Functional Elements — Tolerances and Fits
1. Rolling Bearings (ISO 286-1 + ISO 15 / ISO 76)
Fundamental principle
The ring that rotates relative to the load direction must have interference with its seat.
If the load-carrying ring can slip in its seat, "creep" begins: progressive erosion, vibration
and premature failure.
Fixed end / free end scheme (thermal expansion)
The free end exists because the shaft grows thermally: without it, parasitic axial loads
build up and destroy bearings and structure.
Tolerance table — Ball and roller bearings (class P0/P6)
SHAFT seat (inner ring)
| Condition |
d ≤ 18 mm |
18 < d ≤ 100 mm |
100 < d ≤ 200 mm |
Notes |
| Light / variable load |
h5, js5 |
h6, js6 |
h6 |
Easy to disassemble |
| Normal load (motors, gearboxes) |
k5 |
k5, m5 |
m6, n6 |
Industrial standard |
| Heavy load / impact |
m5, n5 |
m5, n5, p5 |
n6, p6 |
Thermal assembly |
| Pure axial thrust |
js5, h5 |
js6, h6 |
h6 |
No load rotation |
| Free end |
h6 |
h6 |
h6 |
Deliberate clearance for thermal growth |
HOUSING seat (outer ring)
| Condition |
Bore tolerance |
Notes |
| Fixed outer ring, rotating load on shaft |
H7 |
Standard — removable |
| Impact loads / vibrations |
JS7, K7 |
Slight interference |
| Rotating outer ring (wheels, idler pulleys) |
N7, M7 |
Interference — non-removable |
| Heavy loads with rotating outer ring |
P7 |
Strong interference |
| Adjustable or frequently removable support |
G7 |
Deliberate clearance |
Precision bearings (class P5, P4, P2)
| Class |
Shaft |
Housing |
Application |
| P5 |
j5, k5 |
H6, JS6 |
Simple spindles, precision pumps |
| P4 |
j5, k4 |
H5, JS5 |
Machine tool spindles |
| P2 |
j4, k4 |
H4 |
High-precision grinders, measuring machines |
Angular contact bearings (matched pair)
For O (back-to-back) or X (face-to-face) mounting with preload:
- Shaft: js5 or k5 (maintains axial preload)
- Housing: JS6 (for controlled preload) or H7 standard
- ⚠️ Avoid heavy interference: it reduces the bearing's internal preload
Bearing seat roughness
| Element |
Ra |
Rz |
Notes |
| Shaft (P0/P6) |
≤ 0.8 µm |
≤ 4 µm |
Cylindrical grinding required |
| Housing (P0/P6) |
≤ 1.6 µm |
≤ 8 µm |
Fine boring or internal grinding |
| Shaft (P5/P4) |
≤ 0.4 µm |
≤ 2 µm |
Precision grinding |
| Shoulder / axial abutment |
≤ 1.6 µm |
— |
Flatness important (± 0.005 mm) |
Practical rules for common machines
| Machine |
Shaft (inner ring) |
Housing (outer ring) |
| Electric motor (drive side) |
m5 |
H7 |
| Electric motor (free end) |
k5 |
H7 |
| Industrial gearbox |
k5 or m5 |
H7 or JS7 |
| Centrifugal pump |
k5 or m5 |
H7 |
| Fan (vibrations) |
m5 |
JS7 |
| Wheel / idler pulley |
h6 |
N7 or M7 |
| Machine tool spindle |
j5 or k5 |
H6 or JS6 |
2. Gears
Gear bore – shaft fit
| Requirement |
Fit |
Torque path |
Notes |
| Removable, frequent maintenance |
H7/h6 + key |
Key only |
Small clearance, cold-removable |
| Removable, infrequent maintenance |
H7/k6 + key |
Key + slight interference |
Industrial standard |
| Hot-removable, high precision |
H7/m6 + key |
Key + medium interference |
Heat to 80–120°C |
