14 minute read
Component Showcase
3B Filters, Inc. Email: sales@3bfilters.com Website: 3bfilters.com
T-TYPES AND SPIN ONS FOR HYDRAULIC USE
Keep your system clean and functioning with hydraulic filters from 3B Filters Inc. We offer a variety of filter configurations to fit your system’s needs. Filters provide needed protection from contaminants. Regular maintenance involving filter cleaning and replacement is key to limit downtime and save money on maintenance. Replacement elements are available for all our filter assemblies. We also offer interchanges for OEMs. Contact us to keep your system running clean and contaminant free!
T-TYPE FILTERS HIGHLIGHTS
• Pre-filter or Final-filter • Mounted in any direction • Easy access to replace filter element • 4 Series Options • Up to 40,000 PSI • Flow Rates from 1.5 GPM to 50 GPM • Stainless Steel, Aluminum, Brass, Monel & Custom Construction
SPIN ON FILTERS – Most Popular in Fluid Power HIGHLIGHTS
• Low pressure • High Flow • Easy element replacement • 2 Series Options • Up to 200 PSI • Flow Rates up to 70 GPM • Aluminum and Stainless Steel Construction
GOT PUMPS? GET DRIVES!
Stiebel Pump Drives allow Engineers to create space saving layouts by mounting multiple pumps in a single plane. Our ratio ranges also allow for use of smaller, lower cost or cost effective pumps operating at higher speeds to deliver hydraulics where and when they are needed. Highly responsive, with your application specifications, Stiebel can turn around quotes and application files (drawings and CAD files in pdf, stp, dxf …) within an average of 24-72 hours. Globally, Stiebel is Best-in-Class and the top provider over a range of pump drive configurations. Work with us, and we’ll show you how well your Design, Builds and Logistics can be supported when it comes to Pump Drives.
FIND US ON Best-in-Class globally and the Top Provider over a range of Pump Drive configurations.
COMPONENT SHOWCASE
IMAGINE…A 90% REDUCTION IN RESERVOIR SIZE AND WEIGHT.
Reduction in fluid volume, space claim and weight can save hundreds of dollars per year. The Cyclone Hydraulic Reservoir represents new thinking in the way that reservoirs are designed and configured for both mobile and industrial applications. This modern design significantly reduces the amount of weight, space, and oil required in a hydraulic system. Hydraulic systems are all around us; from the garbage truck in your neighborhood, to the amusement rides at the local festival, to the construction equipment you see working on highways. The lifeblood of a hydraulic system is oil and these machines carry a significant amount of it.
HITACHI FLANGELOCKTM AND CAP KITS AVAILABLE
Part number Part description Applicable machines Number of parts SWINGFLGLCK2062 Swing hose FlangeLockTM kit EX3600, EX5600, EX8000 16 x 2062U - red FlangeLockTM Weight (kg)
6.7
Cyclone Hydraulics is changing the way we design, configure, and use hydraulic oil reservoirs. A traditional hydraulic reservoir should contain 1 to 5 times the amount of oil that the pump can produce in one minute. A 20 gallon per minute (GPM) system may need 20-100 gallons of oil and weigh 250-1200 pounds (including oil) and require a significant space claim. A Cyclone Hydraulic Reservoir can reduce the amount of oil necessary in a hydraulic system by 10-20 times! A 20 GPM system will only need 2 gallons of oil and weigh as little as 30 pounds (including oil) with minimum space claim.
