Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies

Elham Sharifi; Atanu Chaudhuri; Brian Vejrum Wæhrens; Lasse G. Staal; Saeed D. Farahani

doi:10.1007/978-3-030-90700-6_45

Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies

Elham Sharifi^*, Atanu Chaudhuri, Brian Vejrum Wæhrens, Lasse G. Staal, Saeed D. Farahani

^*Kontaktforfatter

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

Abstract

Freeform Injection Molding (FIM) is a novel technology based on sacrificial 3D-printed injection mold tooling. Key FIM benefits include shorter lead-times, lower start-up costs and increased design freedom, compared with existing injection mold tooling technologies. In this paper, it is discussed how FIM as an example of a novel manufacturing technology can be adopted considering internal and external factors. Internal factors include manufacturing technology strategy, organizational contexts, manufacturing system, and supply chain factors. External factors include FIM technology, Social Readiness Level (SRL), market and environmental considerations. Although FIM has reached technical maturity, it has not been widely adopted by manufacturing companies and consequently, the economic impact of FIM has not been fully realized yet. In this paper, a high-level FIM adoption process outlines a series of actions supporting the implementation of FIM as an emerging manufacturing technology. The adoption process starts with introducing the technology and comparing the benefits and limitations of FIM with conventional technologies through awareness building workshops. These workshops will be followed by introducing methodologies that enable the companies to identify components suitable for manufacturing by FIM. Once the suitable components are identified and key requirements defined, the components may be manufactured with FIM and their performance need to be validated to make sure that the criteria/requirements defined by the company are fulfilled. Finally, a procedure is developed to determine the impact and potential route to implementation.

Originalsprog	Engelsk
Titel	Towards Sustainable Customization : Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021
Redaktører	Ann-Louise Andersen, Rasmus Andersen, Thomas Ditlev Brunoe, Maria Stoettrup Schioenning Larsen, Kjeld Nielsen, Alessia Napoleone, Stefan Kjeldgaard
Antal sider	8
Forlag	Springer VS
Publikationsdato	2022
Sider	396-403
ISBN (Trykt)	9783030906993
DOI	https://doi.org/10.1007/978-3-030-90700-6_45
Status	Udgivet - 2022
Begivenhed	8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021 - Aalborg, Danmark Varighed: 1 nov. 2021 → 2 nov. 2021

Konference

Konference	8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021
Land/Område	Danmark
By	Aalborg
Periode	01/11/2021 → 02/11/2021

Navn	Lecture Notes in Mechanical Engineering
ISSN	2195-4356

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10.1007/978-3-030-90700-6_45

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Citationsformater

Sharifi, E., Chaudhuri, A., Wæhrens, B. V., Staal, L. G., & Farahani , S. D. (2022). Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies. I A-L. Andersen, R. Andersen, T. D. Brunoe, M. S. S. Larsen, K. Nielsen, A. Napoleone, & S. Kjeldgaard (red.), Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021 (s. 396-403). Springer VS. https://doi.org/10.1007/978-3-030-90700-6_45

Sharifi, Elham ; Chaudhuri, Atanu ; Wæhrens, Brian Vejrum et al. / Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies. Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021. red. / Ann-Louise Andersen ; Rasmus Andersen ; Thomas Ditlev Brunoe ; Maria Stoettrup Schioenning Larsen ; Kjeld Nielsen ; Alessia Napoleone ; Stefan Kjeldgaard. Springer VS, 2022. s. 396-403 (Lecture Notes in Mechanical Engineering).

@inproceedings{768eca23fd8f4cac853709d60d74b734,

title = "Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies",

abstract = "Freeform Injection Molding (FIM) is a novel technology based on sacrificial 3D-printed injection mold tooling. Key FIM benefits include shorter lead-times, lower start-up costs and increased design freedom, compared with existing injection mold tooling technologies. In this paper, it is discussed how FIM as an example of a novel manufacturing technology can be adopted considering internal and external factors. Internal factors include manufacturing technology strategy, organizational contexts, manufacturing system, and supply chain factors. External factors include FIM technology, Social Readiness Level (SRL), market and environmental considerations. Although FIM has reached technical maturity, it has not been widely adopted by manufacturing companies and consequently, the economic impact of FIM has not been fully realized yet. In this paper, a high-level FIM adoption process outlines a series of actions supporting the implementation of FIM as an emerging manufacturing technology. The adoption process starts with introducing the technology and comparing the benefits and limitations of FIM with conventional technologies through awareness building workshops. These workshops will be followed by introducing methodologies that enable the companies to identify components suitable for manufacturing by FIM. Once the suitable components are identified and key requirements defined, the components may be manufactured with FIM and their performance need to be validated to make sure that the criteria/requirements defined by the company are fulfilled. Finally, a procedure is developed to determine the impact and potential route to implementation.",

