This paper examines a new paradigm in the world of manufacturing—distributed manufacturing based on desktop manufacturing (DM)2. The evolution of (DM)2 began in the last decade of the 20th century and its technological development is well underway, as is evidenced by a World Technology Evaluation Center study (www.wtec.org). However, as managers begin to assess the competitive advantages of moving to this manufacturing model it will be important to consider the social and environmental implications of this paradigm shift as well as issues related to materials and energy utilization. The factors that now appear to be driving the need for radical departures from the more traditional manufacturing paradigms have been broadly articulated but the longer-term future of this manufacturing model is less clear. Several scenarios are proposed and discussed that suggest how manufacturing will shift to a more distributed model via the concept of desktop manufacturing (DM), which will coexist with the centralized manufacturing model but likely take on a greater and greater share of the total manufacturing market worldwide. Spurred on by the rapid emergence of miniaturization technologies, the development and refinement of these desktop manufacturing scenarios needs to be examined in the context of a number of important socioeconomic, environmental, and materials and energy utilization issues as (DM)2 continues to evolve as a transforming paradigm for the world of manufacturing. Scientific, technical, and economic barriers and challenges are identified and discussed.
Issue Section:
Research Papers
Topics:
Manufacturing
References
1.
Friedman
, T. L.
, 2005
, The World is Flat: A Brief History of the 21st Century
, Farrar, Straus and Giroux
, New York
.2.
“
The World Factbook
,” Central Intelligence Agency, https://www.cia.gov/library/publications/the-world-factbook/geos/ch.html3.
“
World Steel Production Report
,” International Steel Statistics Bureau Ltd., http://www.steelonthenet.com/production.html4.
“
Coal Statistics
,” World Coal Association, http://www.worldcoal.org/resources/coal-statistics/5.
Sim
, G.
, 2011
, “Aluminum Consumption in China to Grow 20%, CBI China Predicts
,” Bloomberg Businessweek
, New York.6.
Kotha
, S.
, 1995
, “Mass Customization: Implementing the Emerging Paradigm for Competitive Advantage
,” Strategic Manage. J.
, 16
, pp. 21
–42
.10.1002/(ISSN)1097-02667.
Vallas
, S. P.
, 1999
, “Rethinking Post-Fordism: The Meaning of Workplace Flexibility
,” Sociol. Theory
, 17
(1
), pp. 68
–101
.10.1111/0735-2751.000658.
Zysman
, J.
, 2004
, “Creating Value in a Digital Era: How Do Wealthy Nations Stay Wealthy?
,” Berkeley Roundatable on the International Economy
, Berkeley
, BRIE Working Paper No. 165.9.
Federal Reserve Bank of Dallas
, 1998
, “The Right Stuff: America's Move to Mass Customization,
” Annual Report.10.
New York State Department of Environmental Conservation
, 2009
, Guidelines for Conducting Bird and Bat Studies at Commercial Wind Energy Projects
, Division of Fish Wildlife and Marine Resources
, Albany, NY.
11.
Okazaki
, Y.
, Mishima
, N.
, and Ashida
, K.
, 2004
, “Microfactory—Concept, History, and Developments
,” ASME J. Manuf. Sci. Eng.
, 126
(4
), pp. 837
–844
.10.1115/1.182349112.
“
Microsystems in Japan
,” 2001
, The Industrial Physicist, American Institute of Physics (April/May)
, pp. 26
–28
.13.
Harayama
, Y.
, 2000
, “Technological Paradigm Change and the Role of University: The Case of Micromachine in Japan
,” University of Geneva Economics Working Papers 00.02, University of Geneva
, Department of Political Economy
.14.
Malthan
, D.
, Dobler
, H.
, Gaugel
, T.
, and Kuhn
, C.
, “From Laboratory Processes to Production—Table Top Factory for Biotechnological Applications
,” Proceedings of Third International Workshop on Microfactories (IWMF’02)
, Sept
. 16–18
.15.
Ehmann
, K. F.
, Bourell
, D.
, Culpepper
, M.
, Hodgson
, M.
, Kurfess
, T. R.
, Madou
, M.
, Rajurkar
, K.
, DeVor
, R. E.
, and Allen
, B.
, 2006
, “WTEC Panel Report on International Assessment of Research and Development in Micromanufacturing
,” World Technology Evaluation Center, Baltimore, MD, Report No. PB2007-102143.16.
Hollis
, R.
, and Gowdy
, J.
, 1998
, “Miniature Factories: Tabletop Assembly Systems for Mechatronic Products
,” IARP Micro Robots and Systems Conference
.17.
Hinzmann
, B.
, 1996
, “The Personal Factory
,” MCB Internet Conf. on Rapid Prototyping, SRI International
, http://www.ennex.com/~fabbers/publish/199600-Brock-PersonalFactory.asp18.
Gershenfeld
, N.
, 2005
, “Fabulous Fabrications
,” The Economist (Mar 23rd)
.19.
Endo
, C.
