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Flange Mounted Bearings Selection Guide: Housing Series, Locking Methods & L.E.S.C. Framework

How to Choose a Mounted Flange Bearing 2, 3, and 4-Bolt

Quick Answer: A flange mounted bearing is a pre-assembled unit consisting of an insert bearing mounted in a flanged housing. It is designed for applications where the shaft axis is perpendicular to the mounting surface. Selection depends on four factors: load magnitude, space constraints, environmental conditions, and total lifecycle cost. Key decisions include flange housing series (F, FA, FB, FC, FL, FS), insert bearing locking method (UC/SA/SB for setscrew, UK for adapter sleeve, or UE/UEL for eccentric collar), and housing material. This guide covers the complete selection process from understanding the mounted bearing family to calculating L10 life.


Flange mounted bearings are widely used in conveyor systems, agricultural equipment, HVAC units, pumps, and automotive assemblies.

Unsure which bolt pattern fits your load, which locking method works best for your shaft, or how mounting surface flatness affects service life? This guide provides clear answers.

What you will learn in this guide:

  • The mounted bearing family structure
  • Flange housing options and bolt patterns
  • Insert bearing locking methods (setscrew, adapter sleeve, eccentric collar)
  • Complete unit designation reading (UCF, UKF, UELF, etc.)
  • The L.E.S.C. selection framework (Load, Environment, Space, Cost)
  • Critical dimensions, material choices, and performance specifications
  • Installation best practices and common mistakes to avoid

What Is a Flange Mounted Bearing?

A Comprehensive Selection Guide for Pillow Block and Flange Mounted Bearing

A flange mounted bearing belongs to the mounted bearing product family. Its housing includes a flange that enables bolting onto a surface perpendicular to the shaft axis. The shaft runs at a right angle to the mounting plane.

Every flange mounted bearing unit contains two elements:

  • Insert bearing – a sealed ball bearing with a spherical outer ring that provides self-alignment.
  • Flanged housing – a casing that holds the insert bearing and provides mounting holes with 2, 3, or 4 bolts.

The spherical outer ring fits into a matching concave surface inside the housing. This design tolerates minor shaft-to-housing misalignment. The complete assembly can be unbolted and removed, making replacement faster than press-fit bearing arrangements.

Mounted Bearing Family Overview

Flange mounted bearings are one of four main types in the mounted bearing family. The table below shows where they fit:

Mounted Bearing TypeHousing SeriesCommon CombinationsMounting Orientation
Pillow BlockP, PA, PHUCP, UKP, UEPHorizontal surface with shaft parallel to mounting face
Flange MountedF, FA, FB, FC, FL, FSUCF, UKF, UELFVertical or perpendicular surface with shaft perpendicular to mounting face
Take-upTUCT, UKTTensioning systems such as conveyor belts
HangerHAUCHAOverhead or suspended mounting

This guide focuses exclusively on flange mounted bearings, which are defined by their housing series: F, FA, FB, FC, FL, and FS. The other types (Pillow Block, Take-up, Hanger) are not covered here.

Flange Housing Series: F, FA, FB, FC, FL, FS

Flange mounted bearings are available in six housing series: F, FA, FB, FC, FL, and FS. Each designation describes a specific flange shape and bolt pattern. When combined with an insert bearing series (UC, UK, or UE), these form complete unit codes such as UCF, UKF, UELF, or UCFL.

F Series: Square 4-Bolt Flange

SAF205 Square flange bearing unit with SA205 eccentric locking insert.

The F housing has a square shape with four bolt holes positioned radially around the bearing center. This is the most widely used flange type.

Key attributes:

  • High structural rigidity and good vibration resistance
  • Symmetrical bolt pattern for even load distribution
  • Offered in standard-duty (UCF 200) and heavy-duty (UCF 300) versions

Critical warning: mounting surface flatness directly affects life. A 0.1mm deviation reduces bearing life by 30%. A 0.2mm deviation cuts life by 55%.

Example: UCF204 equals UC204 insert bearing with setscrew locking and 20mm bore plus F housing.

FA Series: Narrow Square 4-Bolt Flange

UCFS206 Narrow four‑bolt square flange bearing unit for space‑constrained installations.

The FA housing maintains a 4-bolt square pattern but with a narrower footprint than the standard F. Use this when space is tight but you still need 4-bolt capacity.

FB Series: Round 4-Bolt Flange

UKFC207 Round flange bearing unit with tapered bore insert and adapter sleeve.

The FB housing uses a round profile with four bolt holes. Choose this when a round housing shape fits better aesthetically or clears surrounding components more effectively.

