This document provides information to analyze why seals fail in hydraulic systems. It discusses common modes of failure such as abrasion, extrusion, pressure trapping, and heat damage. The document emphasizes that accurate failure analysis is important to eliminate current and future problems. It also notes that interruptions in operations from seal failures can cost millions in lost productivity, so quick response times to replace failed seals is important. Overall, the document aims to help understand seal failure factors and improve seal system design to prevent failures and downtime.
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Removing gaskets from the flange connection can be
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What is the difference between Mechanical Seal and Gland Packing? | LEAK-PACKLEAK-PACK
Here you know the difference between mechanical seal and gland packing. Both gland packing and mechanical seals are effective and useful. It depends on economic viability, personal preference and requirement specification for which one will be preferred.
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Flange Bolts Australasia (FBA) is one of the most recognized names in specialised flanged hex products and 12 point fasteners. Before we enter 2017, here is a quick reminder of what makes Flange Bolts Australasia (FBA) different the all other flange products suppliers. For the 2017 brochure, keep a look out at fbabolt.com.au.
DONIT 4 AS Specially designed anti-stick coatingdonitmarketing
Removing gaskets from the flange connection can be
a tedious and labour intensive task which can result
in flange surface or equipment damage. When using
hammer and chisel to remove a gasket from the flange
surface, one can damage the latter. The amount of time
spent on cleaning flanges can be significant, and in
many cases, the plant must remain off-line while the
gaskets are being removed, creating a loss of valuable
production time. It has an important impact on maintenance
costs and plant efficiency. To avoid these problems
using gasket materials with a proper anti-stick
coating is recommended.
What is the difference between Mechanical Seal and Gland Packing? | LEAK-PACKLEAK-PACK
Here you know the difference between mechanical seal and gland packing. Both gland packing and mechanical seals are effective and useful. It depends on economic viability, personal preference and requirement specification for which one will be preferred.
Flange Bolts Australasia Brochure 2016 - A Division of WDS Groupfbabolt
Flange Bolts Australasia (FBA) is one of the most recognized names in specialised flanged hex products and 12 point fasteners. Before we enter 2017, here is a quick reminder of what makes Flange Bolts Australasia (FBA) different the all other flange products suppliers. For the 2017 brochure, keep a look out at fbabolt.com.au.
A mechanical seal is a sealing device which forms a running seal between rotating and stationary parts. They were developed to overcome the disadvantages of compression packing. Leakage can be reduced to a level meeting environmental standards of government regulating agencies and maintenance costs can be lower.
Its very useful book for all the Mechanical Engineers, who are working production side and by this book we know the various types of gaskets and applications.
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This presentation examines the impact of seal choice on the overall performance of mud motors, rotary steerable systems, LWD/MWD, and other equipment, and it offers some tips on how to achieve a balance between friction and sealing effectiveness.
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Micro Seal is one of the leading Designers & Suppliers of world-class Mechanical Seals, Seal Support system for Pumps, Compressors,Agitators, Mixers and Reactors.
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We Manufacture Mechanical Seals as per our own design as well as equivalent to reputed international brand like John Crane, Sealol, Durametallic, eagle Burgmann,, Flowserve, AES, US Seal, Roten etc. as per sample or drawing.
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We tend to work in close co-ordination with our clients to offer unique fluid handling solutions.
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Our State-of-the-art infrastructure is located in the industrial hub of Mumbai. we have well equipped insfrastructure with modern machineries and equipment for manufacturing and testing facilities.
What is and what is the function of a rubber seal
The Increasing of the speed of mechanical systems, driven by the desire for greater productivity, leads to higher operating temperatures and reduced fluid viscosities. This, coupled with higher pressures, causes an increasing tendency for fluid to leak. This leak in fuel systems that handle highly flammable solvents cannot be overlooked as there is a high probability of a fire hazard.
For this reason it has become common practice to include a safe leak path in the system design, to an escape or collection point, in order to minimize risk.
