“Extreme care must be taken in the correct selection, installation and maintenance of matched, quality components in any hydraulic system because hose assemblies can be highly dangerous if misapplied and if inadequate attention is given to maintenance of the hose and related equipment,” says Joanne Tarr, BMG’s national product manager – hose and fittings.
“When selecting a hose, it is important that the working pressure of the hose is higher than the maximum operating pressure of the system. Fluid temperature, either in motion or with the equipment at a halt, should never exceed the maximum working temperature recommended for each hose. It is also critical to consider the surrounding temperature, especially from resulting heat sources in the proximity of the hose assembly.”
“BMG recommends that hydraulic hose assemblies are always inspected and pressure tested against leakage and malfunction before installation. Installations that do not comply with the adequate geometry of the hose assembly, or where the application of the system exceeds hose specifications, can lead to premature failure of the hose assembly.
“Factors to be prevented include high velocity and high temperature projections of hydraulic fluid.”
Fluid compatibility with the hose and coupling should also be verified. Fluids can chemically attack the hose, which results in contamination and the obstruction of the hydraulic system.
This leads to premature failure of the hose and the system. Environmental compatibility demands consideration of factors that include temperature, fire hazard, UV light, ozone, chemicals and electrical charges.
Accelerated external abrasion, as result of contact in motion, or exposure to projected particles, reduces hose life and leads to early failure of the system. BMG stocks hoses with special abrasion resistant rubber compounds, or recommends protection through adequate sleeves.
Couplings are an important component of hydraulic hose assemblies. Compatibility of sealing and correct attachment of couplings to the system ports is critical for efficient operation, enhanced safety and extended service life.
BMG’s comprehensive catalogue of hydraulics hoses and fittings includes an easy to follow reference fluid compatibility and resistance chart, technical information on BMG’s extensive range of hoses, fittings and adapters, as well as critical information on correct product selection, installation and safety guidelines.
BMG’s portfolio of components for fluid power systems and general industrial applications also include Eaton Winner braided hydraulic hose and fittings. These perfectly matched hydraulic hoses and fittings ensure safe and reliable conveying of petroleum and water based hydraulic fluids at high pressure, even in the most demanding environments.
Currently, Eaton Winner hose EN853 1SN (EC110) and 2SN (EC210) and a wide selection of two piece, non-skive fittings are available nationally from BMG’s extensive network. This range, which is complimented by adaptors, steel tube fittings and high pressure hoses, will be extended to include other hoses in the Eaton range, according to market demand.
Winner hose EN853 1SN (EC110), with a synthetic rubber tube and cover, as well as single wire braid reinforcement and a white ink transfer layline, is designed for petroleum and water based fluids, at operating temperatures between -40°C and + 100°C.
This range has a maximum working pressure of 225 bar and a minimum bend radius of 100 mm. Winner hose EN853 1SN (EC210) has a double wire braid reinforcement, with a synthetic rubber tube and cover and a green ink transfer layline.
This hose has a maximum working pressure of 400 bar and a bend radius up to 630 mm. Other products available from BMG’s fluid technology division include valves, accumulators, cylinders, heat exchangers, hydraulic motors and hydraulic plumbing, pumps and reservoir accessories.
The company’s fluid technology services encompass project engineering and consulting, cylinder design and manufacture, hydraulic training, repair and testing and onsite container services.