Porous Bioceramics Produced by Impregnation of 3D-Printed Wax Mold: Ceramic Architectural Control and Process Limitations

Ceramic biomaterials for tissue engineering

Pina, Sandra Cristina Almeida
Reis, R. L.
Oliveira, J. M.

January 2018

Bioceramics, natural and synthetic, are designed to induce a strong bonding to bone and appeared as ...

Gas flow assisted powder deposition for enhanced flowability of fine powders: 3D printing of α-tricalcium phosphate

Jens Günster
Fabio Chinellato
Fabio Chinellato
Janka Wilbig
Dominik Al-Sabbagh
Paolo Colombo

May 2020

Abstract The possibility of creating patient-specific individual implants makes Additive Manufacturi...

Design and fabrication of standardized hydroxyapatite scaffolds with a defined macro-architecture by rapid prototyping for bone-tissue-engineering research

Wilson, C.E.
Wilson, C.E.
de Bruijn, Joost Dick
van Blitterswijk, Clemens
Verbout, A.J.
Dhert, W.J.A.

January 2004

This investigation describes the production and characterization of calcium phosphate scaffolds with...

Porous Bioceramics Produced by Impregnation of 3D-Printed Wax Mold: Ceramic Architectural Control and Process Limitations

Charbonnier, Baptiste
Laurent, Coralie
Blanc, Gilles
Valfort, Olivier
Marchat, David

January 2016

International audienceCurrent architectural and production limitations prevent the manufacturing sta...

Porous hydroxyapatite bioceramics produced by impregnation of 3D-printed wax mold: Slurry feature optimization

Charbonnier, Baptiste
Laurent, Coralie
Marchat, David

January 2016

International audienceNowadays, new engineering developments that combine computational methods and ...

Three-dimensional printing of porous load-bearing bioceramic scaffolds

Mancuso, E
Alharbi, N
Bretcanu, OA
Marshall, M
Birch, MA
McCaskie, AW
Dalgarno, KW

June 2017

This article reports on the use of the binder jetting three-dimensional printing process combined wi...

Development of three-dimensional printing polymer-ceramic scaffolds with enhanced compressive properties and tuneable resorption

Zhou, Zuoxin
Cunningham, Eoin
Lennon, Alex
McCarthy, Helen O.
Buchanan, Fraser
Dunne, Nicholas

November 2018

In this study, bone tissue engineered scaffolds fabricated via powder-based 3D printing from hydroxy...

Fabrication of Bone Substitute Material by Rapid Prototyping

Ott, A.
Heinzl, J.
Janitza, D.
Pelzer, R.

January 2004

Bone tissue engineering has gained much attention in recent years. A key requirement in this field ...

Redefining architectural effects in 3D printed scaffolds through rational design for optimal bone tissue regeneration

Mirkhalaf, Mohammad
Wang, Xiao
Entezari, Ali
Dunstan, Colin R.
Jiang, Xinquan
Zreiqat, Hala

December 2021

Internal architecture of tissue scaffolds plays a significant role in their ability to heal critical...

Towards Indirect Tissue Scaffold Fabrication via Additive Manufacturing and Hydroxyapatite Mineralization

Bernardo, Jesse
Samavedi, Satyavrata
Williams, Christopher B.
Morgan, Abby W.

September 2010

Unlike traditional stochastic scaffold fabrication techniques, additive manufacturing (AM) can be us...

Characterisation of bone regeneration in 3D printed ductile PCL/PEG/hydroxyapatite scaffolds with high ceramic microparticle concentrations

Cao, Chuanliang
Huang, Pengren
Prasopthum, Aruna
Parsons, Andrew J.
Ai, Fanrong
Yang, Jing

January 2022

3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...

Ceramic scaffolds produced by computer-assisted 3D printing and sintering: characterization and biocompatibility investigations.

Warnke, P.H.
Seitz, H.
Warnke, F.
Becker, S.T.
Sivananthan, S.
Sherry, E.
Liu, Q.
Wiltfang, J.
Douglas, T.E.L.

January 2010

Item does not contain fulltextHydroxyapatite (HAP) and tricalcium phosphate (TCP) are two very commo...

Effect of Design on Bone Tissue Scaffolds Produced via 3D Printer

Deniz EKMEKÇİOĞLU
Ceren PEKŞEN

March 2021

The design of the bone scaffolds changes and develops with the developing technology and production ...

Porous bioceramic production using human teeth [İnsan di̇şi̇ kullanilarak gözenekli̇ bi̇yoserami̇k üreti̇mi̇]

January 2002

Bioceramics like hydroxyapatite (HA) and bioglass are wideliy used in the treatment of bone defects ...

Processing of Bioceramic Implants Via Fused Deposition Process

Bose, Susmita
Avila, Marisol
Bandyopadhyay, Amit

January 1998

Porous ceramic structures have long been a subject of investigation as bone sl..bstitute. Most of t...

Ceramic biomaterials for tissue engineering

Pina, Sandra Cristina Almeida
Reis, R. L.
Oliveira, J. M.

January 2018

Bioceramics, natural and synthetic, are designed to induce a strong bonding to bone and appeared as ...