keywords = "Freeform injection molding, Part identification, Validation, Business case development, Adoption challenges",

author = "Elham Sharifi and Atanu Chaudhuri and W{\ae}hrens, {Brian Vejrum} and Staal, {Lasse G.} and Farahani, {Saeed D.}",

year = "2022",

doi = "10.1007/978-3-030-90700-6_45",

language = "English",

isbn = "9783030906993",

series = "Lecture Notes in Mechanical Engineering",

publisher = "Springer VS",

pages = "396--403",

editor = "Ann-Louise Andersen and Rasmus Andersen and Brunoe, {Thomas Ditlev} and Larsen, {Maria Stoettrup Schioenning} and Kjeld Nielsen and Alessia Napoleone and Stefan Kjeldgaard",

booktitle = "Towards Sustainable Customization",

note = "8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021 ; Conference date: 01-11-2021 Through 02-11-2021",

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Sharifi, E, Chaudhuri, A, Wæhrens, BV, Staal, LG & Farahani , SD 2022, Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies. i A-L Andersen, R Andersen, TD Brunoe, MSS Larsen, K Nielsen, A Napoleone & S Kjeldgaard (red), Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021. Springer VS, Lecture Notes in Mechanical Engineering, s. 396-403, 8th Changeable, Agile, Reconfigurable and Virtual Production Conference, CARV 2021 and 10th World Mass Customization and Personalization Conference, MCPC 2021, Aalborg, Danmark, 01/11/2021. https://doi.org/10.1007/978-3-030-90700-6_45

Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies. / Sharifi, Elham; Chaudhuri, Atanu; Wæhrens, Brian Vejrum et al.
Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021. red. / Ann-Louise Andersen; Rasmus Andersen; Thomas Ditlev Brunoe; Maria Stoettrup Schioenning Larsen; Kjeld Nielsen; Alessia Napoleone; Stefan Kjeldgaard. Springer VS, 2022. s. 396-403 (Lecture Notes in Mechanical Engineering).

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

TY - GEN

T1 - Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies

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AU - Chaudhuri, Atanu

AU - Wæhrens, Brian Vejrum

AU - Staal, Lasse G.

AU - Farahani , Saeed D.

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AB - Freeform Injection Molding (FIM) is a novel technology based on sacrificial 3D-printed injection mold tooling. Key FIM benefits include shorter lead-times, lower start-up costs and increased design freedom, compared with existing injection mold tooling technologies. In this paper, it is discussed how FIM as an example of a novel manufacturing technology can be adopted considering internal and external factors. Internal factors include manufacturing technology strategy, organizational contexts, manufacturing system, and supply chain factors. External factors include FIM technology, Social Readiness Level (SRL), market and environmental considerations. Although FIM has reached technical maturity, it has not been widely adopted by manufacturing companies and consequently, the economic impact of FIM has not been fully realized yet. In this paper, a high-level FIM adoption process outlines a series of actions supporting the implementation of FIM as an emerging manufacturing technology. The adoption process starts with introducing the technology and comparing the benefits and limitations of FIM with conventional technologies through awareness building workshops. These workshops will be followed by introducing methodologies that enable the companies to identify components suitable for manufacturing by FIM. Once the suitable components are identified and key requirements defined, the components may be manufactured with FIM and their performance need to be validated to make sure that the criteria/requirements defined by the company are fulfilled. Finally, a procedure is developed to determine the impact and potential route to implementation.

KW - Freeform injection molding

KW - Part identification

KW - Validation

KW - Business case development

KW - Adoption challenges

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Sharifi E, Chaudhuri A, Wæhrens BV, Staal LG, Farahani SD. Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies. I Andersen A-L, Andersen R, Brunoe TD, Larsen MSS, Nielsen K, Napoleone A, Kjeldgaard S, red., Towards Sustainable Customization: Bridging Smart Products and Manufacturing Systems - Proceedings of the 8th Changeable, Agile, Reconfigurable and Virtual Production Conference CARV 2021 and 10th World Mass Customization and Personalization Conference MCPC 2021. Springer VS. 2022. s. 396-403. (Lecture Notes in Mechanical Engineering). doi: 10.1007/978-3-030-90700-6_45

Framework for Adoption of Freeform Injection Molding in Discrete Manufacturing Companies

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