SWINGCAP2062 Swing circuit cap kit EX3600, EX5600, EX8000 16 x 2062 - cap
TRAVELFLGLCK2462 Travel hose FlangeLockTM kit EX3600, EX5600, EX8000 16 x 2462U - purple FlangeLockTM
TRAVELCAP2462 Travel circuit cap kit EX3600, EX5600, EX8000 16 x 2462 - cap FRONTATTFLGLCK326162 Front attachment FlangeLockTM kit EX3600, EX5600, EX8000 14 x 3262U - black FlangeLockTM 4 x 3261U - black & silver FlangeLockTM
FRONTATTCAP326162 Front attachment cap kit EX3600, EX5600, EX8000 14 x 3262 - cap 4 x 3261 - cap BOOMARCHFLGLCK3262 Boom arch hose FlangeLockTM kit EX3600, EX5600, EX8000 20 x 3262U - black FlangeLockTM
(800) 953-9024 | BOOMARCHCAP3262 Boom arch hose cap kit EX3600, EX5600, EX8000MECSolutions@sunsrce.com www.Cyclonehydraulics.com and www.sun-source.com
20 x 3262 - cap 4.5
7.7
6.4
8.9
9.5
9.9
11.3
THE ULTIMATE CONTAMINATION CONTROL TOOL
CONTAMINATION CONTROL
Routine and scheduled maintenance of hydraulic systems are vital to getting the most out of your Hitachi Mining Excavator. While maintenance plays the largest role in the prevention of unnecessary machine downtime, it can also expose the hydraulic system to high levels of contamination rapidly decreasing component longevity. The importance of contamination control is sometimes Stop the Mess overlooked when performing maintenance due to incorrect practices being used. THE FLANGELOCK™ TOOL AND CIRCUIT BLANKING CAPS The FlangeLock™ tool and caps are the ultimate contamination control tools for protecting your hydraulic system. The FlangeLock™ allows for the simple sealing of open hydraulic flanges without tools while the caps can be bolted in place of a flange connection. Easy on, easy off, they offer a leak-proof solution to hydraulic systems and environmental cleanliness. FlangeLock™ tools and caps stop the mess.
The FlangeLock™ Tool is the ultimate contamination control tool for protecting your hydraulic systems. It allows for the simple sealing of open SAE code 61, 62 HITACHI MAKING CONTAMINATION CONTROL EASY & CAT-Style hydraulic flanges without tools. Constructed from lightweight aluminum. Hitachi have packaged FlangeLock™ tool and caps specifically for Hitachi mining excavators. The Hitachi customised kits make sure no matter which component routine maintenance is being performed on, you will always have the exact Easy on, easy off. Offers a leakproof solution to hydraulic system and environmental number of FlangeLocks™* and caps to help reduce contamination. cleanliness. FlangeLock™ Tools stop the mess!*Note: FlangeLocks™ are not to be used under pressure
SAVE TIME SAVE MONEY SAVE LABOR SAVE OIL
This product is Patented, other Patents pending. • No tools required • No expensive hardware needed • No more rags stuffed into hoses • No more messy plastic caps • The ultimate contamination control tool
• One hand installation • Eliminate hydraulic oil spills & clean up • Quick installation & ease of usage Call you local Hitachi Muswellbrook representative or the branch on 02 6541 6300 for more information. • Safe for personnel & environment • Industry acclaimed
For more information, call 203-861-9400 or email sales@flangelock.com. www.flangelock.com
THE FUNCTION OF FLUIDS
The word "fluid" refers to something that flows and can describe a gas or a liquid. A hydraulic system is the transmission of power by means of a liquid. While hydraulic fluid's most important function is power transmission, it has four other important functions: lubrication, sealing, contaminant removal, and heat transfer.
A hydraulic system has components with close moving parts. The hydraulic fluid is used to lubricate the rotating or sliding surfaces. The fluid also functions as a seal within the components to minimize internal leakage. Microscopic particles are continually being generated within the system
Figure 1: Function of fluid in a hydraulic system.
as surfaces move past each other. If these particles are not removed, they will generate even more particles. The hydraulic fluid carries these particles away to the filtration system for removal. Heat that is generated by the inefficiencies of the system must also be carried away to where it can be removed (see figure 1).
Properties and characteristics
Compressibility. There is a minimal change in volume as hydraulic fluid is pressurized. This change in volume varies with the type of hydraulic fluid and is based on something called the bulk modulus or stiffness of the fluid. For a typical petroleum-based fluid, there would be about a 0.4% decrease in volume at a pressure of 7 MPa (1,000 psi). Compressing hydraulic fluid. Compressed hydraulic fluid is much like a compressed spring. It is stored energy that can be suddenly released. Be sure pressure of any hydraulic fluid is released or isolated before any work is done on the system.