| Fixed, moderate torque |
H7/p6 |
Interference only |
No key → no stress concentration |
| Fixed, high torque |
H7/r6 or s6 |
Interference only |
Thermal assembly mandatory |
| High angular precision |
H6/k5 + key |
Key |
Minimises run-out |
Tooth profile quality (ISO 1328-1)
| Quality |
Application |
Indicative tooth IT |
Finishing process |
| 3–5 |
Measurement, instruments |
IT5–IT6 |
Profile grinding |
| 6–7 |
Machine tools, precision gearboxes |
IT6–IT7 |
Grinding or shaving |
| 8–9 |
Industrial gearboxes |
IT7–IT8 |
Shaving / hobbing |
| 10–11 |
General mechanics |
IT9–IT10 |
Hobbing only |
| 12 |
Toys, low speed |
IT11–IT12 |
Rough hobbing |
Centre distance tolerance (ISO 1328)
| Application |
Tolerance |
IT grade (indicative) |
| Precision gearboxes |
±0.01 – 0.02 mm |
IT6–IT7 |
| Industrial gearboxes |
±0.03 – 0.05 mm |
IT8–IT9 |
| General mechanics |
±0.1 mm |
IT10–IT11 |
3. Valve Seats
Internal combustion engine valves
| Component |
Typical material |
Fit |
Notes |
| Exhaust valve seat insert |
Sintered steel |
H7/s6 – H7/u6 |
High interference: retains at operating Δt (up to 300°C) |
| Intake valve seat insert |
Cast iron or sintered |
H7/r6 – H7/s6 |
Medium interference |
| Valve guide |
Bronze or sintered |
H7/p6 or H7/r6 (OD) + D9/f7 (ID) |
External fix + stem clearance |
| Valve stem in guide |
Nitrided steel |
D9/f7 or G8/f7 |
Clearance 0.03–0.08 mm (intake) 0.05–0.10 mm (exhaust) |
Pneumatic / hydraulic valves
| Type |
Fit |
Required Ra |
Notes |
| Fixed seat (press in) |
H7/r6 – H7/s6 |
Ra ≤ 0.8 µm (seat) |
Seal by interference + optional sealant |
| Spool / slide valve |
H7/f7 – H7/g6 |
Ra ≤ 0.4 µm |
Gap 0.01–0.05 mm critical for leakage |
| Piston rod / stem |
H8/f7 |
Ra ≤ 0.8 µm |
Combined with O-ring or lip seal |
| High-pressure piston (no seal) |
H6/g5 |
Ra ≤ 0.2 µm |
Metal-to-metal seal — gap 3–8 µm |
4. Transmission Shafts — Complete Layout
Functional zone map
Tolerance table by shaft zone
| Functional zone |
Shaft tolerance |
Ra |
Element |
| Bearing seat — fixed end |
k5 or m5 |
≤ 0.8 µm |
Bearing inner ring |
| Bearing seat — free end |
h6 |
≤ 0.8 µm |
Bearing inner ring (slides) |
| Removable gear seat |
k6 |
≤ 1.6 µm |
Gear + key N9 |
| Fixed gear seat |
p6 |
≤ 0.8 µm |
Gear (interference) |
| Lip seal seat (simmering) |
h11 or h8 |
0.2–0.4 µm |
Rubber/PTFE lip |
| Seeger ring groove on shaft |
h11 (groove diameter) |
≤ 3.2 µm |
Snap ring |
| Keyway width |
N9 |
≤ 3.2 µm |
DIN 6885 key |
| Non-functional zones / fillets |
h9 – h11 |
≤ 6.3 µm |
— |
| Threaded end |
6g (thread) |
— |
Locking nut |
5. Keys (DIN 6885-1 / ISO 773)
→ For dimension tables, fit types, clearance calculation and torque check: see keys-keyways.md
Fit summary
| Fit type |
Shaft keyway |
Hub keyway |
Key |
Use |
| Normal |
N9 |
JS9 |
h9 |
Industrial standard |
| Sliding |
H9 |
D10 |
h9 |
Hub slides axially |
| Tight |
P9 |
P9 |
h9 |
No clearance, high precision |
⚠️ The keyway is a stress concentration feature that reduces shaft fatigue strength
by 25–40%. Do not position at zones of maximum bending.
