Synthetic Multi-Viscosity Hydraulic Oil is formulated with varnish-control technology to keep hydraulic systems cleaner for long life and reliable
operation. It resists breakdown in the presence of heat while remaining fluid when cold to keep valves, pumps, servos and other components clean, protected and long-lasting. Synthetic Multi-Viscosity Hydraulic Oil is the perfect solution to the common problems that plague hydraulic applications, helping you save money.
Package sizes include:
5-Gallon Pail
55-Gallon Drum
275-Gallon Tote
The correct viscosity grade of AMSOIL Synthetic Multi-Viscosity Hydraulic Oil is recommended for high- and low-pressure gear, vane and piston stationary and mobile hydraulic systems, including those with bronze metallurgy. It is recommended for all types of applications requiring the following industry and equipment specifications:
Stock Code | HVG | HVH | HJI | HVJ |
Parker Hannifin (Denison) HF-0, HF-1, HF-2 | X | X | X | |
Vickers I-286-S, M-2950-S | X | X | X | |
DIN 51524 Parts 2 & 3 | X | X | X | |
Cincinnati Milacron P-68 | X | |||
Cincinnati Milacron P-70 | X | |||
Cincinnati Milacron P-69 | X |
Maximum Cleanliness: Synthetic Multi-Viscosity Hydraulic Oil is fortified with anti-varnish additives that chemically react with the building blocks of varnish, inhibiting its formation. It helps hydraulic systems remain clean for solid performance, immediate response and fewer breakdowns.
Multi-Viscosity Hydraulic Oil's naturally heat-resistant base oils resist thermal break-down and maintain their protective viscosity, allowing formation of a strong
lubricating film for excellent wear protection. Because it doesn't contain the waxes inherent to conventional fluids, it flows more readily in cold temperatures, meaning bearings and other components receive almost immediate lubrication at start up, reducing long-term wear and instances of pressure spikes and erratic operation as a result of poor fluidity.
• All-season performance
• Maintains cleanliness
• Promotes maximum fluid life
• Resists foam
• Maximizes energy efficiency
Increased heat can cause varnish to form on metal surfaces, including valves, pumps and bearings. Its soft, sticky composition ultimately hardens into a harmful veneer that can reduce fluid flow, plug filters, stick valves and increase friction. Synthetic Multi-Viscosity Hydraulic Oil is fortified with anti-varnish additives that chemically react with the building blocks of varnish, inhibiting its formation. It helps hydraulic systems
remain clean and long-lasting.
• Increases convenience and reduces costs due to all-season performance
• Formulated to reduce maintenance costs with anti-wear and anti-varnish chemistry
• Promotes maximum fluid life by resisting viscosity loss and chemical breakdown
• Designed to increase system performance and responsiveness through foam suppression and fast air-release properties
• Helps reduce energy costs due to high-viscosity-index, energy-efficient formulation
Synthetic Multi-Viscosity Hydraulic Oil features a shear-stable formulation fortified with the latest zinc-type anti-wear additives. It meets the stringent viscosity-retention requirements of Parker Hannifin* (Denison*) HF-0 and demonstrates excellent anti-wear performance and compatibility with yellow metals in standardized laboratory and pump manufacturer tests (see below). Synthetic Multi-Viscosity Hydraulic Oil demonstrates excellent protection for pumps, motors, valves and other components against wear.
This product is not expected to cause health concerns when used for the intended application and according to the recommendations in the Material Safety Data Sheet (MSDS).
Click here to view the MSDS Data Sheet for AMSOIL HVJ.
Keep out of the reach of children. Don't pollute. Return used oil to collection centers.
Typical Technical Properties | ||||
Synthetic HV Hydraulic Oil | HVG ISO 22 | HVH ISO 32 | HVI ISO 46 | HVJ ISO 68 |
ISO VG (ASTM D 2422) | 22 | 32 | 46 | 68 |
Kinematic Viscosity @100°C cSt (ASTM D 445) | 5.2 | 6.5 | 8.5 | 11.2 |
Kinematic Viscosity @40°C cSt (ASTM D 445) | 23.6 | 31.8 | 46.7 | 68.5 |
Viscosity Index (ASTM D 2270) | 161 | 165 | 161 | 155 |
Flash Point °C (°F) (ASTM D 92) | 228 (442) | 224 (435) | 246 (475) | 252 (486) |
Fire Point °C (°F) (ASTM D 92) | 242 (468) | 246 (475) | 266 (511) | 270 (518) |
Pour Point °C (°F) (ASTM D 97) | -49 (-56) | -46 (-51) | -44 (-47) | -41 (-42) |
Four-Ball Wear Test (ASTM D 4172B) (40 kg, 1200 rpm, 75° C, 60 min.) | 0.42 | 0.42 | 0.41 | 0.41 |
Copper Strip Corrosion Test 100°C, 3 hrs. (ASTM D 130) | 1A | 1A | 1A | 1A |
Foam (ASTM D 892, Sequence I, II & III) | 0/0, 10/0, 0/0 | 0/0, 10/0, 0/0 | 0/0, 10/0, 0/0 | 0/0, 35/0, 0/0 |
Demulsibility (ASTM D 1401) | 40-40-0 (20) | 40-40-0 (25) | 40-40-0 (20) | 40-40-0 (20) |
Dielectric Strength (ASTM D877) Voltage, kV AC | 47 | 45 | 44 | 45 |
Seal Tests Elastomer SRE-NBR 1, 100°C, 168 hrs. (ASTM D 471) | Pass | Pass | Pass | Pass |
Rust Testing Distilled and Salt Water (ASTM D 665A & B) | Pass | Pass | Pass | Pass |
KRL Shear Test, 15% Max KV loss, Stay-in-Grade | Pass | Pass | Pass | Pass |