, 2005
, “Desk Top Factory at Takashima
,” Presentation by Chiaki Endo
, Managing Director, Takashima Sangyo Co. Ltd
, October
21
, Suwa, Japan
.20.
21.
KIMM
, 2005
, “Micro-Factory Project
,” Proceedings of the 1st Intelligent Microfactory System International Workshop
, July
15–16
.22.
Sirona Dental Systems
, www.cereconline.com/23.
Honegger
, A.
, Langstaff
, G.
, Phillip
, A.
, VanRavenswaay
, T.
, Kapoor
, S. G.
, and DeVor
, R. E.
, 2006
, “Development of an Automated Microfactory: Part 1—Microfactory Architecture and Sub-Systems Development
,” Trans. North Am. Manuf. Res. Inst. SME
, 34
, pp. 333
–340
.24.
Honegger
, A.
, Langstaff
, G.
, Phillip
, A.
, VanRavenswaay
, T.
, Kapoor
, S. G.
, and DeVor
, R. E.
, 2006
, “Development of an Automated Microfactory: Part 2—Experimentation and Analysis
,” Trans. North Am. Manuf. Res. Inst. SME
, 34
, pp. 341
–348
.25.
“
Home Personal Computers in the United States 2008
,” 2008
, Research and Markets, http://www.researchandmarkets.com/reports/680746/home_personal_computers_in_the_united_states_200826.
Campbell-Kelly
, M.
, 2003
, From Airline Reservations to Sonic the Hedgehog: A History of the Software Industry
, MIT, Cambridge
, MA.
27.
Gandal
, N.
, Greenstein
, S.
, and Salant
, D.
, 1999
, “Adoptions and Orphans in the Early Microcomputer Market
,” J. Ind. Econ.
, 47
(1
), pp. 87
–105
.10.1111/1467-6451.0009128.
Brynjolfsson
, E.
, and Hitt
, L. M.
, 2000
, “Beyond Computation: Information Technology, Organizational Transformation and Business Performance
,” J. Econ. Perspect.
, 14
(4
), pp. 23
–48
.10.1257/jep.14.4.2329.
U.S. Bureau of the Census
, 2005
, “Computer and Internet Use in the United States: 2003
,” U.S. Department of Commerce
, Washington, D.C.
, Report No. P23–208.30.
Attewell
, P.
, 1992
, “Technology Diffusion and Organizational Learning: The Case of Business Computing
,” Org. Sci.
, 3(1
), pp. 1
–19
.10.1287/orsc.3.1.131.
Hirst
, P.
, and Zeitlin
, J.
, 1997
, “Flexible Specialization: Theory and Evidence in the Analysis of Industrial Change
,” Contemporary Capitalism: The Embeddedness of Institutions
, J. R.
Hollingsworth
and R.
Boyer
, eds., Cambridge University, Cambridge
, pp. 220
–239
.32.
Whitford
, J.
, and Zeitlin
, J.
, 2004
, “Governing Decentralized Production: Institutions, Public Policy, and the Prospects for Inter-Firm Collaboration in U.S. Manufacturing
,” Ind. Innov.
, 11
, pp. 11
–44
.10.1080/136627104200020043933.
Autor
, D. H.
, Levy
, F.
, and Murnane
, R. J.
, 2002
, “Upstairs, Downstairs: Computers and Skills on Two Floors of a Large Bank
,” Ind. Labor Relat. Rev.
, 55
(3
), pp. 432
–447
.10.2307/269605034.
Kalleberg
, A. L.
, 2003
, “Flexible Firms and Labor Market Segmentation
,” Work Occupations
, 30
(2
), pp. 154
–175
.10.1177/073088840325168335.
McCall
, L.
, and Percheski
, C.
, 2010
, “Income Inequality: New Trends and Research Directions
,” Annu. Rev. Sociol.
, 36
, pp. 329
–347
.10.1146/annurev.soc.012809.10254136.
Carruthers
, B. G.
, and Babb
, S.
, 2000
, Economy/Society: Markets, Meanings, and Social Structure
, Pine Forge Press
, Thousand Oaks, CA
.37.
Sellen
, A. J.
, and Harper
, R. H. R.
, 2002
, The Myth of the Paperless Office
, MIT, Cambridge
, MA.
38.
Mattsby-Baltzer
, I.
, Sandin
, M.
, Ahlstrom
, B.
, Allenmark
, S.
, Edebo
, M.
, Falsen
, E.
, Pedersen
, K.
, Rodin
, N.
, Thompson
, R. A.
, and Edebo
, L.
, 1989
, “Microbial Growth and Accumulation in Industrial Metal-Working Fluids
,” Appl. Environ. Microbiol.
, 55
(10
), pp. 2681
–2689
.39.
NIOSH
, 1998
, Criteria for a Recommended Standard: Occupational Exposure to Metalworking Fluids
, National Institute of Occupational Safety and Health
, Cincinnati
.40.
Greeley
, M.
, and Rajagopalan
, N.
, 2004
, “Impact of Environmental Contaminants on Machining Properties of Metalworking Fluids
,” Tribol. Int.
