Leen Gorissen, Saskia Manshoven and Karl Vrancken
This paper aims to focus on the interface between a society in transition and the role, practices and culture of businesses herein, a topic that has scarcely been researched so…
Abstract
Purpose
This paper aims to focus on the interface between a society in transition and the role, practices and culture of businesses herein, a topic that has scarcely been researched so far. Grand challenges such as energy scarcity and resource depletion will have substantial impacts on the functioning of contemporary business models. Companies, however, still largely focus on efficiency strategies leading to sub-optimal solutions rather than radically changing their business model.
Design/methodology/approach
It describes a project that has been run for a social enterprise in which a transition management approach was used to discover their new future role and explore new business concepts that function within the boundaries of significantly different material management principles.
Findings
The authors discuss how this case study can contribute to the limited developed empirical research on how businesses can be more proactive in changing the way societal systems operate, and whether the approach can be relevant for transfer to the wider business community.
Practical implications
It offers a practical approach for businesses to innovate their business model while taking into regard sustainability issues.
Originality/value
The paper combines the transition management framework with business model innovation.
Details
Keywords
Karl P. Davidson and Sarat B. Singamneni
This paper aims to establish the microstructures and the process-structure relationships in duplex stainless steel powders consolidated by selective laser melting (SLM).
Abstract
Purpose
This paper aims to establish the microstructures and the process-structure relationships in duplex stainless steel powders consolidated by selective laser melting (SLM).
Design/methodology/approach
A priori data on energy density levels most appropriate to consolidation of duplex stainless steel powders through SLM served as the basis to converge on the laser settings. Experimental designs with varying laser power and scan speeds and test pieces generated allowed metallographic evaluations based on optical and scanning electron microscopy and electro backscatter diffraction analyses.
Findings
Duplex stainless steel powders are established for processing by SLM. However, the dynamic point heat source and associated transient thermal fields affect the microstructures to be predominantly ferritic, with grains elongated in the build direction. Austenite precipitated either at the grain boundaries or as Widmanstätten laths, whereas the crystallographic orientations and the grain growth are affected around the cavities. Considerable CrN precipitation is also evidenced.
Originality/value
Duplex stainless steels are relatively new candidates to be brought into the additive manufacturing realm. Considering the poor machinability and other difficulties, the overarching result indicating suitability of duplex powders by SLM is of considerable value to the industry. More significantly, the metallographic evaluation and results of the current research allowed further understanding of the material consolidation aspects and pave ways for fine tuning and establishment of the process-structure-property relationships for this important process-material combination.