Viscosity and lubricity. These are two very different but important characteristics of hydraulic fluid.Viscosity is the resistance to flow at a given temperature. As the temperature of the fluid rises, the viscosity decreases. As the temperature lowers, the viscosity increases. In a hydraulic system, the most important fluid property is viscosity. Manufacturers publish the minimum and maximum viscosity range that must be maintained during operation, and information is typically presented as a maximum viscosity for cold start-up and then a minimum viscosity that must be maintained during normal operation.
Lubricity is the ability to minimize wear by creating a film between two mating surfaces, which allows them to slide past each other without touching. For hydraulic fluid to perform the lubricating, sealing, and heat transfer functions, both viscosity and lubricity must be considered. A fluid with good lubricity but low viscosity may not be able to establish a sufficient lubricating film between mating parts or provide sealing for sliding spools.
Flash point and fire point. A fluid's flash point is the temperature at which the fluid will ignite but not remain burning. The fire point of a fluid is the temperature at which the fluid continues to burn after ignited.
Additives. The function of hydraulic fluids can be improved with the use of additives. For example, nearly all hydraulic fluids have viscosities that change with temperature. Some additives produce multiple viscosity fluids that reduce the impact of temperature change. A viscosity index (VI) assigns a number to these fluids, indicating the relative change in viscosity with changes in temperature. Fluids with higher VI numbers have lower viscosity changes with temperature.
Magnified view of sliding surfaces with anti-wear additives.
Anti-wear. Higher pressures need tighter tolerances to prevent excessive internal leakage. Tighter tolerances reduce the space for the lubricating film provided by the fluid. Anti-wear additives can be added to the fluid that tend to fill the irregularities on the mating surfaces and allow a thinner lubricating film to keep the surfaces apart.
Rust and corrosion inhibitors. These additives prevent moisture and air from forming iron oxide particles (rust) by putting a coating on metal surfaces.
Antioxidants. Oxidation is a general term describing a chemical process where an atom gives up an electron. Rust is a form of oxidation, but it is not the only form. The presence of moisture or air, both of which contain oxygen, can cause the deterioration of components, including the hydraulic fluid itself, especially when accompanied by high temperature. The addition of antioxidants by the refiners is meant to minimize this damage.
Demulsifier. This additive helps the hydraulic fluid separate water. With many hydraulic fluids, the water then settles at the bottom of the reservoir, where it can be periodically drained away.
Detergents. These are added to the fluid when it is desired to prevent buildup of sludge and varnish deposits, as they tend to hold contaminants in suspension. They also have excellent emulsifying ability, and that can be a problem because any water won't be separated out of the fluid. This may be beneficial in some mobile applications, but caution should be used, as detergents may also cause foaming in the fluid as well, which is detrimental to the system operation.
Anti-foaming: These additives reduce the fluid's ability to retain air, which then reduces the potential for foaming to occur.
Types of hydraulic fluid
Hydraulic fluid is formulated to meet specific applications. There are formulations and additives that help the fluid meet the requirements of the system and the environment. There is no "one fluid fits all" formula. Consequently, it is never a good idea to mix or switch hydraulic fluids without the equipment manufacturer's consent. The makers of hydraulic pumps and motors often specify the characteristics of the fluid their products must have to remain under warranty.
Petroleum (hydrocarbon)-based. These are the most common hydraulic fluids. Petroleum-based fluids have excellent lubricating properties, acceptable viscosities, and if properly maintained, have an excellent life expectancy. Petroleum oil dissipates heat reasonably well under proper operating conditions and is compatible with most sealing materials. If the temperature is held below 60°C (140°F) and the oil is kept free of contaminants, petroleum-based fluids are long lasting and stable. For every 10°C (18°F) rise in temperature above 60°C (140°F) accelerated oxidation will begin to occur, which may result in cutting the usable life of the fluid in half.
High water-based (HFA). ISO classification HFA is 95% water, which means it is highly fire resistant. However, it will lack the lubricity factor of a petroleum-based fluid.
