The effect of additive manufacturing adoption on supply chain flexibility and performance: An empirical analysis from the automotive industry
暂无分享,去创建一个
[1] Eric W. T. Ngai,et al. An instrument for measuring supply chain flexibility for the textile and clothing companies , 2012, Eur. J. Oper. Res..
[2] S. Vickery,et al. The effects of internal versus external integration practices on time-based performance and overall firm performance , 2004 .
[3] M. Sarstedt,et al. A new criterion for assessing discriminant validity in variance-based structural equation modeling , 2015 .
[4] C. Giménez,et al. Supply chain integration and performance: the moderating effect of supply complexity , 2012 .
[5] A. Alexandrov,et al. The effect of environmental uncertainty, information quality, and collaborative logistics on supply chain flexibility of small manufacturing firms in India , 2013 .
[6] P. Bártolo,et al. Additive manufacturing of tissues and organs , 2012 .
[7] M. Delić,et al. Additive manufacturing: empirical evidence for supply chain integration and performance from the automotive industry , 2019, Supply Chain Management: An International Journal.
[8] Massimiliano Ruffo,et al. Rapid manufacturing facilitated customization , 2008, Int. J. Comput. Integr. Manuf..
[9] Ruth Banomyong,et al. Developing a supply chain performance tool for SMEs in Thailand , 2011 .
[10] Robert J. Vokurka,et al. Delphi study on supply chain flexibility , 2005 .
[11] A. Sánchez,et al. Supply chain flexibility and firm performance , 2005 .
[12] F. Piller,et al. Economic implications of 3D printing: Market structure models in light of additive manufacturing revisited , 2015 .
[13] M. Stevenson,et al. Flexibility from a supply chain perspective: definition and review , 2007 .
[14] Daniel Roy Eyers,et al. The flexibility of industrial additive manufacturing systems , 2018, International Journal of Operations & Production Management.
[15] J. Holmström,et al. Economies of collaboration in build‐to‐model operations , 2019, Journal of Operations Management.
[16] Stefano Ronchi,et al. Measuring supply chain performance: a lifecycle framework and a case study , 2018 .
[17] B. MacCarthy,et al. Building an innovation-based supplier portfolio: The use of patent analysis in strategic supplier selection in the automotive sector , 2017 .
[18] Shian-Jong Chuu,et al. A fuzzy multi-granularity linguistic approach under group decision-making for the evaluation of supply chain flexibility , 2014 .
[19] Z. M. Udin,et al. Supply chain management from the perspective of value chain flexibility: an exploratory study , 2011 .
[20] Joy M. Field,et al. Supplier relations and supply chain performance in financial services processes , 2008 .
[21] Yoram Koren,et al. Product variety and manufacturing complexity in assembly systems and supply chains , 2008 .
[22] Daniel Roy Eyers,et al. Digital manufacturing for spare parts: scenarios for the automotive supply chain , 2017 .
[23] E. Ngai,et al. Supply chain flexibility in an uncertain environment: exploratory findings from five case studies , 2011 .
[24] Surendra S. Yadav,et al. Flexibility in global supply chain: modeling the enablers , 2008 .
[25] M. Barua,et al. Impact of sustainability and manufacturing practices on supply chain performance: Findings from an emerging economy , 2017 .
[26] Baofeng Huo. The impact of supply chain integration on company performance: an organizational capability perspective , 2012 .
[27] A. Nosella,et al. The adoption of Industry 4.0 technologies in SMEs: results of an international study , 2019, Management Decision.
[28] Henrik J. Nyman,et al. From Bits to Atoms: 3D Printing in the Context of Supply Chain Strategies , 2013, 2014 47th Hawaii International Conference on System Sciences.
[29] Ellen Enkel,et al. Exploratory and exploitative innovation: To what extent do the dimensions of individual level absorptive capacity contribute? , 2017 .
[30] Anahita Bagherzad Halimi,et al. A Model for Supply Chain Performance of Electronics Industry in Malaysia , 2011 .
[31] K. Lai,et al. The impact of supplier integration on customer integration and new product performance: The mediating role of manufacturing flexibility under trust theory , 2014 .
[32] Dara G. Schniederjans. Adoption of 3D-printing technologies in manufacturing: A survey analysis , 2017 .
[33] Mohan V. Tatikonda,et al. Manufacturing process flexibility revisited , 2005 .