Seals prevent fluid from escaping from a hollow cylinder when a shaft penetrates the cylinder wall. Most commonly, the axis will have a rotary or linear motion. If a seal is not made for functional requirements, or installed and maintained properly, it can fail, causing fluid loss. The two main functions of a seal are to keep the fluid in while keeping dirt and debris out.
2. Applications
Require High
Performance
Today’s demanding applications require high-
performance, leak-free seals. From agricultural
equipment to injection molding machines,
hydraulic seals are expected to function
throughout their respective lifespan without
failure.
Although a relatively small expense in the overall
price of a hydraulic cylinder, factors at stake from
early failure are:
• Expense of Down Time
• Loss of Production
• Pollution
• Potential Danger to Humans
Accurate failure analysis is a critical step in
eliminating current and future problems.
3. Modes of Failure PAGE
Abrasion 05
Extrusion 06
Dieseling 07
Explosive Decompression 08
Pressure Trapping 09
Contamination 10
Heat Damage 11
Swelling 12
Hydrolysis 13
Flex Fatigue/Fracture 14
Side Loads 15
Erosion 16
Dry Running 17
Over Pressurization 18
Other Factors 19
MAINTENANCE & REPAIR
Interruptions. Are. Bad.
For. Pro. Duc. Tiv. Ity.
Interruptions in many operations can cost
millions of dollars in lost productivity. That’s
why System Seals maintains a 24-hour
emergency response service, which fills
orders and expedites delivery faster than
any other supplier in the industry. Nights,
weekends, holidays–when seals fail, it’s
really your profit margin that’s leaking.
This guide is intended to provide insight into why seals fail and factors that contribute
to seal failure. It’s a starting point that System Seals engineers use to engineer the next
generation of seal systems that prevent failure, reduce downtime and save our customers a
substantial amount of money in gained productivity.
For more information about maximizing your seal performance, talk directly to an
engineer today at 216.220.1800, or visit our web site at www.systemseals.com.
4. Abrasion
Accelerated wear of the seal
by outside influences.
CONTRIBUTING FACTORS
• Surface finish that‘s too rough
• Damaged sliding surface
• Insufficient lubrication
• Contamination
MACHINING
RECOMMENDATIONS
• Rods that ground with
non-oriented finish
or roller burnishing
• Barrels honing and
roller burnishing
HARDNESS
Heat treat to 45-60HRC to
a minimum depth of 0.5mm.
CORROSION PROTECTION
Hard chrome overlay with coating
thickness 30-50μm.
FINISH RE-WORK
AFTER CHROME
Super-finish or polish to obtain final
surface finish recommendations.
SURFACE FINISH RECOMMENDATIONS
To maximize seal performance and durability, System Seals Inc. recommends the
following finishing values for hydraulic seals.
Surface Roughness
Surface Finish Ra Rt RMS
sliding surface ≤0.3μm ≤3.0μm 8
groove root ≤1.8μm ≤10.0μm 32
groove sides ≤3.0μm ≤16.0μm 125
Note: System Seals, Inc. recommends to not only rely on the above information, but
to also measure the profile bearing area ratio “Tp”. Knowing the profile bearing area
ratio will ensure a surface quality that is optimum for hydraulic seals.
Recommendation: Tp should be between
50-90% of the average height value
“C=Rz/2” with reference line at Cref=0
Above: NBR piston u-cup with abrasion
marks at the seal lip and migrating across
the dynamic surface.
Above: Close up view of a u-cup seal lip showing
abrasion marks.
Above: PTFE seal with abrasion marks at the seal
lip and migrating across the dynamic surface.
Not suitable for a
sealing surface.
Within recommendation
for a good sealing surface.
Tp=39%
Tp=79%
06 07 systemseals.com
5. Dieseling
Damage caused by air bubbles
within the oil. The fumes
within the bubbles ignite
when pressurized, causing
burning of the seal face.
CONTRIBUTING FACTORS
• Unpurged air from oil prior
to operation
• Rapid pressure rise
Above: Polyurethane u-cup with dieseling damage.
Above: Nylon back-up ring with dieseling damage.
Above: Rapid pressure rise squeezes the air bubbles, causing immense heat which
is hot enough to ignite the oil fumes trapped within the bubbles. The result is a
burning of the seal face.
