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| 005 | 20221101192152.0 | ||
| 008 | 020119s2002 nyua bu 001 0 eng d | ||
| 010 | _a 2002021283 | ||
| 011 | _aBIB MATCHES WORLDCAT | ||
| 020 | _a0071395113 | ||
| 020 | _a9780071395113 | ||
| 035 | _a(ATU)b10653971 | ||
| 035 | _a(DLC) 2002021283 | ||
| 035 | _a(OCoLC)49531710 | ||
| 040 |
_aDLC _beng _erda _dATU |
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| 042 | _apcc | ||
| 050 | 0 | 0 |
_aTK7836 _b.S4824 2002 |
| 082 | 0 | 0 |
_a621.381 _221 |
| 100 | 1 |
_aShina, Sammy G., _eauthor. _91042018 |
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| 245 | 1 | 0 |
_aSix Sigma for electronics design and manufacturing / _cSammy G. Shina. |
| 246 | 3 | _a6 Sigma for electronics design and manufacturing | |
| 264 | 1 |
_aNew York : _bMcGraw-Hill, _c[2002] |
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| 264 | 4 | _c©2002 | |
| 300 |
_axxvii, 363 pages : _billustrations ; _c24 cm. |
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| 336 |
_atext _btxt _2rdacontent |
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| 337 |
_aunmediated _bn _2rdamedia |
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| 338 |
_avolume _bnc _2rdacarrier |
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| 490 | 1 | _aMcGraw-Hill professional engineering | |
| 504 | _aIncludes bibliographical references and index. | ||
| 505 | 0 | 0 |
_gCh. 1. _tThe Nature of Six Sigma and Its Connectivity to Other Quality Tools. _g1.1. _tHistorical Perspective. _g1.2. _tWhy Six Sigma? _g1.3. _tDefending Six Sigma. _g1.4. _tThe Definitions of Six Sigma. _g1.5. _tIncreasing the Cp Level to Reach Six Sigma. _g1.6. _tDefinitions of Major Quality Tools and How They Effect Six Sigma. _g1.7. _tMandatory Quality Tools. _g1.8. _tQuality Function Deployment (QFD). _g1.9. _tDesign of Manufacture (DFM). _g1.10. _tDesign of Experiments (DoE). _g1.11. _tOther Quality Tools. _g1.12. _tGauge Repeatability and Reproducibility (GR&R) -- _gCh. 2. _tThe Elements of Six Sigma and Their Determination. _g2.1. _tThe Quality Measurement Techniques: SQC, Six Sigma, Cp and Cpk. _g2.2. _tThe Cpk Approach Versus Six Sigma. _g2.3. _tCalculating Defects Using Normal Distribution. _g2.4. _tAre Manufacturing Processes and Supply Parts Always Normally Distributed? -- _gCh. 3. _tSix Sigma and the Manufacturing Control Systems. _g3.1. _tManufacturing Variability Measurement and Control. _g3.2. _tThe Control of Variable Processes and Its Relationship with Six Sigma. _g3.3. _tAttribute charts and their Relationship with Six Sigma. _g3.4. _tUsing TQM Techniques to Maintain Six Sigma Quality in Manufacturing -- _gCh. 4. _tThe Use of Six Sigma in Determining the Manufacturing Yield and Test Strategy. _g4.1. _tDetermining Units of Defects. _g4.2. _tDetermining Manufacturing Yield on a Single Operation or a Part with Multiple Similar Operations. _g4.3. _tDetermining Design or Manufacturing Yield on Multiple Parts with Multiple Manufacturing Operations or Design Specifications. _g4.4. _tDetermining Overall Product Testing Strategy -- _gCh. 5. _tThe Use of Six Sigma With High- and Low-Volume Products and Processes. _g5.1. _tProcess Average and Standard Deviation Calculations for Samples and Populations. _g5.2. _tDetermining Process Capability. _g5.3. _tDetermining Gauge Capability. _g5.4. _tDetermining Short- and Long-Term Process Capability -- _gCh. 6. _tSix Sigma Quality and Manufacturing Costs of Electronics Products. _g6.1. _tThe Overall Electronic Product Life Cycle Cost Model. _g6.2. _tThe Quality and Cost Relationship. _g6.3. _tElectronic Products Cost Estimating Systems. _g6.4. _tPCB Assembly Cost Estimating Systems -- _gCh. 7. _tSix Sigma and Design of Experiments (DoE). _g7.1. _tDoE Definitions and