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Product Development

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Product Development Product Selection and Development Stages Figure 5.4, pg. 138 Quality Function Deployment (DFD) QFD: The process of Determining what are the ... – PowerPoint PPT presentation

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Title: Product Development


1
Product Development
2
Product Selection and Development Stages
  • Figure 5.4, pg. 138

3
Quality Function Deployment (DFD)
  • QFD The process of
  • Determining what are the customer requirements
    / wants, and
  • Translating those desires into the target product
    design.
  • House of quality A graphic technique for
    defining the relationship between customer
    desires and the developed product (or service)
  • (Discuss Example 1 pgs 139-140)

4
Deploying the Quality Effort
  • Discuss Figure 5.5
  • The final outcome Product Excellence, i.e.,
    determining what the customer wants and providing
    it!

5
Organizing the Product Development Effort
  • The traditional US approach (department-based)
  • Research Development gt Engineering gt
    Manufacturing gt
  • Production
  • Clear-cut responsibilities but lack of
    communication and forward thinking!
  • The currently prevailing approach
    (cross-functional team-based)
  • Product development (or design for
    manufacturability, or value engineering) teams
    Include representatives from
  • Marketing
  • Manufacturing
  • Purchasing
  • Quality assurance
  • Field service
  • (even from) vendors
  • Concurrent engineering Less costly and more
    expedient product development

6
Manufacturability and Value Engineering
  • Promote improved designs and product
    specifications through the RD, design and
    production stages of the product development, by
    seeking to
  • Control the product complexity
  • (further) standardize the employed components
  • Improve job design and job safety
  • Improve the product maintainability /
    serviceability
  • promote robust design practices

7
Some current issues in product design
  • Robustness the insensitivity of the product
    performance to small variations in the production
    or assembly process gt ability to support product
    quality more reliably and cost-effectively.
  • Modularity the structuring of the end product
    through easily segmented components that can also
    be easily interchanged or replaced gt ability to
    support flexible production and product
    customizationincreased product serviceability.
  • Environmental friendliness
  • Safe and environmentally sound products
  • Minimizing waste of raw materials and energy
  • Reducing environmental liabilities
  • Increasing cost-effectiveness of complying with
    environmental regulations
  • Being recognized as good corporate citizen.
  • (example BMW-Figure of pg. 145)

8
The time factor Time-based competition
  • Some advantages of getting first a new product to
    the market
  • Setting the standard (higher market control)
  • Larger market share
  • Higher prices and profit margins
  • Currently, product life cycles get shorter and
    product technological sophistication increases gt
    more money is funneled to the product development
    and the relative risks become higher.
  • Product development strategies for time-based
    competition
  • (Figure 5.7, pg. 147)

9
Documenting Product Designs
  • Engineering Drawing a drawing that shows the
    dimensions, tolerances, materials and finishes of
    a component. (Fig. 5.9)
  • Bill of Material (BOM) A listing of the
    components, their description and the quantity of
    each required to make a unit of a given product.
    (Fig. 5.10)
  • Assembly drawing An exploded view of the
    product, usually via a three-dimensional or
    isometric drawing. (Fig. 5.12)
  • Assembly chart A graphic means of identifying
    how components flow into subassemblies and
    ultimately into the final product. (Fig. 5.12)
  • Route sheet A listing of the operations
    necessary to produce the component with the
    material specified in the bill of materials.
  • Engineering change notice (ECN) a correction or
    modification of an engineering drawing or BOM.
  • Configuration Management A system by which a
    products planned and changing components are
    accurately identified and for which control of
    accountability of change are maintained

10
Documenting Product Designs (cont.)
  • Work order An instruction to make a given
    quantity (known as production lot or batch) of a
    particular item, usually to a given schedule.
  • Group technology A product and component coding
    system that specifies the type of processing and
    the involved parameters, allowing thus the
    identification of processing similarities and the
    systematic grouping/classification of similar
    products. Some efficiencies associated with group
    technology are
  • Improved design (since the focus can be placed on
    a few critical components
  • Reduced raw material and purchases
  • Improved layout, routing and machine loading
  • Reduced tooling setup time, work-in-process and
    production time
  • Simplified production planning and control

11
Make-or-buy decisions
  • Deciding whether to produce a product component
    in-house, or purchase/procure it from an
    outside source.
  • Issues to be considered while making this
    decision
  • Quality of the externally procured part
  • Reliability of the supplier in terms of both item
    quality and delivery times
  • Criticality of the considered component for the
    performance/quality of the entire product
  • Potential for development of new core
    competencies of strategic significance to the
    company
  • Existing patents on this item
  • Costs of deploying and operating the necessary
    infrastructure

12
A simple economic trade-off model for the Make
or Buy problem
  • Model parameters
  • c1 (/unit) cost per unit when item is
    outsourced (item price, ordering and receiving
    costs)
  • C () required capital investment in order to
    support internal production
  • c2 (/unit) variable production cost for
    internal production (materials, labor,variable
    overhead charges)
  • Assume that c2 lt c1
  • X total quantity of the item to be outsourced
    or produced internally

c1X
Total cost as a function of X
Cc2X
C
X
X0 C / (c1-c2)
13
Example Introducing a new (stabilizing) bracket
for an existing product
  • Machine capacity available
  • Required infrastructure for in-house production
  • new tooling 12,500
  • Hiring and training an additional worker 1,000
  • Internal variable production (raw material
    labor) cost 1.12 / unit
  • Vendor-quoted price 1.55 / unit
  • Forecasted demand 10,000 units/year for next 2
    years
  • ?
  • X0 (12,5001,000)/(1.55-1.12) 31,395 gt
    20,000
  • ?
  • Buy!

14
Evaluating Alternatives in Product Design through
Decision Trees
  • Decision Trees A mechanism for systematically
    pricing all options / alternatives under
    consideration, while taking into account various
    uncertainties underlying the considered
    operational context.
  • (Example 3)

15
The Silicon Inc. Example
  • Developing and marketing a new microprocessor
  • Company Options
  • Purchase a sophisticated CAD system 500,000 gt
    manufacturing cost 40/unit
  • Hiring and training three new engineers 375,000
    gt manufacturing cost 50/unit
  • do nothing!
  • Possible market responses
  • Favorable 25,000 units sold at 100 each 40
    chances
  • Unfavorable 8000 units sold at 100 each 60
    chances
  • Pick an option that maximizes the expected
    monetary value (EMV)
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