Runout Controls
What are Runout Controls?
Runout controls define how much a surface can vary when the part is rotated 360° about a datum axis. They are used for rotating parts where concentricity and perpendicularity to the axis are critical.There are two runout controls:
| Symbol | Name | Controls |
|---|---|---|
| ↗ | Circular Runout | Surface variation at each cross-section |
| ↗↗ | Total Runout | Entire surface variation simultaneously |
The Inspection Setup
Runout is inspected by:
- Mounting the part on the datum axis (using centers, a mandrel, or V-blocks)
- Rotating the part 360°
- Measuring surface variation with a dial indicator
Dial Indicator
│
▼
╔═══════════════════════╗
║ Part rotates ║
║ ◄──── 360° ────► ║
╚═══════════════════════╝
│
Datum Axis A1. Circular Runout (↗)
Definition: Controls surface elements at individual cross-sections. The indicator reading at each circular element must not exceed the tolerance.FCF: ┌────┬──────┬────────┐
│ ↗ │ 0.05 │ A │
└────┴──────┴────────┘How It Works
At each cross-section, the surface variation (FIM - Full Indicator Movement) during one full rotation must be within tolerance:
Section 1 ──►│ FIM ≤ 0.05
Section 2 ──►│ FIM ≤ 0.05
Section 3 ──►│ FIM ≤ 0.05
│
═════╪═════ Datum Axis AEach section is checked independently.
What Circular Runout Controls
- On cylindrical surfaces: Circularity + concentricity to datum axis
- On flat surfaces (perpendicular to axis): Circular elements perpendicular to axis
2. Total Runout (↗↗)
Definition: Controls the entire surface simultaneously. The indicator is moved across the entire surface while the part rotates.FCF: ┌────┬──────┬────────┐
│ ↗↗ │ 0.08 │ A │
└────┴──────┴────────┘How It Works
The indicator sweeps across the entire surface while the part rotates continuously. The total variation must be within tolerance:
Indicator moves along surface
╔═══════╦═══════╦═══════╦═══════╗
║ ║ ║ ║ ║
╚═══════╩═══════╩═══════╩═══════╝
│
══════╪══════ Datum Axis A
Total FIM (entire surface) ≤ 0.08What Total Runout Controls
- On cylindrical surfaces: Circularity + cylindricity + concentricity
- On flat surfaces: Flatness + perpendicularity to datum axis
Circular vs. Total Runout
| Aspect | Circular Runout | Total Runout |
|---|---|---|
| Symbol | ↗ | ↗↗ |
| Checks | Individual cross-sections | Entire surface |
| Taper control | No | Yes |
| Straightness control | No | Yes |
| Tolerance | Usually smaller | Usually larger |
A shaft might have:
- Circular runout of 0.05 (individual sections must be round)
- Total runout of 0.10 (accounts for taper and straightness)
Runout on Different Surfaces
Cylindrical Surfaces
Most common application—ensures shaft is concentric with datum axis:
┌────────────────────┐
│ ┌────────────┐ │
│ │ │ │ ← Controlled surface
│ └────────────┘ │
└────────────────────┘
│
Datum Axis AFlat Surfaces (Perpendicular)
Controls wobble of end faces:
┌───────────┐
│ │ ← End face
├───────────┤ (circular runout controls wobble)
│ │
└───────────┘
│
Datum Axis ATapered Surfaces
Total runout controls the entire taper:
╲ ╱
╲ ╱
╲ ╱
╲ ╱
╲ ╱
│
Datum Axis ACommon Applications
| Application | Control | Typical Tolerance |
|---|---|---|
| Bearing journals | Circular runout | 0.01-0.05 mm |
| Shaft seats | Total runout | 0.02-0.08 mm |
| Face surfaces | Circular runout | 0.02-0.05 mm |
| Precision spindles | Total runout | 0.005-0.02 mm |
Runout vs. Other Controls
| Need | Best Control |
|---|---|
| Just roundness | Circularity |
| Just cylindrical form | Cylindricity |
| Concentric to datum + round | Circular Runout |
| Concentric + cylindrical + straight | Total Runout |
| Coaxial axes | Position (⌀ at MMC) |
Key Takeaways
- Runout controls require rotation about a datum axis
- Circular runout: checks individual cross-sections independently
- Total runout: checks entire surface simultaneously (more restrictive)
- Total runout controls form elements that circular runout does not
- Always requires a datum axis reference
- Inspected using dial indicator while rotating part
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Next Lesson: Material Condition Modifiers - understanding MMC, LMC, and bonus tolerance.
