3D printing the future: scenarios for supply chains reviewed

Purpose The purpose of this paper is to evaluate the existing scenarios for 3D printing (3DP) in order to identify the “white space” where future opportunities have not been proposed or developed to date. Based around aspects of order penetration points, geographical scope and type of manufacturing, these gaps are identified. Design/methodology/approach A structured literature review has been carried out on both academic and trade publications. As of the end of May 2016, this identified 128 relevant articles containing 201 future scenarios. Coding these against aspects of existing manufacturing and supply chain theory has led to the development of a framework to identify “white space” in the existing thinking. Findings The coding shows that existing future scenarios are particularly concentrated on job shop applications and pull-based supply chain processes, although there are fewer constraints on geographical scope. Five distinct areas of “white space” are proposed, reflecting various opportunities for future 3DP supply chain development. Research limitations/implications Being a structured literature review, there are potentially articles not identified through the search criteria used. The nature of the findings is also dependent upon the coding criteria selected. However, these are theoretically derived and reflect important aspect of strategic supply chain management. Practical implications Practitioners may wish to explore the development of business models within the “white space” areas. Originality/value Currently, existing future 3DP scenarios are scattered over a wide, multi-disciplinary literature base. By providing a consolidated view of these scenarios, it is possible to identify gaps in current thinking. These gaps are multi-disciplinary in nature and represent opportunities for both academics and practitioners to exploit.

[1]  Hans-Dietrich Haasis,et al.  A Study on the Effects of Additive Manufacturing on the Structure of Supply Networks , 2016 .

[2]  J. Holmström,et al.  Digital manufacturing-driven transformations of service supply chains for complex products , 2014 .

[3]  S. Seuring,et al.  Conducting content‐analysis based literature reviews in supply chain management , 2012 .

[4]  S. Reiter A System for Managing Job-Shop Production , 1966 .

[5]  Nitin Nohria,et al.  Value Networks -- The Future of the U.S. Electric Utility Industry , 1997 .

[6]  Stephan M. Wagner,et al.  Additive manufacturing’s impact and future in the aviation industry , 2016 .

[7]  Thierry Rayna,et al.  The Impact of 3D Printing Technologies on Business Model Innovation , 2015 .

[8]  Tsung-Yin Ou,et al.  The Strategic Research on Integrating Service Model for SMEs Cloud Supply Chain in Taiwan , 2014, Int. J. Electron. Bus. Manag..

[9]  Daniel Roy Eyers,et al.  E-commerce channels for additive manufacturing: an exploratory study , 2015 .

[10]  A. Arkin,et al.  Towards synthetic biological approaches to resource utilization on space missions , 2015, Journal of The Royal Society Interface.

[11]  J. Urry,et al.  3D, SF and the future , 2013 .

[12]  N. Mustafee,et al.  Investigating the feasibility of supply chain-centric business models in 3D chocolate printing: A simulation study , 2016 .

[13]  Thomas Birtchnell,et al.  Freight miles:the impact of 3D printing on transport and society , 2013 .

[14]  Babak Kianian,et al.  Wohlers Report 2016: 3D Printing and Additive Manufacturing State of the Industry, Annual Worldwide Progress Report: Chapter title: The Middle East , 2016 .

[15]  A. McKinnon,et al.  Retail logistics in the UK: past, present and future , 2010 .

[16]  M. Naim,et al.  Manufacturers' preparedness for agile construction , 2007 .

[17]  E. Allouche,et al.  Evaluation of lunar regolith geopolymer binder as a radioactive shielding material for space exploration applications , 2015 .

[18]  Björn Eskofier,et al.  An Emerging Era in the Management of Parkinson's Disease: Wearable Technologies and the Internet of Things , 2015, IEEE Journal of Biomedical and Health Informatics.

[19]  M. J. Sáenz,et al.  Special issue on literature reviews in supply chain management and logistics , 2015 .

[20]  M. Bogers,et al.  Additive manufacturing for consumer-centric business models: Implications for supply chains in consumer goods manufacturing , 2016 .

[21]  Siavash H. Khajavi,et al.  Risk reduction in new product launch: A hybrid approach combining direct digital and tool-based manufacturing , 2015, Comput. Ind..

[22]  Simon Ford,et al.  Additive manufacturing and sustainability: an exploratory study of the advantages and challenges , 2016 .