[34] Matthias Holweg,et al. The three dimensions of responsiveness , 2005 .
[35] Giovanni Miragliotta,et al. Complexity management and supply chain performance assessment. A field study and a conceptual framework , 2004 .
[36] Detmar W. Straub,et al. Common Beliefs and Reality About PLS , 2014 .
[37] A. Gunasekaran,et al. Socially responsible governance mechanisms for manufacturing firms in apparel supply chains , 2018 .
[38] Robert Phaal,et al. The industrial emergence of commercial inkjet printing , 2014 .
[39] S. Donaldson,et al. Understanding Self-Report Bias in Organizational Behavior Research , 2002 .
[40] Ken Young,et al. Towards the 3Daycar: vehicle design and its impact on rapid build-to-order , 2001 .
[41] U. W. Thonemann,et al. Supply Chain Flexibility, Uncertainty and Firm Performance: An Empirical Analysis of German Manufacturing Firms , 2010 .
[42] Rongqiu Chen,et al. Forecast-Driven or Customer-Order-Driven? An Empirical Analysis of the Chinese Automotive Industry , 2006 .
[43] Kamel A. Fantazy,et al. An empirical study of the relationships among strategy, flexibility, and performance in the supply chain context , 2009 .
[44] Marko Sarstedt,et al. PLS-SEM: Indeed a Silver Bullet , 2011 .
[45] David M. Gligor,et al. A Cross‐Disciplinary Examination of Firm Orientations’ Performance Outcomes: The Role of Supply Chain Flexibility , 2014 .
[46] Terry Wohlers,et al. Wohlers report 2016 , 2016 .
[47] Ashok Ranchhod,et al. Comparing respondents of e‐mail and mail surveys: understanding the implications of technology , 2001 .
[48] Varun Grover,et al. An evaluation of the relationship between management practices and computer aided design technology , 2001 .
[49] Bengt Lennartson,et al. Height control of laser metal-wire deposition based on iterative learning control and 3D scanning , 2012 .
[50] Prof Vikas Kumar,et al. Examining legitimatisation of additive manufacturing in the interplay between innovation, lean manufacturing and sustainability , 2020 .
[51] Lauren Thomas-Seale,et al. The barriers to the progression of additive manufacture: perspectives from UK industry , 2018 .
[52] Alessandro Perego,et al. RFId adoption in the FMCG supply chain: an interpretative framework , 2011 .
[53] Jan Olhager,et al. The house of flexibility: using the QFD approach to deploy manufacturing flexibility , 2002 .
[54] Benjamin T. Hazen,et al. Enterprise architecture: A competence-based approach to achieving agility and firm performance , 2017 .
[55] Vinod Kumar,et al. Implementation and management framework for supply chain flexibility , 2006, J. Enterp. Inf. Manag..
[56] Juneho Um,et al. Improving supply chain flexibility and agility through variety management , 2017 .
[57] L. K. Duclos,et al. Supply Chain Flexibility : Building a New Model 1 , 2004 .
[58] Ben Nanfeng Luo,et al. Supply chain information integration, flexibility, and operational performance: An archival search and content analysis , 2018 .
[59] Robert J. Vokurka,et al. A conceptual model of supply chain flexibility , 2003, Ind. Manag. Data Syst..
[60] Daniel Roy Eyers,et al. E-commerce channels for additive manufacturing: an exploratory study , 2015 .
[61] I. N. Pujawan,et al. Assessing supply chain flexibility: a conceptual framework and case study , 2004 .
[62] Peter Hines,et al. Achieving consumer focus in supply chains , 2007 .
[63] R. A. Martins,et al. Robust Parameter Setting of Supply Chain Flexibility Measures Using Distributed Evolutionary Computing , 2014 .
[64] Ian Gibson,et al. Additive manufacturing technologies : 3D printing, rapid prototyping, and direct digital manufacturing , 2015 .
[65] K. Imai,et al. Sensitive Survey Questions with Auxiliary Information , 2020 .
[66] Hans Jürgen Maier,et al. Additively manufactured cellular structures: Impact of microstructure and local strains on the monotonic and cyclic behavior under uniaxial and bending load , 2013 .
[67] Andreas Eggert,et al. Exploring the Impact of Sales Technology on Salesperson Performance: A Task-Base d Approach , 2011 .