FC Series: Round 3-Bolt Flange

The FC housing is round with three bolt holes spaced at 120 degrees.

Advantages:

  • Triangular bolt layout provides better stability than 2-bolt designs
  • Well-suited for vertical mounting or triangular bolt patterns

Example: UCFC equals UC bearing plus FC housing.

FL Series: Oval 2-Bolt Flange

The FL housing has an oval or diamond shape with two bolt holes. A straight line through the hole centers passes through the bearing axis.

Characteristics:

  • Compact design fits narrow machine frames
  • Major limitation: not recommended for high-vibration or heavy axial thrust applications
  • Failure mode: housing ears may crack or bolts may loosen under moment loads

Real-world example: A food processing conveyor used a UCFL204 with 20mm bore under 2.8 kN radial load, 8 Hz vibration with 0.5mm amplitude, running 16 hours per day. The housing ears cracked at 2,200 hours (roughly 3 months). Switching to a UCF204 extended service life beyond 14,000 hours with no failures.

FS Series: Slotted 4-Bolt Square Flange

The FS housing is a square 4-bolt flange with slotted mounting holes. This allows adjustable positioning during installation, which is useful when alignment is challenging or mounting hole locations vary.

Quick Selection Guide for Flange Housings

Operating ConditionRecommended Series
Loads above 5 kN or significant vibrationF with 4-bolt square
Limited space under 50 mm width and loads below 3 kNFL with 2-bolt oval
Vertical shaft orientation or triangular bolt patternFC with 3-bolt round
Adjustable mounting position neededFS with slotted holes

Insert Bearing Types: UC, SA, SB, UK, UE, UEL

The bearing element inside the housing is the insert bearing. It is a deep groove ball bearing with a spherical outer diameter for self-alignment. Insert bearings are categorized by shaft locking method.

Why does locking method matter in flange bearing selection? The locking method determines how securely the bearing grips the shaft, affecting performance under reversing loads, vibration, and various shaft conditions. Choosing the wrong method can lead to shaft damage, bearing loosening, or premature failure.

Locking Method Comparison

Locking MethodSeriesMechanismIdeal Application
SetscrewUC (metric), SA/SB (inch)Setscrews in the extended inner ring bite into the shaftGeneral use with most common and economical option
Adapter SleeveUKTapered sleeve expands between shaft and bearing borePlain shafts without keyways, high vibration, maximum concentricity
Eccentric CollarUE (metric), UEL (extended inner ring)Offset collar rotated to clamp the shaftReversing loads, moderate vibration, simpler installation

UC Series: Setscrew Locking

The UC series represents the industry standard for insert bearings. Its extended inner ring carries one or two setscrews that lock directly onto the shaft.

Key points:

  • Most widely used and cost-effective locking method
  • Available in metric (UC) and inch-system (SA, SB) bores
  • UC200 series for normal-duty and UC300 series for heavy-duty
  • Wide inner ring gives good shaft support

Example: UC204 has a 20mm bore.

SA and SB are inch-system versions. SA is for standard duty, while SB is for heavy duty with a thicker inner ring.

UK Series: Adapter Sleeve Locking

The UK series locks via an adapter sleeve. A tapered sleeve drives between the shaft and bearing bore, expanding to create a tight fit.

Advantages:

  • Best concentricity among all locking methods
  • Resists fretting corrosion in demanding conditions
  • Works on plain shafts with no keyway needed
  • Handles vibration and impact well

Note that the adapter sleeve is a separate purchase item.

Example: UKF205 equals UK205 insert bearing plus F205 housing and fits a 20mm shaft.

UE and UEL Series: Eccentric Collar Locking

The UE and UEL series use an eccentric collar. Rotating the offset collar clamps it onto the shaft.

When to choose:

  • Reversing loads because the collar grips tighter under reverse torque
  • Easier to install than setscrew types
  • UEL adds a longer inner ring for extra shaft support

Example: UELF204 equals UEL204 bearing plus F204 housing.

Complete Unit Designations: How to Read the Code

The full unit code follows a simple pattern:

Insert Bearing Series + Housing Series = Complete Unit

Insert BearingHousingComplete UnitMeaning
UCFUCFSetscrew bearing with square 4-bolt flange
UCFLUCFLSetscrew bearing with oval 2-bolt flange
UKFUKFAdapter sleeve bearing with square 4-bolt flange
UELFUELFEccentric collar bearing with square 4-bolt flange
UCFCUCFCSetscrew bearing with round 3-bolt flange
UCTUCTSetscrew bearing with take-up housing (not a flange type)

Bore size decoding: the last two digits indicate bore size. In UCF204, “04” means 20mm (multiplying 04 by 5). In inch-series UCF204-12, “-12” means 3/4 inch.

