Hydraulic Cylinder Troubleshooting
Contents
1. Hydraulic Cylinder Troubleshooting Hydraulics Avoiding Rod Seal Leakage and Premature Wear Bulletin 1242 1 GB f ao p T x p M KA i A A UM Wu aer The industrial world has altered its perception of hydraulic cylinders Piston rod seal leaks even small ones are no longer acceptable Today s applications demand that after any necessary running in the piston rod should show no ring of oil That demand can be met by understanding and applying the following principles Most rod seal leaks are caused by a damaged rod or rod bearing e contaminated fluid e temperature extremes e chemical attack e high pressure e low pressure Damaged piston rods or rod bearings are the most common cause of rod seal failure The usual causes of such damage are poor alignment between the cylinder and its load resulting in side loading or a bent piston rod resulting from the use of an undersized rod ina thrust application Cylinders are designed to provide linear force and motion to a guided load The path which the guided load travels must not impose a significant eccentric load on the rod or the piston rod bearing or the bearing surfaces will be damaged and fluid leakage and reduced bearing life will result The maximum thrust force which a cylinder should provide is limited by its rod diameter and overall length In long stroke cylinders care s2. to age harden at temperatures above 65 C Polyurethane seals are subject to hydrolysis effects in high water based fluids at temperatures above 50 C leading to a loss of Fig 3 Contamination damage is apparent in this rod seal where the serrations are worn completely away The seal on the right is a new one shown for comparison hardness and tensile strength which allows fluid leakage from the rod seal Air is often overlooked as a fluid contaminant but aerated oil can cause physical damage to piston rod seals Pressure shocks in systems with high cycling speeds can cause air bubbles to become highly charged with heat energy a condition often referred to as dieselling This condition is particularly pronounced in vertical rod up applications where a rapid increase in hydraulic pressure can cause intense localised heating of the bubbles at the lip of the primary seal The presence of air in the fluid can also intensify the transmission of vibration which in turn can lead to other forms of system failure continued Contaminated Fluid continued SYMPTOMS Moderate to extreme leakage with hydrostatic leakage Particle contamination appears as score marks on the seal Fig 3 and rod bearing and on the cushion sleeve Fig 4 Water in the oil may cause some seal materials to crumble or disintegrate at high temperatures Fig 7 Air bubble damage appears as small score marks on the inn
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4. e hard cracked and brittle Fig 6 Parker cylinders are available with high and low temperature seal options In some applications temperature control of the cylinders or oil must be provided to ensure effective operation Fig 6 The cracked outer sealing lip of this wiper seal shows damage caused by heat Chemical Attack Some fluids react with seal materials and attack them chemically Fluid manufacturers often list common seal materials as compatible without defining the suitability of the material for a dynamic seal It may be acceptable for a static seal such as a cylinder body O ring to swell by 10 but if a dynamic rod seal swells by 1096 the result can be a dramatic rise in friction and accelerated wear One common mineral oil based fluid has an additive that shrinks a widely used seal material by 1096 Again the result is a leak particularly in dynamic applications SYMPTOMS Seals feel sticky or gummy in some cases or may appear dry and cracked Fig 7 Shrunken seals may rattle in their cartridge grooves while swollen seals may prove difficult to remove from the cylinder High Pressure Leaks SOLUTION Ask your Parker representative for his recommendations for a particular fluid He will consult with the fluid manufacturer and seal supplier to resolve the problem Often a simple test can be performed to determine the effects of a particular fluid seal combination F
