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Computer Aided Manufacturing > Tolerances > Flashcards

Tolerances Flashcards

1
Q

Categories

A
  1. Form
  2. Orientation
  3. Location
  4. Run-out
  5. Profile
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2
Q

Form tolerances

A
  • cylindricity
  • roundness
  • straightness
  • flatness
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3
Q

Orientation tolerances

A
  • perpendicularity
  • parallelism
  • angularity
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4
Q

Location tolerances

A
  • position
  • concentricity
  • symmetry
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5
Q

Run-out tolerances

A
  • circular run-out

- total run-out

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6
Q

profile tolerances

A
  • lines

- surfaces

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7
Q

cylindricity: applicability

A

cylindrical surfaces

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8
Q

cylindricity: interpretation

A

the real cylinder can be inserted into two cylinder; the difference between their radii is the tolerance value

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9
Q

roundness: applicability

A

circular surfaces

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10
Q

roundness: interpretation

A

section by section, intersection with the piece falls into two circumferences; the dufference between their radii is the tolerance value

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11
Q

straightness: applicability

A
  • integral features (real features)

- derived features like axes of cylinders

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12
Q

straightness: interpretation

A

the real line or profile is between two lines in the same plane; the distance between them is the tolerance value

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13
Q

flatness: applicability

A
  • integral flat surfaces

- derived features (median planes)

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14
Q

flatness: interpretation

A

real surface between two parallel planes; their distance is the tolerance value

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15
Q

perpendicularity: applicability

A
  • integral features (flat surfaces)

- derived features (axes, median planes)

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16
Q

perpendicularity: interpretation

A

real surface between two parallel planes, perpendicular to a reference plane (datum feature). distance between the two planes is the tolerance

17
Q

parallelism: applicability

A
  • integral features (flat surfaces)

- derived features (axes, median planes)

18
Q

parallelism: interpretation

A

real surface between two parallel planes, parallel to a reference plane (datum feature). distance between the two planes is the tolerance

19
Q

angularity: applicability

A
  • integral features (flat surfaces)

- derived features (axes, median planes)

20
Q

angularity: interpretation

A

real surface between two parallel planes, inclined wrt a reference line (datum feature). distance between the two planes is the tolerance

21
Q

position: applicability

A
  • derived features (axes, median planes, centers)
22
Q

position: interpretation

A

axes inside a cylinder, whose axis is positioned wrt three reference features (datum system). its diameter is the tolerance

23
Q

concentricity: interpretation

A

centre inside a circle concentric to the reference circle; diameter is the tolerance

Computer Aided Manufacturing (15 decks)

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