[23]  Michael Potstada,et al.  The role of context in science fiction prototyping: The digital industrial revolution , 2014 .

[24]  Inga-Lena Darkow,et al.  Scenarios for the logistics services industry: A Delphi-based analysis for 2025 , 2010, International Journal of Production Economics.

[25]  M. D. Monzón,et al.  Standardization in additive manufacturing: activities carried out by international organizations and projects , 2015 .

[26]  Ming-Chuan Chiu,et al.  Simulation based method considering design for additive manufacturing and supply chain: An empirical study of lamp industry , 2016, Ind. Manag. Data Syst..

[27]  Kinam Park 3D printing of 5-drug polypill. , 2015, Journal of Controlled Release.

[28]  M. Sodhi How to Do Strategic Supply-Chain Planning , 2006 .

[29]  Maria Mavri,et al.  Redesigning a Production Chain Based on 3D Printing Technology , 2015 .

[30]  Eleftherios Iakovou,et al.  A methodological framework for the inclusion of modern additive manufacturing into the production portfolio of a focused factory , 2015 .

[31]  Mats Jackson,et al.  The concept of mobile manufacturing , 2007 .

[32]  Eric Unterberger,et al.  Concept of the green factory Bavaria in Augsburg , 2015 .

[33]  K. Pawar,et al.  3D printing services: classification, supply chain implications and research agenda , 2016 .

[34]  Rhys Jones,et al.  RepRap – the replicating rapid prototyper , 2011, Robotica.

[35]  Manfred Walter,et al.  Rapid manufacturing in the spare parts supply chain: Alternative approaches to capacity deployment , 2010 .

[36]  Gualtiero Fantoni,et al.  How the Next Generation of Products Pushes to Rethink the Role of Users and Designers , 2014 .

[37]  G. H. Walker,et al.  21st century trucking: A trajectory for ergonomics and road freight. , 2016, Applied ergonomics.

[38]  Connie M. Borror The folly of youth , 2014 .

[39]  Inga-Lena Darkow The involvement of middle management in strategy development —Development and implementation of a foresight-based approach , 2015 .

[40]  Richard J.M. Hague,et al.  The cost of additive manufacturing: machine productivity, economies of scale and technology-push , 2016 .

[41]  J. R. Carter,et al.  Organisation, Communication and Co‐ordination of International Sourcing , 1990 .

[42]  Bmc Bouke Wullms Additive manufacturing in the spare parts supply chain , 2016 .

[43]  Neil Hopkinson,et al.  Rapid manufacturing : an industrial revolution for the digital age , 2006 .

[44]  James Wilk,et al.  The art of the long view: Planning for the future in an uncertain world , 1991 .

[45]  H. Kotzab,et al.  3PL factories or lernstatts? Value‐creation models for 3PL service providers , 2012 .

[46]  Massimiliano Ruffo,et al.  Rapid manufacturing facilitated customization , 2008, Int. J. Comput. Integr. Manuf..

[47]  George Wright,et al.  Scenario Thinking: Practical Approaches to the Future , 2011 .

[48]  B. Garrett 3D Printing: New Economic Paradigms and Strategic Shifts , 2014 .

[49]  Jan Olhager,et al.  Strategic positioning of the order penetration point , 2003 .

[50]  P. Baker,et al.  The Handbook of Logistics and Distribution Management : Understanding the Supply Chain Ed. 6 , 2017 .

[51]  F. Piller,et al.  Predicting the future of additive manufacturing: A Delphi study on economic and societal implications of 3D printing for 2030 , 2017 .

[52]  B. Harrison,et al.  Flexibility, hierarchy and regional development: The changing structure of industrial production systems and their forms of governance in the 1990s , 1991 .

[53]  Katie Bunnell Craft and Digital Technology , 2004 .

[54]  Tim McGinley,et al.  A morphogenetic architecture for intelligent buildings , 2015 .

[55]  Charlie C. L. Wang,et al.  The status, challenges, and future of additive manufacturing in engineering , 2015, Comput. Aided Des..

[56]  Nancy Fan A New Revolution? , 2015, Delaware medical journal.

[57]  Michael A. Cusumano,et al.  Shifting economies: From craft production to flexible systems and software factories , 1992 .