5. er surface of the high pressure side of the seal and the heel of the seal may appear to be nibbled Fig 5 The trumpet shaped score is caused by expansion of the bubble as it works its way through the seal Air bubbles may also attack the outer diameter lip of a rod seal or may burn a hole through the heel of the seal Fig 4 Particle contamination has scored the surface of this cushion bush resulting in loss of cushioning effect SOLUTION Particle contamination may be reduced through appropriate filtration methods provided the fluid circulates from the cylinder to the reservoir in an efficient manner To determine if a cylinder will efficiently flush oil and contaminants to the reservoir compare the volume of oil contained in the cylinder to the volume of oil contained in the hose between the cylinder port and the directional control valve If the hose holds more oil than the cylinder particle contamination probably will not flow to the reservoir to be filtered out Instead it will remain in the cylinder and scour the seals One solution is to relocate the directional valve closer to the cylinder to reduce the line volume to less than that of the cylinder This allows oil to be flushed from the cylinder to the reservoir to be filtered and cooled Other solutions to particle and water contamination include the installation of metal rod scrapers or rod bellows to slow the ingress of contaminants Pay
6. hould be taken to ensure that the piston rod is capable of handling the thrust forces generated in the application and that the cylinder is adequately supported Note also that a head end mounting style will provide greater column strength than a cap end mounting due to the smaller distance between mounting points Full guidance for piston rod size selection is contained in Parker s hydraulic cylinder product catalogues Rod seals and bearings are worn on one side only Fig 1 Piston rods and cylinder tubes are worn or galled on opposite sides particularly at or near full extension Fig 2 Piston rods should be straight within O 15mm per metre T I R and surface finishes should be below 0 4 microns R M A There is no substitute for precision in machine alignment Alignment couplers spherical bearings and floating flanged rod ends may help in some applications but they Fig 1 Gland and seal showing wear resulting from excessive side loading Brass paste on seal is a mixture of gland material and hydraulic fluid often require larger diameter piston rods or longer stop tube lengths to make up for the higher bearing stresses caused by the loss of rigidity between the piston rod and its moving load Parker cylinders are available with substantial load bearing capabilities and severe failures of components indicate the need for a thorough review of the application The load bearing capab
7. ig 7 Before and after This polypak rod seal has been damaged by water a common contaminant in mineral oil systems This type of leakage is rarely encountered with the latest generation of polyurethane seals With rod seals of other materials high pressure leakage is usually the result of inadvertent pressure intensification across the piston A severe meter out flow restriction at the head end of a cylinder with an oversized piston rod can expose the rod seal to a back pressure equal to twice the system pressure Continued operation under these conditions can cause rapid seal wear due to excess friction extrusion of the primary seal or in extreme cases failure of the rod cartridge or the retainer SYMPTOMS Extreme amounts of leakage occur Rod seals may be worn uniformly around their entire inner sealing surface Extrusion damage manifests itself as flash or feathered edges at the inner diameter of the heel of the seal Fig 8 Mechanical failure of seal support lands in rod cartridges or of cartridge retainer bolts can also occur SOLUTION If excessive oressure IS Caused by Intensification due to a flow restriction the restriction should be removed If the condition persists a special gland and seal design should be Fig 8 Wiper seal showing high pressure extrusion damage considered to reduce the extrusion gap permitting the seal to withstand the high pressures Problems with lea
8. ight so no leakage occurs when the cylinder is hydrostatically tested The key to a successful dry rod cylinder application is the ability to control or eliminate undesirable conditions or to select a cylinder with rod seals that can tolerate those conditions While there is no universal seal Parker s engineers will help you to select the right combination of seals and rod bearing materials to ensure dry rod performance and long service life in your application Hydraulics Cylinder Division Sales Offices Austria Vienna Parker Hannifin GmbH Tel 1332 36050 Fax 1332 360577 Belgium Brussels S A Parker Hannifin N V Tel 02 762 18 00 Fax 02 762 33 30 Czech Republic Prague Parker Hannifin Corporation Tel 2 6134 1704 Fax 2 6134 1703 Denmark Ish j Parker Hannifin Danmark A S Tel 43 54 11 33 Fax 43 73 31 07 Finland Vantaa Parker Hannifin Oy Tel 0 9 476 731 Fax 09 476 73200 France Contamine sur Arve Parker Hannifin RAK S A Tel 4 50 25 80 25 Fax 4 50 03 67 37 Germany Cologne Parker Hannifin GmbH Tel 221 71720 Fax 221 7172219 Hungary Budapest Parker Hannifin Corp Tel Fax 1 252 2539 Italy Arsago Seprio Parker Hannifin S p A Tel 331 768 056 Fax 331 769 059 Netherlands Oldenzaal Parker Hannifin N V Tel 541 585000 Fax 541 585459 Norway Langhus Parker Hannifin A S Tel 64
