A Virtual Prototyping System for Additive Manufacturing Process Development

Okan Topcu; Yigit Tascioglu

doi:10.4028/www.scientific.net/AMR.445.971

Paper Titles

Resource Allocation and Job Dispatching for Unreliable Flexible Flow Shop Manufacturing System
p.947

Automatic Machining Setup Generation for Prismatic Components
p.953

Low Velocity Impact Resistance of CPVC Pipes Exposed to Natural Outdoor Weathering Conditions
p.959

Effect of Deep Cryogenic Treatment on the Microstructure of an Aerospace Aluminum Alloy
p.965

A Virtual Prototyping System for Additive Manufacturing Process Development
p.971

The Effect of Loading History on Unstable Fracture of Austenitic Steel (304)
p.976

Sintering Effect on Boron Based Bioglass Doped Composites of Bovine Hydroxyapatite
p.982

Influence of Tool Material on the Electrical Discharge Machining of AISI H13 Tool Steel
p.988

Correlation of Input Parameters with Tool Martial on the Output Parameters of Electrical Discharge Machining Process
p.994

HomeAdvanced Materials ResearchAdvanced Materials Research Vol. 445A Virtual Prototyping System for Additive...

A Virtual Prototyping System for Additive Manufacturing Process Development

Abstract:

This paper describes a virtual prototyping (VP) system which is a part of an open source software package for an additive manufacturing (AM) process under development. The VP system facilitates the product development by uniting the AM process and virtual reality in order to produce digital prototypes. Moreover, it combines particle based and layer based processes by including powder-like particles as its basic material. These particles are used as color codes in the VP system. This coding enables obtaining basic building blocks in homogeneous state or in heterogeneous state by mixing with other particles. These blocks or bricks are collated side by side to obtain the heterogeneous material property all over the solid body. The thin layers obtained by these bricks are then subsequently stacked up to fabricate a virtual prototype. Construction of multiple material prototypes is possible due to selective-additive nature of this process. The effectiveness of the proposed system is demonstrated by processing a model of The Maidens Tower.