Block 4 - lecture 1

Question 1

How do you know when a process is in control?

Answer 1

• special causes have been eliminated so that all subgroups are within control limits
• there’s a natural pattern of variation

Question 2

is uniformity improvement possible when a process is in control?

Answer 2

no, the process would have to be improved

Question 3

what percentage of subgroups are expected between each standard deviation?

Answer 3

0-1 = 34%
1-2 = 13.5%
2-3 = 2.5%

Question 4

Where are control limits typically established?

Answer 4

3 standard deviations from the central line

Question 5

What are the 2 types of error?

Answer 5

Type I error - good but outside limits (ie. over 3sd 0.27% of the time)

Type II error - assignable cause, but within limits

Question 6

why are control limits often set to 3 standard deviations?

Answer 6

to balance cost of type I and II errors

Question 7

Positives of a process being in control?

Answer 7

• more uniform so less rejections (scrap/rework)
• less samples needed, reducing cost of inspection
• process capability is 6sigma (stable and repeatable)
• trouble can be anticipated
• percentage in each range easy to predict

Question 8

decisions to make about processes?

Answer 8

• spec requirements
• scrap vs rework
• loosening specifications and using selective matching

Question 9

benefits from producers sharing Xbar and R charts with customers?

Answer 9

customer requires less checks, as they have more trust

Question 10

two causes of variation?

Answer 10

• common causes eg. chance causes (stable)

- special causes eg. assignable causes (change)

Question 11

what does ‘out of control’ show?

Answer 11

a change in the process due to an assignable cause

Question 12

how can you view a subgroup that falls outside the control limits?

Answer 12

it’s as if it comes from a different population to the control limits, due to special causes

Question 13

examples of patterns in control charts? (using bands of 1 standard deviation)

Answer 13

> 2 in 3 consecutive points outside 2sd

> 4 in 5 consecutive points outside 1sd

> 6 points increasing or decreasing

> 7 consecutive points on one side of the central line

Question 14

examples of patterns in control charts? (using bands of 1.5 standard deviation)

Answer 14

> 2 consecutive points outside 1.5sd

> 6 points increasing or decreasing

> 7 consecutive points on one side of the central line

Question 15

benefits of using 1.5 sigma bands for patterns vs 1 sigma bands

Answer 15

quicker and easier for operators

Question 16

examples of patterns in control charts? (using the shape of plotted points)

Answer 16

• change/jump in level
• steady change in level
• recurring cycles
• two populations
• mistakes

Question 17

possible causes of a jump in level in Xbar charts?

Answer 17

• change of settings (intentional or not)
• wrong setup
• process skipped
• new operator
• different material properties
• machine failure

Question 18

possible causes of a jump in level in R charts?

Answer 18

• inexperienced operator
• sudden gear play
• material variation

Question 19

possible causes of a steady change in level in Xbar charts?

Answer 19

• tool wear
• deteriorating equipment
• gradual change of environment
• viscosity breakdown in chemical processes

Question 20

possible causes of a steady change in level in R charts?

Answer 20

• improving skill
• fatigue, boredom etc.
• material becoming more uniform

Question 21

possible causes of a recurring cycle in Xbar charts?

Answer 21

• environment (seasonal or daily)
• daily/weekly event
• operator rotation

Question 22

possible causes of a recurring cycle in R charts?

Answer 22

• operator fatigue after breaks

- lubrication cycles

Question 23

danger of recurring cycles?

Answer 23

The inspection frequency might not pick up on a cycle if it only records one part of it (eg. same time every day)

Question 24

possible causes of two populations in Xbar charts?

Answer 24

• large material differences
• multiple machines
• multiple methods

Question 25

possible causes of two populations in R charts?

Answer 25

• multiple material suppliers

- different operators

Question 26

possible causes of mistakes in Xbar charts?

Answer 26

• measuring calibration
• calculation errors
• equipment usage
• samples from different populations (different machines etc.)