[58]  Heiner Lasi,et al.  Additive Manufacturing – Enabling Technology for Lifecycle Oriented Value-increase or Value-decrease , 2015 .

[59]  R. Mason,et al.  Transport integration tools for supply chain management , 2006 .

[60]  J. Dale Prince,et al.  3D Printing: An Industrial Revolution , 2014 .

[61]  Tim Caffrey,et al.  Wohlers report 2013 : additive manufacturing and 3D printing state of the industry : annual worldwide progress report , 2013 .

[62]  Liz Nickels,et al.  AM and aerospace: an ideal combination , 2015 .

[63]  E. H. Neilsen,et al.  The subordinate's predicaments. , 1979, Harvard business review.

[64]  Suphunnika Ibbotson,et al.  Direct digital manufacturing: definition, evolution, and sustainability implications , 2015 .

[65]  E. Lynch A quick fix? , 2006, Nursing standard (Royal College of Nursing (Great Britain) : 1987).

[66]  Jeremy F. Shapiro,et al.  Challenges of strategic supply chain planning and modeling , 2004, Comput. Chem. Eng..

[67]  Scott Ferguson,et al.  A review of mass customization across marketing, engineering and distribution domains toward development of a process framework , 2013, Research in Engineering Design.

[68]  Heng Zhou,et al.  The impact of additive manufacturing in the aircraft spare parts supply chain: supply chain operation reference (scor) model based analysis , 2014 .

[69]  H. C. Haan Training for work in the informal sector : new evidence from Kenya, Tanzania and Uganda , 2002 .

[70]  Daniel Roy Eyers,et al.  The flexibility of industrial additive manufacturing systems , 2018, International Journal of Operations & Production Management.

[71]  William L. Berry,et al.  Approaches to mass customization: configurations and empirical validation , 2000 .

[72]  Jorge Vicente Lopes da Silva,et al.  Additive Manufacturing and its future impact in logistics , 2013 .

[73]  Richard J.M. Hague,et al.  Cost estimation for rapid manufacturing ’ simultaneous production of mixed components using laser sintering , 2007 .

[74]  Paola Pisano,et al.  The emergence of new networked business models from technology innovation: an analysis of 3-D printing design enterprises , 2014 .

[75]  Carl Schubert,et al.  Innovations in 3D printing: a 3D overview from optics to organs , 2013, British Journal of Ophthalmology.

[76]  Amir Sasson,et al.  The 3D printing order: variability, supercenters and supply chain reconfigurations , 2016 .

[77]  Jagjit Singh Srai,et al.  Characteristics of redistributed manufacturing systems: a comparative study of emerging industry supply networks , 2016 .

[78]  D. Tranfield,et al.  Towards a Methodology for Developing Evidence-Informed Management Knowledge by Means of Systematic Review , 2003 .

[79]  Peter C. Bishop,et al.  The current state of scenario development: an overview of techniques , 2007 .

[80]  Dag Näslund,et al.  Entering the White Space of Logistics Research , 2005 .

[81]  T. Simpson,et al.  3D Printing Disrupts Manufacturing: How Economies of One Create New Rules of Competition , 2013 .

[82]  ScottAlex,et al.  Additive Manufacturing in an End-to-End Supply Chain Setting , 2015 .

[83]  Denis Cormier,et al.  An Environmental Impact Comparison of Distributed and Centralized Manufacturing Scenarios , 2014 .

[84]  Frances A. O'Brien,et al.  Scenario planning - lessons for practice from teaching and learning , 2004, Eur. J. Oper. Res..

[85]  Wolfgang Heidl,et al.  A modular flexible scalable and reconfigurable system for manufacturing of microsystems based on additive manufacturing and E-printing , 2014 .

[86]  Benjamin Kading,et al.  Utilizing in-situ resources and 3D printing structures for a manned Mars mission , 2015 .

[87]  Jelle Saldien,et al.  +TUO project: low cost 3D printers as helpful tool for small communities with rheumatic diseases , 2015 .

[88]  H. V. Landeghem,et al.  Robust planning: a new paradigm for demand chain planning , 2002 .

[89]  Valentina Colla,et al.  Building components for an outpost on the Lunar soil by means of a novel 3D printing technology , 2014 .

[90]  M. Srougi,et al.  Author Reply. , 2016, Urology.