Key Selection Factors: The L.E.S.C. Framework

Use this four-factor framework to guide every selection:

FactorWhat to ExamineWhy It Matters
L LoadSize and direction of radial, axial, or moment loads. Check required dynamic (C) and static (C0) ratings.Under-rated bearings fail early while over-rated bearings add cost without benefit.
E EnvironmentMoisture, chemicals, heat, or contamination present.May force use of stainless steel, plastic housings, or special seals.
S SpaceAvailable envelope, especially height above mounting surface (H) and overall length.The bearing must physically fit and clear adjacent parts.
C CostTotal lifetime cost including purchase price, maintenance, replacement labor, and downtime.A low initial price often costs more over time if the bearing fails early.

Important Dimensions

Check these five critical dimensions against your equipment drawings before ordering:

DimensionWhat It MeasuresCritical For
Bore diameterShaft size the bearing fitsMust match exactly. UCF204 has a 20mm bore.
Height above surface (H)Vertical distance from mounting face to shaft centerClearance. UCF204 has H = 15mm.
Overall length (L)Total housing lengthFrame space. UCF204 has L = 86mm.
Bolt hole spacing (J)Center-to-center distance between mounting holesBolt pattern match. UCF204 has J = 64mm.
Bolt hole size (N)Mounting hole diameterDetermines bolt size. UCF204 uses M10 bolts.

Housing Material

MaterialPropertiesBest Used For
Cast ironGood vibration damping and economicalGeneral industrial use
Pressed steelLightweight and low costLight loads only
Plastic (nylon, PTFE, acetal)Corrosion-resistant and lightweight with up to 40% lower cost than stainless steel and up to 80% lighterFood, chemical, and washdown environments
Stainless steelCorrosion-resistant and high strengthMarine, pharmaceutical, and food processing

Plastic housings offer maintenance-free operation, no lubrication needed, and excellent corrosion resistance.

Bearing and Housing Features

Alignment Features

  • Self-aligning – All insert bearings have a spherical outer ring that compensates for shaft misalignment. This is essential when mounting errors or shaft deflection are possible.
  • Offset hole patterns – Available on some 3-bolt FC housings for additional alignment flexibility.

Maintenance Features

  • Relubricatable – Most flange units include a grease fitting for periodic relubrication, extending service life.
  • Split housing – Some housings split into two halves, letting you replace the bearing without removing the shaft.
  • Seal options – Various seal types such as K-type and triple lip protect against contamination in wet or dirty environments.

Performance Specifications

Maximum Speed

Speed limits depend on bearing type, lubrication, and load. Insert ball bearings typically run faster than roller or plain bearings. Always check the manufacturer’s published speed ratings.

Bearing Life (L10)

L10 represents the life that 90% of identical bearings in a group will reach or exceed.

L10 = (C/P)^3

Where:

  • L10 = rating life in millions of revolutions
  • C = basic dynamic load rating
  • P = equivalent radial load

To convert to hours:

L10 hrs = 16667/N x (C/P)^3

Where N = shaft speed in rpm.

Median Life (L50) is the life 50% of bearings will reach or exceed. L50 is typically no more than five times L10.

Bearing Loads

Radial and axial (thrust) loads act together. Follow these rules:

  • If axial load is under half the radial load, use radial load only for selection.
  • If axial load is half or more of the radial load, use total load (radial plus axial) as equivalent radial load.

Basic Dynamic Load Rating (C) – A calculated constant radial load that identical bearings can endure for one million inner-ring revolutions with the outer ring stationary.

Basic Static Load Rating (C0) – The load that produces 609,000 psi contact stress on the most heavily loaded ball. At this stress, permanent deformation reaches about 0.01% of ball diameter.

Equivalent Radial Load (P):

P = XFr + YFa

Where:

  • Fr = radial load
  • Fa = axial load
  • X and Y = geometry-based factors from the manufacturer’s catalog

Operating Temperature

Temperature limits come from the cage, seal, and grease. Above 300°F (149°C), grease may leak past the seal lip. For high-heat applications, use special high-temperature grease or solid lubricants.

Lubrication

  • Manual lubrication – Uses a grease fitting on the housing to supply lubricant to friction points. Regular maintenance extends bearing life.
  • Self-lubricating bearings – Made from oil-impregnated bronze or graphite alloys, these need no external lubrication. Best for hard-to-access locations.