[68] J. Hair. Multivariate data analysis , 1972 .
[69] Bhanu S. Ragu-Nathan,et al. The impact of supply chain management practices on competitive advantage and organizational performance , 2006 .
[70] A. Chiu,et al. The impact of 3D Printing Technology on the supply chain: Manufacturing and legal perspectives , 2018, International Journal of Production Economics.
[71] Matthias Holweg,et al. The three-day car challenge: Investigating the inhibitors of responsive order fulfilment in new vehicle supply systems1 , 2003 .
[72] M. Holweg,et al. Managing product variety in emerging markets , 2010 .
[73] Kamel A. Fantazy,et al. Supply chain strategy, flexibility, and performance , 2014 .
[74] Intaher Marcus Ambe,et al. Strategic supply chain framework for the automotive industry , 2010 .
[75] S. Fawcett,et al. Click Here to Print a Maker Movement Supply Chain: How Invention and Entrepreneurship Will Disrupt Supply Chain Design , 2014 .
[76] Maria Nieves Perez-Arostegui,et al. Supply chain flexibility in dynamic environments: The enabling role of operational absorptive capacity and organisational learning , 2018 .
[77] Jean-Pierre Kruth,et al. Feedback control of Layerwise Laser Melting using optical sensors , 2010 .
[78] Ik-Whan G. Kwon,et al. Relationship between supply chain performance and degree of linkage among supplier, internal integration, and customer , 2007 .
[79] Mark A. Vonderembse,et al. Value chain flexibility: A dichotomy of competence and capability , 2002 .
[80] Richard J.M. Hague,et al. Additive Manufacturing for Mass Customization , 2011 .
[81] A. Tiwari,et al. Supply chain flexibility: a comprehensive review , 2015 .
[82] Abderrahmane Sokri,et al. Military supply chain flexibility measures , 2014 .
[83] A. Kashani,et al. Additive manufacturing (3D printing): A review of materials, methods, applications and challenges , 2018, Composites Part B: Engineering.
[84] Kun Liao. Achieving Build-to-order Supply Chain Capability through Practices Driven by Supplier Alignment and Supplier Empowerment , 2008 .
[85] Wynne W. Chin. How to Write Up and Report PLS Analyses , 2010 .
[86] T. Somers,et al. BUSINESS STRATEGY, MANUFACTURING FLEXIBILITY, AND ORGANIZATIONAL PERFORMANCE RELATIONSHIPS: A PATH ANALYSIS APPROACH , 1996 .
[87] Floyd J. Fowler,et al. Survey Research Methods , 1984 .
[88] Herwig Winkler,et al. A capability approach to evaluate supply chain flexibility , 2015 .
[89] A. O'Loughlin,et al. How Australian manufacturing firms perceive and understand the concepts of agility and flexibility in the supply chain , 2015 .
[90] M. Naim,et al. Supply chain flexibility as a determinant of supplier selection , 2010 .
[91] N. D. Burns,et al. Implications of postponement for the supply chain , 2003 .
[92] A. Claudio Garavelli,et al. Flexibility configurations for the supply chain management , 2003 .
[93] M. C. Holcomb,et al. Performance outcomes of supply chain agility: When should you be agile? , 2015 .
[94] Irene C. L. Ng,et al. Contextual variety, Internet-of-Things and the choice of tailoring over platform: Mass customisation strategy in supply chain management $ , 2015 .
[95] D. Jobber,et al. Industrial mail surveys: techniques for inducing response , 1996 .
[96] K. Salonitis,et al. Simulation of metallic powder bed additive manufacturing processes with the finite element method: A critical review , 2017 .
[97] Guoqing Jin,et al. A hybrid and adaptive tool-path generation approach of rapid prototyping and manufacturing for biomedical models , 2013, Comput. Ind..
[98] Marjolein C.J. Caniëls,et al. Supply chain flexibility A systematic literature review and identification of directions for future research , 2017 .
[99] Giuliano Almeida Marodin,et al. Contextual factors and lean production implementation in the Brazilian automotive supply chain , 2016 .
[100] A. Gunasekaran,et al. A framework for supply chain performance measurement , 2004 .
[101] J. Holmström,et al. Digital manufacturing-driven transformations of service supply chains for complex products , 2014 .
