Business Model Innovation for Additive Manufacturing

Sandberg, Calle; Tinglöv, Embla

Business Model Innovation for Additive Manufacturing

Mark

Sandberg, Calle ^LU and Tinglöv, Embla ^LU (2021) INTM01 20211
Innovation Engineering

Abstract: Metal additive manufacturing is a rapidly emerging technology, with a growing number of companies interested in its implementation. The technology can have several positive effects, such as more efficient production, reduced transports, more focus on circular economy and reduced costs. However, the manufacturing process is still relatively slow, where components require extensive post-processing and new knowledge in the companies involved. For a broad implementation, support functions need to be developed for, amongst others, selection processes, order handling, design, and post-processing.

To investigate possible uses for additive manufacturing, a case study was conducted at Alfa Laval. Their current conditions were mapped so that a... (More); Metal additive manufacturing is a rapidly emerging technology, with a growing number of companies interested in its implementation. The technology can have several positive effects, such as more efficient production, reduced transports, more focus on circular economy and reduced costs. However, the manufacturing process is still relatively slow, where components require extensive post-processing and new knowledge in the companies involved. For a broad implementation, support functions need to be developed for, amongst others, selection processes, order handling, design, and post-processing.

To investigate possible uses for additive manufacturing, a case study was conducted at Alfa Laval. Their current conditions were mapped so that a new business model, specially designed for additive manufacturing, could be developed. Through interviews, future opportunities for the technology were identified, as well as problems related to these. Each possibility was examined related to how the company’s external and internal processes would be affected and changes that could occur in the value chain. The business model blocks that would need to be innovated to support this development, while simultaneously contributing to UN's sustainable development goals, were discussed. Furthermore, these scenarios were evaluated on the basis of viability, feasibility, and desirability.

The report indicates that Alfa Laval should implement additive manufacturing for new products via R&D and for certain spare parts, and in line with this change, adjust their value creating processes, value proposition, and value capture. The two applications utilize different advantages of the technology, and which is best suited for Alfa Laval, and other manufacturing actors, needs to be evaluated during a longer test period within the business. (Less)

Please use this url to cite or link to this publication: http://lup.lub.lu.se/student-papers/record/9050914

author

Sandberg, Calle ^LU and Tinglöv, Embla ^LU

supervisor

Jessica Wadin ^LU
Nanond Nopparat ^LU

organization

Innovation Engineering

alternative title

A case study of an established actor in the metal manufacturing industry

course

INTM01 20211

year

2021

type

H2 - Master's Degree (Two Years)

subject

Technology and Engineering

keywords

metal additive manufacturing, metal 3D printing, industry 4.0, business model impact, business model innovation

language

English

id

9050914

date added to LUP

2021-06-08 10:44:41

date last changed

2021-06-08 10:44:41

@misc{9050914,
  abstract     = {{Metal additive manufacturing is a rapidly emerging technology, with a growing number of companies interested in its implementation. The technology can have several positive effects, such as more efficient production, reduced transports, more focus on circular economy and reduced costs. However, the manufacturing process is still relatively slow, where components require extensive post-processing and new knowledge in the companies involved. For a broad implementation, support functions need to be developed for, amongst others, selection processes, order handling, design, and post-processing.

To investigate possible uses for additive manufacturing, a case study was conducted at Alfa Laval. Their current conditions were mapped so that a new business model, specially designed for additive manufacturing, could be developed. Through interviews, future opportunities for the technology were identified, as well as problems related to these. Each possibility was examined related to how the company’s external and internal processes would be affected and changes that could occur in the value chain. The business model blocks that would need to be innovated to support this development, while simultaneously contributing to UN's sustainable development goals, were discussed. Furthermore, these scenarios were evaluated on the basis of viability, feasibility, and desirability.

The report indicates that Alfa Laval should implement additive manufacturing for new products via R&D and for certain spare parts, and in line with this change, adjust their value creating processes, value proposition, and value capture. The two applications utilize different advantages of the technology, and which is best suited for Alfa Laval, and other manufacturing actors, needs to be evaluated during a longer test period within the business.}},
  author       = {{Sandberg, Calle and Tinglöv, Embla}},
  language     = {{eng}},
  note         = {{Student Paper}},
  title        = {{Business Model Innovation for Additive Manufacturing}},
  year         = {{2021}},
}

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Business Model Innovation for Additive Manufacturing