Installation and Maintenance Tips

Before installation:

  • Surface preparation – clean the mounting surface. It must be flat and free of burrs or debris.
  • Pre-installation inspection – check that all equipment is clean and in good condition.
  • Lubrication – apply the specified lubricant. Over-greasing causes overheating.

Installation rules:

  • No impact loading
  • No hammer strikes directly on the bearing
  • Apply force only through the ring being mounted, never through the rolling elements

Cleanliness – keep the bearing and surrounding area clean. Contamination is a leading cause of early failure.

Flatness check – the housing must sit fully flat on the mounting surface. Any gap distorts the housing and can cause fracture.

Common Selection Mistakes

  • Choosing 2-bolt for high vibration – FL housings cannot handle high vibration or heavy axial thrust.
  • Ignoring surface flatness – a 0.1mm deviation cuts bearing life by 30% and 0.2mm by 55%.
  • Mixing locking methods – UC, UK, and UE bearings have different bore geometries and are not interchangeable.
  • Skipping L10 calculation – catalog ratings alone do not guarantee service life. Always compute L10 = (C/P)^3.
  • Using pressed steel for heavy loads – pressed steel housings suit light loads only.
  • Wrong housing series – selecting FL with 2-bolt when F with 4-bolt is needed.
  • Bore size errors – confirm bore size. UCF204 has 20mm while UCF204-12 has 3/4 inch.

Typical Applications

  • Conveyor systems – roller supports, drive shafts, material handling
  • Agricultural machinery – combines, balers, tillers
  • Industrial fans and blowers – fan shafts in HVAC and ventilation
  • HVAC systems – heating, cooling, and air handling equipment
  • Pumps and compressors – industrial fluid and air handling
  • Food processing – stainless steel or plastic housings for washdown areas
  • Mining and construction – heavy equipment in harsh conditions
  • Automotive – various vehicle assemblies
  • Textile machinery – high-speed spindles and rollers

Conclusion

Selecting the right flange mounted bearing starts with the L.E.S.C. framework: Load, Environment, Space, and Cost.

Quick Reference

Decision PointRecommendation
Loads over 5 kN or high vibrationF series with 4-bolt square
Tight space with loads under 3 kNFL series with 2-bolt oval
Vertical mountingFC series with 3-bolt round
Standard applicationsUC with setscrew locking
Plain shafts with high vibrationUK with adapter sleeve locking
Reversing loadsUE/UEL with eccentric collar locking
Corrosive or washdown environmentsPlastic or stainless steel housing

Final checklist:

  • Always check mounting surface flatness. A 0.1mm deviation costs you 30% of bearing life.
  • Run the L10 = (C/P)^3 calculation to confirm your choice meets the required service life.
  • Verify all five critical dimensions before ordering.

For technical support, product specifications, or custom solutions, reach out to our engineering team through our website.

FAQs

Q1: What distinguishes UCF from UCP?
A1: UCF = UC bearing with F flange housing where the shaft is perpendicular to the mounting face. UCP = UC bearing with P pillow block housing where the shaft is parallel to the mounting face.

Q2: What does UKF stand for?
A2: UKF = UK series bearing with adapter sleeve locking plus F flange housing.

Q3: Can a UC bearing fit an FL housing?
A3: Yes, that combination is labeled UCFL.

Q4: Which locking method handles reversing loads best?
A4: UE/UEL with eccentric collar secures more firmly under reversing torque than setscrew types.

Q5: Why does mounting surface flatness matter so much?
A5: A 0.1mm gap reduces bearing life by 30% while 0.2mm reduces it by 55% due to housing distortion.

Q6: What makes UK series unique?
A6: UK bearings mount on plain shafts without keyways. The adapter sleeve expands to lock the bearing, delivering the highest concentricity and resisting fretting corrosion.

Q7: How do I read the “04” in UCF204?
A7: “04” means 20mm bore by multiplying 04 by 5. In inch-series UCF204-12, “-12” means 3/4 inch.

Q8: Are plastic flange bearings a good option?
A8: Yes. They are up to 40% more cost-effective than stainless steel, up to 80% lighter, and require no lubrication.

Q9: How is L10 bearing life calculated?
A9: L10 = (C/P)^3 gives life in millions of revolutions. For hours: L10 hrs = 16667/N x (C/P)^3.

Q10: Which flange housing series is most common?
A10: The F series with square 4-bolt is the industrial standard for rigidity and vibration resistance.

Q11: What separates UC200 from UC300 series?
A11: UC200 is for normal-duty while UC300 is for heavy-duty.

Q12: What are the four mounted bearing types?
A12: Pillow Block (P/PA/PH), Flange Mounted (F/FA/FB/FC/FL/FS), Take-up (T), and Hanger (HA).

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