Expectations. _g7.2. _tDesign of Experiments (DoE) Techniques. _g7.3. _tThe DoE Analysis Tool Set. _g7.4. _tVariability Reduction Using DoE. _g7.5. _tUsing DoE Methods in Six Sigma Design and Manufacturing Projects -- _gCh. 8. _tSix Sigma and Its Use in the Analysis of Design and Manufacturing for Current and New Products and Processes. _g8.1. _tCurrent Product Six Sigma Strategy. _g8.2. _tTransitioning New Product Development to Six Sigma. _g8.3. _tDetermining Six Sigma Quality in Different Design Disciplines. _g8.4. _tApplying Six Sigma Quality for New Product Introduction -- _gCh. 9. _tSix Sigma and the New Product Life Cycle. _g9.1. _tBackground: Concurrent Engineering Successes and New Trends. _g9.2. _tSupply Chain Development. _g9.3. _tProduct Life Cycle and the Six Sigma Design Quality Issues -- _gCh. 10. _tNew Product and Systems Project Management Using Six Sigma Quality. _g10.1. _tThe Quality System Review and Quality-Based Project Management Methodologies. _g10.2. _tTechnical Design Information Flow and Six Sigma System Design -- _gCh. 11. _tImplementing Six Sigma in Electronics Design and Manufacturing. _g11.1. _tSix Sigma Design Project Management Models. _g11.2. _tCultural Issues with the Six Sigma Based System Design Process. _g11.3. _tKey Processes to Enhance the Concurrent Product Creation Process. _g11.4. _tTools to Support Suggested Processes. |
| 520 | 8 |
_aAnnotation _bHERE'S THE NUTS, BOLTS, AND STATISTICS OF IMPLEMENTING SIX SIGMA IN NEW PRODUCT DESIGN AND MANUFACTURING Fewer defects, optimal design, lower production costs, higher quality products, and increased customer satisfaction - with benefits like those, is it any wonder that premier firms such as GE have adopted the Six Sigma approach to design and manufacturing and thousands of other companies are following suit? This powerful engineering resource provides the detailed methodologies, illustrations, and calculations needed for the implementation and improved utilization of Six Sigma in the electronics, mechanical, aerospace, and medical industries. Written by an acknowledged Six Sigma quality expert with a flair for clear, succinct writing - and priceless hands-on new product development and manufacturing experience -- "Six Sigma for Electronics Design and Manufacturing includes eye-opening real-world electronics and high-technology industry case studies and covers essential issues such as: *Six Sigma connectivity with world-class quality tools * Achieving Six Sigma using the manufacturing control systems * Six Sigma methodology in the design of new systems and products * Using Six Sigma for product cost estimation and test strategy * How to use Six Sigma in high- and low-volume products and lifecycles * Six Sigma in project management, including the supply chain * Using Design of Experiments (DoE) to achieve Six Sigma goals * Successful Six Sigma roadmaps * And much more For electrical and mechanical engineers, technicians, and managers who need "the numbers" to make Six Sigma work in the complex electronics and high-technology arena, here is a trulyindispensable reference. |
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| 588 | _aMachine converted from AACR2 source record. | ||
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_aElectronic apparatus and appliances _xDesign and construction _xQuality control _xStandards. |
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_aSix sigma (Quality control standard) _9352228 |
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| 830 | 0 |
_aMcGraw-Hill professional engineering. _9251998 |
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| 856 | 4 | 2 |
_3Contributor biographical information _uhttp://www.loc.gov/catdir/bios/mh041/2002021283.html |
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