6. Snap Rings — Seeger (DIN 471 / DIN 472)
Types
- DIN 471: ring for shaft (opens to mount in external groove)
- DIN 472: ring for bore (closes to mount in internal groove)
Groove tolerances
DIN 471 — Groove on SHAFT
| Shaft diameter d (mm) |
Groove width b |
Tolerance b |
Groove diameter d1 |
Tolerance d1 |
| 6 – 9 |
0.9 |
h13 |
d − 1.0 |
h11 |
| 9 – 19 |
1.0 |
h13 |
d − 1.1 |
h11 |
| 19 – 28 |
1.2 |
h13 |
d − 1.3 |
h11 |
| 28 – 46 |
1.5 |
h13 |
d − 1.65 |
h11 |
| 46 – 80 |
1.75 |
h13 |
d − 1.95 |
h11 |
| 80 – 100 |
2.0 |
h13 |
d − 2.25 |
h11 |
DIN 472 — Groove in BORE (housing)
| Bore diameter D (mm) |
Groove width b |
Tolerance b |
Groove diameter D1 |
Tolerance D1 |
| 8 – 14 |
1.0 |
H13 |
D + 1.0 |
H11 |
| 14 – 22 |
1.1 |
H13 |
D + 1.2 |
H11 |
| 22 – 38 |
1.2 |
H13 |
D + 1.3 |
H11 |
| 38 – 65 |
1.5 |
H13 |
D + 1.6 |
H11 |
| 65 – 100 |
1.8 |
H13 |
D + 2.0 |
H11 |
| 100 – 120 |
2.0 |
H13 |
D + 2.2 |
H11 |
Practical rules
- The H11/h11 groove is intentionally wide to allow ring installation with pliers
- Groove diameter controls axial load capacity: always verify against ring load rating (SKF/Seeger tables)
- Groove root radius: r ≤ 0.2 mm to prevent ring jamming
- Do not use Seeger rings for alternating or impact axial loads: use a shoulder or nut
7. Cylindrical and Tapered Pins (ISO 8734 / ISO 8735 / ISO 2339)
| Function |
Pin–bore fit |
Notes |
| Fixed locating / torque pin |
H7/n6 |
Interference — press fit, non-removable |
| Fixed pin with extraction (ISO 8735) |
H7/n6 |
Same, but removable with extractor |
| Removable locating pin |
H7/g6 |
Controlled clearance — hand-removable |
| Hinge / pivot pin |
H7/f7 |
Clearance for rotation — lubrication recommended |
Tapered pins (ISO 2339 — taper 1:50)
- Self-locking: retained by elastic deformation — no special tolerance needed
- Bore produced by reaming with tapered reamer after assembly (recommended)
- Disadvantage: bore is not interchangeable — each pin is matched to its bore
Locating hole position (GD&T)
8. Plain Bearings / Bushings
Types and materials
| Type |
Material |
Characteristic |
Outer fit (in housing) |
| Bronze bushing |
CuSn8, CuZn24Al |
High load capacity, lubrication required |
H7/s6 or H7/u6 |
| Sintered self-lubricating |
Fe or Cu sintered |
Impregnated lubrication, low speed |
H7/r6 or H7/s6 |
| PTFE / graphite bushing |
PTFE composite |
Dry, low speed, high temperature |
H7/p6 or H7/r6 |
| Bimetal (steel + bronze) |
St + CuSn |
High load capacity |
H7/s6 |
| Nylon / POM bushing |
Polyamide, POM |
Lightweight, low torque, quiet |
H7/p6 (check thermal Δt) |
Inner fit: bushing bore – shaft
| Condition |
Fit |
Indicative clearance |
Notes |
| Continuous rotation, lubricated |
H7/f7 or H8/f7 |
0.02–0.07 mm (Ø50) |
Standard — clearance for oil film |
| High speed, forced lubrication |
H7/g6 |
0.01–0.05 mm (Ø50) |
More stable hydrodynamic film |
| Oscillating (no full rotation) |
H9/f9 or H9/e9 |
0.04–0.12 mm (Ø50) |
More clearance to avoid stick-slip |
| Very light load, low speed |
H8/h8 |
0–0.054 mm (Ø50) |
Near zero clearance, marginal lubrication |
Note on plastic bushings (POM/PA)
Plastics have 5–10× higher thermal expansion than steel.