, 37
, pp. 327
–332
.10.1016/j.triboint.2003.11.00141.
Rajagopalan
, N.
, Rusk
, T.
, and Dianovsky
, M.
, 2004
, “Purification of Semi-Synthetic Metalworking Fluids by Microfiltration
,” Tribol. Lubr. Technol.
, 60
(8
), pp. 38
–44
.42.
Skerlos
, S. J.
, Rajagopalan
, N.
, DeVor
, R. E.
, Kapoor
, S. G.
, and Angspatt
, D.
, 2000
, “Ingredient-Wise Study of Flux Characteristics in the Ceramic Membrane Filtration of Uncontaminated Synthetic Metalworking Fluids, Part 1: Experimental Investigation of Flux Decline
,” ASME J. Manuf. Sci. Eng.
, 122
(4
), pp. 746
–752
.10.1115/1.128613143.
Skerlos
, S. J.
, Rajagopalan
, N.
, DeVor
, R. E.
, Kapoor
, S. G.
, and Angspatt
, D.
, 2000
, “Ingredient-Wise Study of Flux Characteristics in the Ceramic Membrane Filtration of Uncontaminated Synthetic Metalworking Fluids, Part 2: Analysis of Underlying Mechanisms
,” ASME J. Manuf. Sci. Eng.
, 122
(4
), pp. 746
–752
.10.1115/1.128613144.
Wentz
, J. E.
, Kapoor
, S. G.
, DeVor
, R. E.
, and Rajagopalan
, N.
, 2005
, “Experimental Investigation of Membrane Fouling Due to Microfiltration of Semi-Synthetic Metalworking Fluids
,” Transactions of the North American Manufacturing Research Institution of SME
, XXXIII, pp. 281
–288
.45.
Porter
, J. I.
, 2009
, “Is Art Modern? Kristeller’s ‘Modern System of the Arts’ Reconsidered
,” Br. J. Aesthetics
, 49
(1
), pp. 1
–24
.10.1093/aesthj/ayn05446.
“
Green Chemistry
,” U.S. Environmental Protection Agency, http://www.epa.gov/greenchemistry/47.
Rajagopalan
, N.
, Boddu
, V. M.
, Mishra
, S.
, and Kraybill
, D.
, 1998
, “Pollution Prevention in an Aluminum Grinding Facility
,” Met. Finish.
, 96
(11
), pp. 18
–24
.10.1016/S0026-0576(98)80853-248.
DeVor
, R. E.
, Chang
, T. H.
, and Sutherland
, J. W.
, 1991
, Statistical Quality Design and Control: Contemporary Concepts and Methods
, Prentice-Hall, Englewood Cliffs
, NJ.
49.
Phadke
, M. S.
, 1989
, Quality Engineering Using Robust Design
, Prentice-Hall, Englewood Cliffs
, NJ.
50.
Woodside
, G.
, 1999
, Hazardous Materials and Hazardous Waste Management
, John Wiley and Sons
, New York
.51.
Suryavanashi
, A.
, and Yu
, M.-F.
, 2006
, “Probe-Based Electrochemical Fabrication of Freestanding Cu Nanowire Array
,” Appl. Phys. Lett.
, 88
(8
), p. 083103
.10.1063/1.217753852.
Feynman
, R.
, 1960
, “There’s Plenty of Room at the Bottom—An Invitation to Enter a New Field of Physics
,” Caltech Eng. Sci.
, pp. 22
–36
.53.
Schumpter
, J.
, 1934
, Theory of Economic Development
, Harvard University
, Boston, MA.
54.
Utterbank
, J. M.
, and Abernathy
, W. J.
, 1975
, “A Dynamic Model of Process and Product Innovation
,” Omega, Int. J. Manage. Sci.
, 3
(6
), pp. 639
–656
.10.1016/0305-0483(75)90068-755.
Gort
, M.
, and Klepper
, S.
, 1982
, “Time Paths in the Diffusion of Product Innovation
,” Econ. J.
, 92
(367
), pp. 630
–653
.10.2307/223255456.
Nelson
, R. R.
, and Winter
, S. G.
, 1982
, An Evolution Theory of Economic Change
, Harvard University Press
, Cambridge, MA.57.
Caves
, R. C.
, 1992
, Efficiency in Six Nations
, MIT, Cambridge
, MA
.58.
Christensen
, C. M.
, 1997
, The Innovation Dilemma When New Technologies Cause Great Firms to Fail
, Harvard Business School Press
, Boston, MA.
59.
Cohen
, W. M.
, and Levinthal
, D. A.
, 1990
, “Absorptive Capacity: A New Perspective on Learning and Innovation
,” Adm. Sci. Q.
, 35
, pp. 128
–152
.10.2307/239355360.
Tushman
, M. L.
, and Anderson
, P
, 1986
, “Technological Discontinuities and Organizational Environments
,” Eur. J. Innovation Manage.
, 4
, pp. 117
–125
.10.2307/2392832Copyright © 2012 by ASME
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