EXTRUSION CORRECTIVE ACTION
There is design criteria for extrusion gaps and this criteria is based on the
seal material and operating pressures. However, situations arise where
the recommendations cannot be met, such as cylinder re-build. To overcome the
extrusion potential, seals using back-up rings or the use of reinforced materials
are recommended.
Back-up Ring Extrusion Gap
2.0
1.9
1.8
1.7
1.6
1.5
1.4
1.3
1.2
1.1
1.0
0.9
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
Above: V-packing female adapter ring showing
clear signs of extrusion.
Extrusion
Damage to the seal from
the gap between the sliding
surface and housing.
Excessive gaps allow the
seal to deform into these
gaps under pressure,
causing material to creep
and/or break off.
CONTRIBUTING FACTORS
• System pressure too high
• Larger than normal extrusion gap
• Cylinder expansion
• Wrong seal material
Above: Polyurethane static seal showing signs
of extrusion.
Above: PTFE piston seal showing signs of severe extrusion.
Below: Seals shown are examples of the types of seal designs recommended should
a customer have large clearances within their applications (large gap conditions).
E-GAP(MM)
PRESSURE (BAR)
0 100 230 300 400 500
Polyacetal at 230F at 3000 hours
600 650 700
2.0x1.5 2.5x2.0 3.5x2.5 5.0x3.5 7.5x5.0
P
Above: Polyurethane u-cup showing severe dieseling damage.
08 09 systemseals.com
6. Above: Back-to-back piston u-cup seals showing
pressure trapping with reverse extrusion as a result.
Pressure Trapping
Typical for piston applications
using two seals, oil gets trapped
between the seals during
operation. This oil volume
increases with time, creating
pressure and eventually forcing
the seals away from each other,
causing damage.
CONTRIBUTING FACTORS
• Incorrect seal design; ie. no pressure
relieving ability
• Long stroke
• High speed
Above: Loaded polyurethane u-cups showing
severe pressure trapping and failure.
Above: Normal action of piston can cause certain types of piston seals to trap pressure.
Above: Excessive pressure between the seals can push the seals away from each
other, ultimately resulting in pressure trapping failure.
Above: Polyurethane u-cup seal damaged by
explosive decompression.
Explosive
Decompression
Damage caused by gas
permeating within the seal
material under pressure. The
gas, in the form of a collapsed
bubble, expands when
pressure drops, resulting in
blistered seal material.
CONTRIBUTING FACTORS
• Incompatible seal material
• High pressure
• High temperature
• Long exposure time of seal material
to media under pressure
Above: Damaged by explosive decompression.
Above: Polyurethane u-cup seal damaged by explosive decompression.
010 011 systemseals.com
7. Above: Polyurethane u-cup seal with severe heat
damage/cracking.
Heat Damage
Damage to the seal from
excessive temperatures. The
result is a hardening of the
elastomer, which can cause
permanent deformation,
discoloration, cracking and
material breaking off.
CONTRIBUTING FACTORS
• High speed operation, which affects
the seal lip
• Hot oil or environment, exposing the
whole seal to high temperatures
• Incorrect seal material
Above: Inner lip of a nitrile rotary shaft seal that
has cracked from high running temperatures.
Above: Polyurethane u-cup seal with severe heat damage/cracking.
Above: Multi-component piston seal exposed to temperatures that caused the
components to melt.
Contamination
Damage to the sealing
components from solid
particles during operation.
CONTRIBUTING FACTORS
• Dirty assembly area
• Internal cylinder contamination;
ie. cylinder wear over time causing
clogged filters, dirty oil, metal particles
• Poor wiper performance
Above: Hydraulic cylinder with severe contamination.
Above: Hydraulic cylinder operating in a severe
salt contaminated environment.
Above: Resin/Fabric guide band damaged by
severe metallic contamination.
012 013 systemseals.com
8. Above: Polyurethane o-ring showing early signs
of hydrolysis.
Hydrolysis
Break-down of the seal
material from exposure to
water or water based fluids
at elevated temperatures.
