Exxon HyJet IV-A plus is a fire-resistant phosphate ester hydraulic fluid designed for use in commercial aircraft. It is the best-performing Type IV fluid and approaches to a great extent many of the performance capabilities of Type V fluids, including high temperature stability, long fluid life, low density, and rust protection. It is superior to all other Type IV fluids in these respects. Exxon HyJet IV-A plus meets the specifications of all major aircraft manufacturers and SAE AS1241 |
Features | Advantages and Potential Benefits |
---|---|
Best in high temperature stability among Type IV fluids | Longer fluid life. Lesser need to replace fluid due to degradation. Reduced hydraulic system maintenance costs |
Lowest density Type IV fluid | Reduced weight of the hydraulic fluid carried by aircraft. Reduced aircraft fuel consumption, lower operating costs |
Effective rust protection | Reduced the risk of equipment damage in the event of major water contamination |
Excellent low temperature flow (viscosity) properties | Precise hydraulic system control and response even during extended range/polar flights. Longer equipment life |
Excellent deposit control | Longer equipment life. Reduced maintenance costs |
Excellent protection against electro-chemical corrosion (erosion) | Protection against servo valve and pump damage |
Approved by all major aircraft manufacturers | Use as fleet lubricant by airline operators |
Fully compatible with all approved phosphate ester hydraulic fluids | Flexibility in use by airline operators |
HyJet IV-A plus | Meets Type lV, Low desnsity | Is in Qualified products List |
---|---|---|
SAE Aerospace Standard AS1241C | X | Not Applicable |
Airbus NSA307110N | X | X |
ATR NSA307110N | X | X |
Boeing BMS 3-11P, Type IV, Class 1 and Type V, Grade B and Grade C Â | X | X |
Boeing (Douglas Division) DMS 2014H | X | X |
British Aerospace (Avro) BAC.M.333C | X | X |
Bombardier/Canadair BAMS 564-003A | X | X |
Bombardier/DeHavilland | X | X |
Cessna | X | X |
Embraer | X | X |
Fokker | X | X |
Gulfstream Aerospace 1159SCH302J | X | X |
Lockheed C-34-1224C | X | X |
Test Method | HyJet IV-A plus (1) | Limits | |
Kinematic Viscosity, cSt | ASTM D 445 | ||
at -53.9ºC (-65ºF) | 1320 | 2000 max | |
at -26.1ºC (-15ºF) | 130 | 135 max | |
at 37.8ºC (100ºF) | 10.6 | 10.0 -11.0 | |
at 98.9ºC (210ºF) | 3.6 | 3.35 - 3.75 | |
at 127.6ºC (260ºF) | 2.6 | 1.5 min | |
Viscosity Index | ASTM D 2270 | 280 | |
Shear Stability, % Viscosity Drop at 40ºC | ASTM D 5621 | 22 | |
Pour Point, ºC (ºF) | ASTM D 97 | ‹-62 (-80) | -62 (-80) max |
Specific Gravity at 25ºC/25ºC (77ºF/77ºF) | ASTM D 4052 | 0.996 | 0.990 -1.002 |
Density at 15.6ºC (60ºF), g/mL (lb/gal) | ASTM D 4052 | 0.999 (8.35) | |
Acid Number, mg KOH/g | ASTM D 974 | 0.04 | 0.1 max |
Water, Karl Fischer, mass % | ASTM D 6304 | 0.1 | 0.2 max |
Flammability | |||
Flash Point, ºC (ºF) | ASTM D 92 | 176 (349) | 160 (320) min |
Fire Point, ºC (ºF) | ASTM D 92 | 188 (370) | 177 (350) min |
Autoignition Point, ºC (ºF) | ASTM D 2155 | ›427 (800) | 400 (752) min |
Foaming Tendency/Stability, mL foam/sec to collapse | ASTM D 892 | ||
Sequence I | 27/15 | 250/100 max | |
Sequence Il | 23/13 | 150/50 max | |
Sequence Ill | 28/16 | 450/250 max | |
Particle Count, NAS 1638 Class | Auto Counter | 4 | 7 max |
Chemical Elements, ppm | |||
Calcium | 103 | 120 max | |
Potassium | 38 | 48 max | |
Chlorine | 10 | 50 max | |
Sodium | 1 | 15 max | |
Sulfur | 224 | 350 max | |
Four-Ball Wear, Scar diameter at 75ºC/600rpm/1hour, mm | Modified ASTM D 4172 | ||
4 kg | 0.22 | 0.45 max | |
10 kg | 0.33 | 0.50 max | |
40 kg | 0.73 | 0.55 – 0.85 | |
Electrical Conductivity at 20ºC, microSiemens/cm | 1.4 | 0.5 min | |
Bulk Modulus, Isothermal secant at 100ºF/3000 psi, psi | 210,000 | ||
Thermal Conductivity at 40ºC, cal/sec/cm2/ºC (Btu/hr/ft2/ºF) | 33x10^-5 (0.0799) | ||
Coefficient of Thermal Expansion, 25 to 100ºC, per ºC (per ºF) | 0.00086 (0.00048) | ||
Specific Heat Capacity at 40 ºC, cal/g/ºC (same as Btu/lb/ºF) | 0.41 |
Please note, Aircraft Spruce Australia's personnel are not certified aircraft mechanics and can only provide general support and ideas, which should not be relied upon or implemented in lieu of consulting an A&P or other qualified technician. Aircraft Spruce Australia assumes no responsibility or liability for any issue or problem which may arise from any repair, modification or other work done from this knowledge base. Any product eligibility information provided here is based on general application guides and we recommend always referring to your specific aircraft parts manual, the parts manufacturer or consulting with a qualified mechanic.
Shelf life: 10 years in quarts/gallons; 5 years in pails/drums.