[102] G. B. Benitez,et al. The expected contribution of Industry 4.0 technologies for industrial performance , 2018, International Journal of Production Economics.
[103] T. S. Ragu-Nathan,et al. Exploring relationships among IT-enabled sharing capability, supply chain flexibility, and competitive performance , 2014 .
[104] N. Tchernev,et al. Model for flexibility evaluation in manufacturing network strategic planning , 2014 .
[105] Arthur G. Money,et al. How does information sharing affect first-tier suppliers’ flexibility? Evidence from the automotive industry in Sweden , 2018 .
[106] Marko Sarstedt,et al. Partial least squares structural equation modeling (PLS-SEM): An emerging tool in business research , 2014 .
[107] Soo Wook Kim,et al. Manufacturing Practices and Strategy Integration: Effects on Cost Efficiency, Flexibility, and Market-Based Performance , 2005, Decis. Sci..
[108] S. S. Rao,et al. SUPPLY MANAGEMENT, SUPPLY FLEXIBILITY AND PERFORMANCE OUTCOMES: AN EMPIRICAL INVESTIGATION OF MANUFACTURING FIRMS , 2010 .
[109] Srinivas Talluri,et al. Flexibility or Cost Saving? Sourcing Decisions with Two Suppliers , 2010, Decis. Sci..
[110] Dave Alford,et al. Mass customisation } an automotive perspective , 2000 .
[111] A. Beltagui,et al. Effective use of 3D printing in the innovation process , 2019, Technovation.
[112] Julien Gardan,et al. Additive manufacturing technologies: state of the art and trends , 2016 .
[113] T. Laosirihongthong,et al. New manufacturing technology implementation: a study of the Thai automotive industry , 2005 .
[114] Jan Holmström,et al. Additive manufacturing in the spare parts supply chain , 2014, Comput. Ind..
[115] Rajeev Sawhney,et al. Interplay between uncertainty and flexibility across the value-chain: Towards a transformation model of manufacturing flexibility , 2006 .
[116] Benita M. Beamon,et al. Measuring supply chain performance , 1999 .
[117] R. Gerhardt,et al. Effect of processing method on the properties of multifunctional exfoliated graphite nanoplatelets/polyamide 12 composites , 2013 .
[118] Nagesh N. Murthy,et al. The antecedents of supply chain agility of a firm: Scale development and model testing , 2006 .
[119] Vojislav Petrovic,et al. Additive layered manufacturing: sectors of industrial application shown through case studies , 2011 .
[120] A. Fink. How to Conduct Surveys , 1998 .
[121] Daniel Roy Eyers,et al. 3D printing the future: scenarios for supply chains reviewed , 2017 .
[122] David Upton,et al. What Really Makes Factories Flexible , 1995 .
[123] Mohamed Mohamed Naim,et al. The development of a lean, agile and leagile supply network taxonomy based on differing types of flexibility , 2014 .
[124] S. Vickery,et al. Supply Chain Flexibility: An Empirical Study , 1999 .
[125] Joakim Wikner,et al. Mass customization in terms of the customer order decoupling point , 2004 .
[126] Fabio Nonino,et al. Impact of additive manufacturing on business competitiveness: a multiple case study , 2017 .
[127] A. Kaplan,et al. A Beginner's Guide to Partial Least Squares Analysis , 2004 .
[128] Qingyu Zhang,et al. Manufacturing flexibility: Defining and analyzing relationships among competence, capability, and customer satisfaction , 2003 .
[129] Daniel Noyes,et al. Envisioning e-logistics developments: Making spare parts in situ and on demand: State of the art and guidelines for future developments , 2006, Comput. Ind..
[130] M. Stevenson,et al. Supply chain flexibility: an inter‐firm empirical study , 2009 .
[131] C. Blome,et al. The Impact of Knowledge Transfer and Complexity on Supply Chain Flexibility: A Knowledge-Based View , 2013 .
[132] L. F. Scavarda,et al. A multi-tier study on supply chain flexibility in the automotive industry , 2014 .
[133] David Z. Zhang,et al. Additive manufacturing: A framework for implementation , 2014 .
[134] M. H. Small,et al. Developing a framework for the effective planning and implementation of advanced manufacturing technology , 1997 .
[135] Ilaria Giannoccaro,et al. Operations planning and flexibility in a supply chain , 2005 .