Geometric Effects of Free-Floating Technique on Alloy 718 Parts Produced via Laser-Powder Bed Fusion

Hasting, William

January 2020

No description available.

Engineering

Additive

metal AM

Additive Manufacturing

Laser Powder Bed Fusion

Free Floating

LPBF

Pre-study on the use of additive manufacturing to produce low volume complex parts and its environmental sustainability

Sreedhar, Aldric, Gupta C.L., Kaushik

January 2020

With the rapid increase in demand for more high-value customized products and a more sustainable approach to manufacturing, companies are focusing on being more flexible while also trying to minimize environmental impact. As it is not possible to meet these current demands using traditional manufacturing techniques, manufacturing industries are searching for better manufacturing alternatives to address these issues in order to stay competitive. In this thesis, the two issues of manufacturing complex, low volume parts and environmental sustainability were investigated with the use of the additive manufacturing (AM) technology and possible improvements/recommendations were suggested. The conclusions drawn suggested that AM could be used to produce complex parts more efficiently and also proved to be a more sustainable alternative with decreased energy and resource consumption when compared to traditional methods.

Methods of AM

AM materials

review of AM

design for AM

metal AM

plastic AM

applications of AM

sustainability of AM

sustainable additive manufacturing (SAM)

hazards of AM and reliability of AM.

Mechanical Engineering

Maskinteknik

Invest to perform internally versus outsourcing of metal additive manufacturing : An exploratory case study

Johansson, Robert, Rindom Brinter, Sonny

January 2019

Firms often stand before decisions on whether to make or buy components. Various well-established theories that have been applied and developed to understand make or buy decisions have also been critiqued for not generating a well-based decision basis. Research indicates that make or buy decisions are more complex than most theories suggest and that theories within make or buy don’t seem to account for situations when the production technology does not exist in-house. In instances of new technology, in this case metal AM, there is a need to understand and account for the case specific attributes to determine the best course of action. This study explores the decision situation of invest to perform internally versus outsourcing of metal additive manufacturing. The aim is to investigate and identify what factors affect the decision. The research design is a qualitative exploratory case study including 10 interviews and a cost analysis of two products, to answer how metal additive manufacturing affects these decisions. The cost analysis is included, as economic performance is a factor of importance, which makes it meaningful to understand in such situations. The most prominent factors in the result are found to be competency, control, economy, interaction, organization and strategy. The results of the study indicate overlapping similarities of the results through existing theories and suggest that these decisions are more complex than the individual application of single theories. However, the cost analysis shows that the currently held outsourcing alternative is more expensive and this might indicate a non-rational decision in regards to the financial perspective. The main contribution of this study is to the field of decision-making with the conclusion of that individual theories are not sufficient to explain the phenomenon of invest to perform internally versus outsourcing. To evaluate these decisions, the results indicate the necessity to have a multi-criteria approach and include several theoretical perspectives.

Make or buy

Additive manufacturing

Metal AM

Make or buy

Additiv tillverkning

Metall AT

Business Administration

Företagsekonomi