- At ambient temperature: use recommended fit
- At operating temperature: verify interference does not generate excessive pressure (hub cracking
risk) and that internal clearance does not become negative (seizure)
- Rule of thumb: for POM with Δt = +50°C on Ø30, allow 0.06 mm additional clearance
9. Radial Shaft Seals / Lip Seals (DIN 3760 / ISO 6194)
Seat tolerances
| Element |
Tolerance |
Ra |
Notes |
| Shaft (lip contact surface) |
h11 or h8 |
Ra 0.2–0.4 µm |
Circumferential texture — NOT helical |
| Housing bore (seal press-in) |
H8 |
Ra 1.6–3.2 µm |
Lead-in chamfer at entry (15°, r=0.3 mm) |
Lip material and speed limits
| Lip material |
Max speed (m/s) |
Temperature range |
Notes |
| NBR (nitrile) |
≤ 6 m/s |
−40 / +100°C |
Standard — mineral oil |
| FKM (Viton) |
≤ 9 m/s |
−20 / +180°C |
Synthetic oil, high temperature |
| PTFE |
≤ 15 m/s |
−60 / +200°C |
Low friction, marginal lubrication |
| PTFE with stainless lip |
≤ 20 m/s |
−60 / +200°C |
High speed |
Critical requirements
- Shaft hardness: min 55 HRC (or surface treatment: nitriding, chrome plating)
— Soft shaft → lip cuts surface within hours → seal failure
- Circumferential finish: texture must be perpendicular to axis
— Axial grinding direction: lip pumps fluid outward (screw effect → leaks)
- Shaft eccentricity (TIR): max 0.1–0.2 mm depending on diameter and speed
- Internal pressure: standard seals up to 0.3 bar; above → reinforced spring seal or double lip
10. Locating and Positioning Pins
Self-locking taper pins
- Taper 1:50 (ISO 2339 standard): self-locking, suitable for moderate torque
- Taper 1:30 (DIN 1): used on tooling, easier to remove
- Extraction slot in head is always recommended
Spring pins (ISO 8752)
| Application |
Notes |
| Light positioning, low torque |
Economical, bore tolerance H12 — easy assembly |
| Replaces solid pin in vibrating environments |
Spring elasticity absorbs vibrations |
Locating pins for flanges and plates
- Standard: 2 pins diametrically opposed (no more — redundancy creates GD&T issues)
- Diameter: 6–12 mm for most industrial cases
- Fit: H7/n6 on both bores (matched plates) or H7/g6 if frequently removed
11. Involute Splines (ISO 4156 / DIN 5480)
For applications requiring:
- High torque (> 500 Nm on shafts Ø < 50 mm)
- Frequent reversals (no angular backlash)
- High-precision angular connections that must be removable
Fit classes (ISO 4156)
| Class |
Application |
Notes |
| H/h (clearance) |
Removable, axially sliding |
Standard for couplings |
| H/js (transition) |
Precise positioning, fixed |
Light press |
| H/k, H/m (interference) |
Fixed, high torque |
Same as solid hub fits |
Do not dimension individual teeth: use the full ISO 4156 designation
(e.g. "DIN 5480 W30×2×14×9H/9h") and reference the standard.
12. Couplings
Rigid couplings (sleeves, discs)
| Condition |
Shaft–coupling fit |
Notes |
| Fixed, removable |
H7/k6 + key |
Light press, hot-removable |
| Fixed, non-removable |
H7/p6 or r6 |
Interference — thermal assembly |
| Precision (no angular play) |
H6/k5 |
High precision |
Flexible couplings (spider, elastomer)
- Shaft–hub fit: H7/k6 or H7/m6
- Clearance compensated by elastic element — heavy interference not needed
- Misalignment tolerance: see manufacturer's data sheet (typical: 0.1–0.5 mm radial, 0.5–2° angular)
Oldham and universal (cardan) joints
- Shaft–hub: H7/g6 or H7/h6 + pin or key
- Centre element must slide: female side of joint H7/f7 – H8/f8
13. Linear Guides and Sliding Surfaces
| Guide type |
Fit |
Ra |
Application |
| Sliding guide, lubricated |
H7/f7 |
≤ 0.8 µm |
Machine tools, cylinders |
| Sliding guide, high precision |
H6/g5 |
≤ 0.4 µm |
Measuring machines |
| Guide pin / die column |
H7/g6 |
≤ 0.8 µm |
Dies, fixtures |
| Zero-clearance guide (preloaded) |
H6/h5 + preload |
≤ 0.4 µm |
Precision tables |
| Taper centering (self-locating) |
— |
≤ 0.8 µm |
Taper 1:50–1:100, no ISO tolerance needed |
14. General Tolerances (ISO 2768)
For non-critical dimensions, use general tolerances rather than tolerancing every dimension.
| Class |
Symbol |
Approx. grade |
Application |
| Fine |
f |
IT9–IT10 |
Precision mechanics |
| Medium |
m |
IT11 |
Industrial standard (default) |
| Coarse |
c |
IT12–IT13 |
Structures, fabrications |
| Very coarse |
v |
IT14–IT15 |
Raw castings, forgings |
Drawing note: ISO 2768-mK (medium linear + medium geometric tolerances)
Appendix: Quick Decision Flowchart
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