach 200 mPa.s
	50.0 min @Temperature 160 °C	G’ & G’’ crossover
	55.0 min @Temperature 150 °C	Time to reach 1000 mPa.s
	70.0 min @Temperature 140 °C	Time to reach 200 mPa.s
	75.0 min @Temperature 150 °C	G’ & G’’ crossover
	80.0 min @Temperature 140 °C	Time to reach 1000 mPa.s
	95.0 min @Temperature 130 °C	Time to reach 200 mPa.s
	110 min @Temperature 140 °C	G’ & G’’ crossover
	120 min @Temperature 130 °C	Time to reach 1000 mPa.s
	135 min @Temperature 120 °C	Time to reach 200 mPa.s
	165 min @Temperature 130 °C	G’ & G’’ crossover
	170 min @Temperature 120 °C	Time to reach 1000 mPa.s
	200 min @Temperature 110 °C	Time to reach 200 mPa.s
	260 min @Temperature 120 °C	G’ & G’’ crossover
	260 min @Temperature 110 °C	Time to reach 1000 mPa.s
	290 min @Temperature 100 °C	Time to reach 200 mPa.s
	345 min @Temperature 90.0 °C	Time to reach 200 mPa.s
	410 min @Temperature 110 °C	G’ & G’’ crossover
	410 min @Temperature 100 °C	Time to reach 1000 mPa.s
	585 min @Temperature 90.0 °C	Time to reach 1000 mPa.s
	690 min @Temperature 100 °C	G’ & G’’ crossover
	840 min @Temperature 80.0 °C	Time to reach 1000 mPa.s
	>= 900 min @Temperature 70.0 °C	G’ & G’’ crossover
	>= 900 min @Temperature 80.0 °C	G’ & G’’ crossover
	>= 900 min @Temperature 90.0 °C	G’ & G’’ crossover
	>= 900 min @Temperature 70.0 °C	Time to reach 1000 mPa.s
Shelf Life	12.0 Month @Temperature -18.0 °C	After mixing
	12.0 Month @Temperature 25.0 °C	Before mixing

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