New developments in fused deposition modeling of ceramics

Bellini, Anna; Shor, Lauren; Güçeri, Selçuk I.

doi:10.1108/13552540510612901

Cited by 163 publications

(91 citation statements)

References 8 publications

(9 reference statements)

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“…A bending strength of 45MPa and 10% dimensional variation was observed under 0.4J/mm 2 laser energy density. It was also confirmed that the energy required for SLG was less compared to as SLS for ceramic matrix composites production [55,56]. CMCs can benefit aerospace in propulsion and exhaust systems and it can also give thermal protection to the components.…”

Section: Ceramic Matrix Composites Using Additive Manufacturingmentioning

confidence: 50%

A Review on Properties of Aerospace Materials Through Additive Manufacturing

2017

IJMTER

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Abstract-Additive Manufacturing (AM) process has been effective in producing materials that are being utilized by the aerospace industry in order to improve their performance by increasing their properties. Industry now opts for this technique over conventional methods as it has enormous advantages and applications. This Additive Manufacturing process is capable of producing complex near net shape of parts. The materials that are produced by this technique for aerospace industries are metal alloys, metal matrix composites, polymer matrix composites, ceramic matrix composites and nano-composites. Many of the composite materials are still under research and development. In this study, a literature review on the mechanical properties of the materials that are used in the aerospace industry by AM process is discussed and these properties are also compared with the materials produced by conventional methods. The purpose of this review is to highlight the importance of Additive Manufacturing technique and also understand the effect of this process on the materials tested. During this work, the evolution of materials in the aerospace sector, the basic concept of AM technique, the application of the materials, the properties obtained when processing is done, the limitations and the scope for research are given.

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Section: Ceramic Matrix Composites Using Additive Manufacturingmentioning

confidence: 50%

A Review on Properties of Aerospace Materials Through Additive Manufacturing

2017

IJMTER

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“…On the other hand, AM technology has the ability to deal with those type of materials without the need for molds or part specific tools. The most common processes used for producing ceramic components, in general, are three-dimensional printing, selective laser sintering, stereolithography, and direct inkjet printing [33,34]. Selective laser gelation (SLG) has been used to fabricate one of ceramic matrix composites which consist of stainless steel powder and a silica sol at a proportion of 65-35 wt.%.…”

Section: Ceramic Matrix Composites and Ceramic Componentsmentioning

confidence: 99%

Design for additive manufacturing of composite materials and potential alloys: a review

Hegab

2016

Manufacturing Rev.

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-As a first step of applying additive manufacturing (AM) technology, plastic prototypes have been produced using various AM Process such as Fusion Deposition Modeling (FDM), Stereolithography (SLA) and other processes. After more research and development, AM has become capable of producing complex net shaped in materials which can be used in applicable parts. These materials include metals, ceramics, and composites. Polymers and metals are considered as commercially available materials for AM processes; however, ceramics and composites are still considered under research and development. In this study, a literature review on design for AM of composite materials and potential alloys is discussed. It is investigated that polymer matrix, ceramic matrix, metal matrix, and fiber reinforced are most common composites through AM. Furthermore, Functionally Graded Materials (FGM) is considered as an effective application of AM because AM offers the ability to control the composition and optimize the properties of the built part. An example of FGM through using AM technology is the missile nose cone which includes an ultra-high temperature ceramic graded to a refractory metal from outside to inside and it used for sustaining extreme external temperatures. During this work, different applications of AM on different classifications of composite materials are shown through studying of industrial objective, the importance of application, processing, results and future challenges.

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“…Despite of the variety of printing methods for ceramics (stereolithography (SLA) [3], laminated object manufacturing (LOM) [4], selective laser sintering (SLS) [5], fused deposition modeling (FDM) [6], three-dimentional printing (3DP) [7], etc. ), all of them implement a same principle.…”

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confidence: 99%

Composition of the gas atmosphere during the electron beam interaction with the alumina powder in the forevacuum pressure range

Bakeev¹,

Зенин²,

Tyunkov³

et al. 2016

Proceedings of TUSUR

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Composition of the gas atmosphere during the electron beam interaction with the alumina powder in the forevacuum pressure rangeThe results of the investigation of the composition of the gas atmosphere during the electron beam interaction with alumina powder in the forevacuum pressure range are presented. It is shown that during the beam interactions with the powder, there is an intensive outgassing from the particle surface. These gases are water vapor, helium, carbon dioxide, carbon monoxide or nitrogen. Thus, when the electron beam irradiation of alumina powder is performed, the spread of powder particles is carried out by intensive desorption of molecules adsorbed on the surfaces during location in the atmosphere.

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New developments in fused deposition modeling of ceramics

Cited by 163 publications

References 8 publications

A Review on Properties of Aerospace Materials Through Additive Manufacturing

A Review on Properties of Aerospace Materials Through Additive Manufacturing

Design for additive manufacturing of composite materials and potential alloys: a review

Composition of the gas atmosphere during the electron beam interaction with the alumina powder in the forevacuum pressure range

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