An innovative machine for Fused Deposition Modeling of metals and advanced ceramics

Giberti, Hermes; Strano, Matteo; Annoni, Massimiliano

doi:10.1051/matecconf/20164303003

Cited by 33 publications

(30 citation statements)

References 18 publications

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“…This mixture is processed through extruder for homogenization and then palletised for ease of handling. The specially designed and developed extrusion based additive manufacturing machine allow distinct control over extrusion system and parallel kinematic table for customised printing [11,12]. The prepared feedstock (pelletised mixture) is extruded at controlled flowrates through a nozzle for deposition.…”

Section: Process Overview and Capabilitiesmentioning

confidence: 99%

Rapid production of hollow SS316 profiles by extrusion based additive manufacturing

Rane¹,

Cataldo²,

Parenti³

et al. 2018

AIP Conference Proceedings

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Section: Process Overview and Capabilitiesmentioning

confidence: 99%

Rapid production of hollow SS316 profiles by extrusion based additive manufacturing

Rane¹,

Cataldo²,

Parenti³

et al. 2018

AIP Conference Proceedings

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“…Unfortunately, both of these are required to operate in a tightly controlled atmosphere of inert gas or under vacuum and moreover involve cost and design complexities that create difficulties in their adoption on a large scale. A flexible and simpler possible alternative is being developed at the Department of Mechanics of the Milan Polytechnic, reference [11], based on the design and realisation of a 3D printing solution through the use of a metal injection moulding (MIM) extruder (Figure 1). …”

Section: Mim Extrusion Based Am Technology Overviewmentioning

confidence: 99%

Mechatronic Design for an Extrusion-Based Additive Manufacturing Machine

2017

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3D printers, especially in the implementation of innovative extrusion processes which do not have a long history of development, are often built by adapting mechanical designs, drives and controls previously developed for generic machine tools. This is done through a process of choice and integration which is based principally on empirical criteria and taking into account separately the different aspects and parameters. Hereafter, we present an integrated mechatronic approach which has been adopted to design from the scratch a machine to implement the innovative metal injection moulding (MIM) technology. Its extrusion rate involves the adaptation of the generated trajectories and consequently requires "ad hoc" designs, drives and numerical controls (NC) to enable non standard acceleration (and hence torque) setpoint curves. Overall, the project resulted in an acceptable workspace volume (depending on the number of degrees of freedom of the platform) and allows one to combine the extruder flow rate, the given accuracy and the required working speed (1 m/s). The system is currently used as a test bench for exploring and optimizing the parameter space of a new MIM process.

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“…Three dimensional printing (3DP) methods of ceramics and ceramic composites can directly produce complex parts from 3D computer-aided design (CAD) files without the use of any tooling. Fused deposition modeling (FDM) [2], selective laser sintering (SLS) [3], ceramic jet printing (CJP) [4], and stereolithography (SLA) [5] are some of the common 3DP methods which are used for additive manufacturing of ceramic and ceramic composite materials. During these processes, 3D complex objects are fabricated by rendering each layer according to CAD file and stacking them on each other.…”

Section: Introductionmentioning

confidence: 99%

“…Fabricated green part must be sintered to remove polymeric binder and to fuse the particles. However, extrusion of precursor filament is often disturbed by buckling failures and powder volume fraction is limited by extrusion pressure at the nozzle for FDM and CJP processes [2]. On the other hand, SLA of ceramics utilizes photosensitive resin as a binder to produce the green parts without any nozzle and high energy laser beam.…”

Section: Introductionmentioning

confidence: 99%

Short fiber reinforced 3d printed ceramic composite with shear induced alignment

Yunus

Shi

et al. 2017

Ceramics International

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This paper accounts for utilization of shear induced alignment method during ceramic stereolithography. Lateral oscillation mechanism, combined with 3d printed wall pattern, was employed to generate necessary shear to align fiber in desired direction. First, semicircular channel pattern was printed to assess the effect of difference between wall direction and oscillation direction on the fiber alignment. Then, flexural strength of ceramic matrix was tested with nickel coated carbon fiber and ceramic fiber reinforcements. The results demonstrated that the shear induced alignment further improves the flexural strength compare to randomly distributed samples. Flexural strength of aligned samples with 1.0 wt% carbon fiber loading was improved by ~90% compared to randomly orientated samples and by ~333% compared to unreinforced samples. Finally, fracture surface morphology of the flexural strength test specimens was evaluated. The main fracture mechanism was observed as fiber pull-out.

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An innovative machine for Fused Deposition Modeling of metals and advanced ceramics

Cited by 33 publications

References 18 publications

Rapid production of hollow SS316 profiles by extrusion based additive manufacturing

Rapid production of hollow SS316 profiles by extrusion based additive manufacturing

Mechatronic Design for an Extrusion-Based Additive Manufacturing Machine

Short fiber reinforced 3d printed ceramic composite with shear induced alignment

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