Definition quality
(p. 4)
Quality of a product, process or service refers to the degree to which the product, process or service is able to satisfy (stated or implied) needs
Stated/explicit ones are the (objective) technical specifications
Implicit ones are the (subjective) customer’s expectations
Quality is the degree to which a product/process/service is conforming to its requirements.
What are the most common sources of variability
(p. 6)
the “three M’s
differences in materials
differences in the performance of the manufacturing equipment
differences in the way operators (or men) perform their tasks.
Descirbe Specifications
(p. 8, 9)
Quality characteristics are evaluated relative to specifications => designate acceptable from unacceptable performance
Specifications are external with respect to the production process (usually set by customers or product designers).
The desired Nominal Value (NV) or Target (T) value is usually bounded by a range of values that we believe will be sufficiently close to the target, not to impact the function/performance of the product, if the measuremnet of the quality characteristic is in that range.
USL (Upper Specification Limit): the largest allowable value to be conforming.
LSL (Lower Specification Limit): the smallest allowable value to be conforming
Specifications are not necessarily two-sided
Describe Specification-Level
LSL (Lower Specification Limit): the smallest allowable value to be conforming.
A quality characteristic can be:
Conforming => if it is within specification limits;
Non-conforming => if it falls beyond specification limits
Definition Natural Variablility
(p. 11)
Process tendency towards producing (in regular conditions) products with quality characteristics different from Target values
It is an internal characteristic of the process.
It is the variability of a process when it is governed by random/chance sources of variability only.
random behaviour = no anomalies / no accidents / no failures.
Name and Discirbe a Method that makes it possible to control quality characteristics during production (on-line)
Statistical Process Control (SPC) methods make it possible to control quality characteristics during production (on-line)
Goals
Maintain the process in control
detect/correct possible anomalies
Name non random patterns
(p. 14 - 15)
run, shift, drift
i.e., increasing/decreasing trend due to the presence of assignable causes (e.g. thermal expansion, tool wear, start-up transient before conditions stabilize)
presence of outliers
i.e., isolated points related to assignable causes (e.g. failures in the process
cyclic/periodic trend
e.g., natural fluctuations in temperature throughout the day
Descirbe Natural Tolerance (NT)
(p. 21)
Natural tolerance (NT) range is a quantitative measure of the natural variability of the process
NT range is a range in which realizations of the technical/quality characteristic of interest are likely to be included with a relatively large (conventional) probability.
It is customary to define the upper and lower natural tolerance limits (UNTL and LNTL) as 3∙s above and below the process mean
The process variability is usually measured using the standard deviation (s)
NT can be in- or excluded in the Specification Limits
What if NT is larger in the Specification Limits
What if NT is included Specification Limits
NT is larger in the Specification Limits => Non-conforming products (scraps)
NT is included within the S limit => Almost no scrap
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