The result is a loss of physical
properties, cracking and
crumbling of the material.
CONTRIBUTING FACTORS
• Incompatible seal material for fluid used
• High temperatures
Above: Thermoplastic elastomer seal in the late
stages of hydrolysis.
Above: Fluorocarbon (FPM) seal showing early signs of hydrolysis.
Above: Fluorocarbon (FPM) seal showing late stages of hydrolysis.
Swelling
Fluid media absorbed
into an incompatible
seal material causes the
material to deform,
and swell. Discoloration
may be associated with
swelling as well.
CONTRIBUTING FACTORS
• Incompatible seal material for
fluid used
• High temperatures
Above: Swelling failure of a dirt wiper. Wiper at top is new for comparison.
014 015 systemseals.com
9. Side Loading
Damage to the sealing
components during extreme
side loads that exceed the
guidance capability. Result
is usually metal-to-metal
contact with severe damage
to all components
CONTRIBUTING FACTORS
• Insufficient guidance
• High temperatures, which can degrade
certain types of guide bushing materials
• Ineffective placement of the bushings
within the cylinder
Above: Severe side loading with catastrophic damage from metal-to-metal contact.
Above: Side loading that wore the chrome off the rod.
Flex Fatigue/
Fracturing
The deformation of the seal
under pressure creates tensile
stresses that can fatigue and
fracture the seal material.
CONTRIBUTING FACTORS
• Incorrect seal design
• High pressures
• High cycle rate
• Short cycle time
Above: Opposing tensile stresses flex the seal material during each pressure
cycle, fatiguing the material over time. The stresses fatigue the material to the
breaking point.
Above: Front view of a polyurethane seal with
a flex fatigue crack through the middle section
of the seal.
Above: Profile section of an o-ring loaded u-cup
with flex fatigue cracking.
016 017 systemseals.com
10. Above: Section profile of the above seal showing
wear and loss of pre-load. Note the dynamic
lip (bottom lip) has lost it’s sharp edge and has
flattened compared to the top lip.
Dry Running
Accelerated wear of the seal
due to low lubrication or dry
operating conditions.
CONTRIBUTING FACTORS
• Wrong seal material for application
• Too robust of a seal for the application
(For example, a seal with many sealing
lips creating a dry running condition)
Above: Section profile of the above seal showing
wear and loss of pre-load. Note both dynamic
lips (bottom lips) have lost their sharp edges
and have flattened compared to the top lips.
Above: Polyurethane rod seal with shiny and smooth surface from a dry running condition.
Above: NBR rod seal with shiny and smooth surface from low lubrication
(water-based fluid).
Erosion
Media jetting across the seal,
removing material as it travels
from the high pressure side to
low pressure side.
CONTRIBUTING FACTORS
• Collapsed air bubbles in oil
• Damaged sliding surface
• Contamination
Above: Severe flow erosion of a polyurethane rod seal. Note the erosion starts at the
seal lip (bottom) and migrates all the way across the seal.
Above: Another view of the above polyurethane rod seal. Main seal lip is at the bottom.
018 019 systemseals.com
11. Other Factors
There are many factors that
contribute to seal failures
and some causes are not
directly related to operation.
CONTRIBUTING FACTORS
• Installation errors
• Deteriorated seals
• Metal dimensions out of specification
INSTALLATION ERRORS
• No lead-in chamfers
• Seals installed backwards
• Twisted energizers
• Seal stretched beyond its limits
(piston seal)
• Seal kinked during kidney shaping
(rod seal)
• Incorrect installation tools
(screw driver, etc.)
DETERIORATED SEALS
• Improper storage
• Expired shelf life of seals
Over-pressurization
Operating condition where
the seal is stressed beyond its
limits and fails. Failure modes
range from cracking to full
structural failure.
CONTRIBUTING FACTORS
• Pressure spikes
• Incorrect seal design
• Cylinder wall flexing, which increases the
clearance gaps, causing extrusion
Above: V-packing set that structurally failed at 115,000psi.
Above: Rubber and fabric piston seal that failed from over-pressurization
020 021 systemseals.com
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