9. ilities of rod bearings are also influenced by their material Extremely hard rod bearings are more likely than soft bearing materials to cause damage to the piston rod itself Some manufacturers employ a hard bearing material because the relative positions of the seal and the rod bearing cause the bearing to run fairly dry The trade off is between risk of damage to the rod vs damage to the rod bearing A new piston rod is a made to order part and replacement requires a complete striodown and rebuild of the cylinder A new rod gland and bearing is a stock item and is easily replaced Parker s rod bearing and seal cartridge design has a flooded bearing surface that does not run dry is easily replaceable and is made of a material that provides long life when correctly mounted and aligned To improve the support available to long stroke cylinders the use of additional mountings and tie rod supports should be considered Fig 2 Galling on this piston rod is evidence of excessive side loading Contaminated Fluid Contaminated fluid can also cause premature rod seal failure Abrasive particles suspended in the fluid can damage the seal and the piston rod surface while airborne contamination can be drawn into a cylinder via a faulty wiper seal Water is a common contaminant in mineral oil systems affecting the lubricity of the fluid and causing some of the most widely used seal materials
10. ing close attention to the alignment of the cylinder on installation will also reduce the rate at which the cylinder produces its own fluid contaminants Fig 1 E e h d ha H e Zu 4 X fa T d SP por 1 SR E wd uc lo EE Fig 5 Piston seals damaged by air in oil All hydraulic oil contains dissolved air Dissolved air cannot be bled out and in fact does not cause a problem The symptoms described above occur when air comes out of solution in the form of bubbles Conditions that cause air to come out of solution are rapid decompression high flow through an undersized port turbulent flow or over running loads If a cylinder that was properly installed and bled continues to have problems with air ie if it seems to generate air it is likely that one of these three conditions is occurring This is particularly true of applications involving water glycol fluids since these are capable of dissolving more air than mineral oil fluids Extreme temperature applications pose two challenges First the temperature itself may limit the choice of seal materials and geometries eg polyurethane seals should be restricted to a maximum of 50 C in order to avoid hydrolysis of the seal compound Second the fluids used in such applications often have less lubricity than mineral oil based fluids oeals that have been overheated or exposed to too low a temperature have the same appearanc
11. kage at low operating pressures are uncommon with polyurethane rod seals due to their low energising pressure requirement With other classes of rod seal material low pressure leaks may occur in applications that have no meter out flow control at the rod end of the oylinder With the rod extending the drive pressure may be 200 bar but the back pressure in the cylinder may be less than 20 bar Some elastomeric lipseals require a minimum pressure level to become fully energised and only work at full efficiency with back pressures above 30 bar Below that level the seal may hydroplane and fail to seal against the rod surface Conclusions SYMPT 3 The rod runs wet with a collar of oil The rod wiper may extrude Fig 9 but the primary rod seal is undamaged Fig 9 inset so that no leakage occurs when the oylinder is hydrostatically tested his condition should not be confused with the running in period required by some low friction seals which may not give full dry rod performance until around 100 cycles have been completed SOLUTION Raise the back pressure to above 30 bar or substitute a rod seal with better low pressure sealing characteristics Note that some loaded seals may exhibit excessive friction levels or may otherwise disrupt the normal operation of a primary and secondary sealing system Fig 9 The rod wiper may extrude top but the primary rod seal looks perfect r
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