Oil-in-water emulsions (HFB). ISO classification HFB calls for approximately 40% water. Due to the water content, they are somewhat fire resistant. However, the oil content is a higher percentage (60%) than the water, so there is a possibility for the fluid to burn if it is sprayed toward open flame or if the water is evaporated away.
Water glycols (HFC). ISO classification HFC water glycols offer excellent fire resistance. Generally, they fall in a 60% HFC glycol (glycerin, alcohol, and thickeners) 40% water or 65% glycol 35% water. Glycol is in the antifreeze family and therefore can be utilized at cold temperatures. High operating temperatures (above 130ºF) may cause evaporation of the water, which would cause the glycol to become more viscous.
Synthetic fluids (HFD). HFD synthetic fluids are man-made fluids. They are more expensive than petroleum-based fluids, and some have less lubricity abilities and less metal-wetting ability. Generally, because of their blends, synthetic fluids may be more harmful to the environment and to individuals who handle the fluid. ISO classification HFD of synthetic fluids are fire resistant. Synthetic fluids typically encountered are phosphate esters and polyol esters. Military-spec synthetic fluids are MILPRF-83282D. Seal compatibility is a big concern with synthetic fluids.
Biodegradable. These fluids are typically nontoxic and easily disperse in the environment. Some are formed by using readily renewable bio-based vegetable oils such as rapeseed and sunflower. They are then blended with special additives to give them the properties required in hydraulic system operation. They are very sensitive to heat and must be operated within a recommended temperature range. Some synthetic fluids are also engineered to be biodegradable.
Seal compatibility. It is very important that the seals within all components in a hydraulic system be compatible with the fluid being used.
As shown in the table in figure 2, different materials used for seals have different advantages and disadvantages depending on the type of fluid selected. Some fluids with very good lubricity and viscosity characteristics may prove caustic to the material in pumps, actuators, or valves, especially when hot.
Chemical compatibility is an important consideration when choosing the hydraulic fluid for the system. The inner tube of the hydraulic hose must not react chemically with the fluid. The same can be said of the seals within the components. Water can adversely affect the seals, so special seals must be applied to use a high water content-based fluid. Water glycol fluids attack zinc, cadmium, and aluminum, so these elements must not be located anywhere in the circuit to prevent contamination and deterioration of the hydraulic systems.
SEAL MATERIAL COMPATIBLE FLUIDS
Metallic piston rings Petroleum-based and synthetic fluids, phosphate esters - for high-pressure and severe conditions.
Leather Petroleum-based and synthetic fluids, phosphate esters - for high pressure and severe conditions.
Neoprene rubber General-purpose industrial use, Freon 12; weather and salt-water resistant.
Nitrile rubber (Buna N)
Silicone rubber
Fluoro-elastomers (Viton and Fluorel)
Polyurethane Petroleum-based fluids and mineral oils - used for some rotating seals, extrusion resistant.
Water and petroleum-based fluids, phosphate esters; low tensile strength and tear resistance, recommended for static seals only.
Petroleum-based, synthetic, diester, silicate ester, and halogenated hydrocarbon fluids - for high-temperature applications. Petroleum-based fluids - high resistance to ozone, sunlight, and weathering; low water resistance.
Figure 2: Fluid compatibility chart. TEMPERATURE RANGE
Low to 500°F (260°C)
-65°F to 225°F -54°C to 107°C
-65°F to 300°F -54°C to 149°C
-65°F to 225°F -54°C to 107°C
-80°F to 450°F -62°C to 232°C
-20°F to 400°F -29°C to 204°C
-65°F to 220°F -40°C to 93°C
TEST YOUR SKILLS
1. Which of the following is not a function of hydraulic fluid?
a. Lubrication. b. Sealing. c. Heat transfer. d. Particulate removal. 2. The viscosity index (VI) is used to
a. describe the lubricating qualities of the fluid. b. determine how much water is in the hydraulic fluid. c. indicate the relative change in viscosity with changes in temperature. d. indicate the point where the fluid loses its lubricity. e. classify synthetic fluids.
