Quality Mgmt, Chapter 11
Six sigma represents a quality level of at most
3.4 defects per million opportunities or 3.4 dpmo
Six Sigma project might span an entire division or a narrow single production operation. factors that should be considered when selecting six sigma projects include
>financial return >impacts on customers and organizational effectiveness >probability of success >impact on employees >fit to strategy and competitive advantage
six sigma projects have three key characteristics
>problem to be solved >a process in which the problem exists >one or more measures that quantify the gap to be closed and can be used to monitor progress
lean production key tools include
The 5S's, visual control, efficient layout and standardized work, pull production, single minute exchange of dies (SMED), total productive maintenance, source inspection, continuous improvement
Applying six sigma to services requires examination of four key measures of the performance which are
accuracy, cycle time, costs, and customer satisfaction
cause-and-effect diagrams
analyze
pareto diagrams
analyze
scatter diagrams
analyze, improve
Quality problem-solving falls into one of five categories which are
conformance problems, efficiency problems, unstructured performance problems, product design problems, and process design problems
control charts
control
Flowcharts
define, control
5 S's
derived from Jap terms for sort, set in order, shine, standardize, and sustain.
The seven qc tools
flowcharts, check sheets, histograms, pareto diagrams, control charts
a six sigma quality level corresponds to a process variation equal to
half of the design tolerance while allowing the mean to shift as much as 1.5 standard deviation from the target.
six sigma project selection
is one of the most difficult challenges in six sigma. the problem is a deviation between what should be happening and what actually is happening
six sigma began as a
manufacturing focus to reduce defect levels to only a few parts per million
check sheets
measure, analyze
histograms
measure, analyze
process design problems involve designing
new processes or substantially revising existing processes. challenge is determining process requirements, generating new process alternatives, and linking these processes to customers needs.
product design problems involve designing
new products that better satisfy user needs
SMED
rapid changeover of tooling and fixtures in machine shops so that multiple products in smaller batches can be run on the same equipment. reducing setup time adds value to the operation and facilitates smoother production flow.
root causes
that condition having allowed or caused a defect to occur
one useful approach for identifying the root cause is
the 5 Why technique. this approached one to redefine a problem statement as a chain of causes and effects to identify the source of the symptoms by asking why, idealyy five times.
visual controls are indicator for
tools, parts, production activities that are placed in plain sight
unstructured performance problems result from
unsatisfactory performance by a poorly specific system. task is not standardized and not fully specified by procedures and requirements. require more creative approaches to solving.
conformance problems are defined by
unsatisfactory performance by a well-specified system. users are not happy with the system outputs such as quality or customer service levels.
efficiency problems problems are a result from
unsatisfactory performance from the standpoint of stakeholders other than customers. typical examples are cost and productivity issues. lean tool are often used for these problems.
pull production (also kanban or JIT)
upstream suppliers do not produce until the downstream customer signals a need for a part.