Gas flow assisted powder deposition for enhanced flowability of fine powders: 3D printing of α-tricalcium phosphate

Jens Günster
Fabio Chinellato
Fabio Chinellato
Janka Wilbig
Dominik Al-Sabbagh
Paolo Colombo

May 2020

Abstract The possibility of creating patient-specific individual implants makes Additive Manufacturi...

Design and fabrication of standardized hydroxyapatite scaffolds with a defined macro-architecture by rapid prototyping for bone-tissue-engineering research

Wilson, C.E.
Wilson, C.E.
de Bruijn, Joost Dick
van Blitterswijk, Clemens
Verbout, A.J.
Dhert, W.J.A.

January 2004

This investigation describes the production and characterization of calcium phosphate scaffolds with...

Porous Bioceramics Produced by Impregnation of 3D-Printed Wax Mold: Ceramic Architectural Control and Process Limitations

Charbonnier, Baptiste
Laurent, Coralie
Blanc, Gilles
Valfort, Olivier
Marchat, David

January 2016

International audienceCurrent architectural and production limitations prevent the manufacturing sta...

Porous hydroxyapatite bioceramics produced by impregnation of 3D-printed wax mold: Slurry feature optimization

Charbonnier, Baptiste
Laurent, Coralie
Marchat, David

January 2016

International audienceNowadays, new engineering developments that combine computational methods and ...

Three-dimensional printing of porous load-bearing bioceramic scaffolds

Mancuso, E
Alharbi, N
Bretcanu, OA
Marshall, M
Birch, MA
McCaskie, AW
Dalgarno, KW

June 2017

This article reports on the use of the binder jetting three-dimensional printing process combined wi...

Development of three-dimensional printing polymer-ceramic scaffolds with enhanced compressive properties and tuneable resorption

Zhou, Zuoxin
Cunningham, Eoin
Lennon, Alex
McCarthy, Helen O.
Buchanan, Fraser
Dunne, Nicholas

November 2018

In this study, bone tissue engineered scaffolds fabricated via powder-based 3D printing from hydroxy...

Fabrication of Bone Substitute Material by Rapid Prototyping

Ott, A.
Heinzl, J.
Janitza, D.
Pelzer, R.

January 2004

Bone tissue engineering has gained much attention in recent years. A key requirement in this field ...

Redefining architectural effects in 3D printed scaffolds through rational design for optimal bone tissue regeneration

Mirkhalaf, Mohammad
Wang, Xiao
Entezari, Ali
Dunstan, Colin R.
Jiang, Xinquan
Zreiqat, Hala

December 2021

Internal architecture of tissue scaffolds plays a significant role in their ability to heal critical...

Towards Indirect Tissue Scaffold Fabrication via Additive Manufacturing and Hydroxyapatite Mineralization

Bernardo, Jesse
Samavedi, Satyavrata
Williams, Christopher B.
Morgan, Abby W.

September 2010

Unlike traditional stochastic scaffold fabrication techniques, additive manufacturing (AM) can be us...

Characterisation of bone regeneration in 3D printed ductile PCL/PEG/hydroxyapatite scaffolds with high ceramic microparticle concentrations

Cao, Chuanliang
Huang, Pengren
Prasopthum, Aruna
Parsons, Andrew J.
Ai, Fanrong
Yang, Jing

January 2022

3D printed bioactive glass or bioceramic particle reinforced composite scaffolds for bone tissue eng...

Ceramic scaffolds produced by computer-assisted 3D printing and sintering: characterization and biocompatibility investigations.

Warnke, P.H.
Seitz, H.
Warnke, F.
Becker, S.T.
Sivananthan, S.
Sherry, E.
Liu, Q.
Wiltfang, J.
Douglas, T.E.L.

January 2010

Item does not contain fulltextHydroxyapatite (HAP) and tricalcium phosphate (TCP) are two very commo...

Effect of Design on Bone Tissue Scaffolds Produced via 3D Printer

Deniz EKMEKÇİOĞLU
Ceren PEKŞEN

March 2021

The design of the bone scaffolds changes and develops with the developing technology and production ...

Porous bioceramic production using human teeth [İnsan di̇şi̇ kullanilarak gözenekli̇ bi̇yoserami̇k üreti̇mi̇]

January 2002

Bioceramics like hydroxyapatite (HA) and bioglass are wideliy used in the treatment of bone defects ...

Processing of Bioceramic Implants Via Fused Deposition Process

Bose, Susmita
Avila, Marisol
Bandyopadhyay, Amit

January 1998

Porous ceramic structures have long been a subject of investigation as bone sl..bstitute. Most of t...

Ceramic biomaterials for tissue engineering

Pina, Sandra Cristina Almeida
Reis, R. L.
Oliveira, J. M.

January 2018

Bioceramics, natural and synthetic, are designed to induce a strong bonding to bone and appeared as ...

Gas flow assisted powder deposition for enhanced flowability of fine powders: 3D printing of α-tricalcium phosphate

Jens Günster
Fabio Chinellato
Fabio Chinellato
Janka Wilbig
Dominik Al-Sabbagh
Paolo Colombo

May 2020

Abstract The possibility of creating patient-specific individual implants makes Additive Manufacturi...

Design and fabrication of standardized hydroxyapatite scaffolds with a defined macro-architecture by rapid prototyping for bone-tissue-engineering research

Wilson, C.E.
Wilson, C.E.
de Bruijn, Joost Dick
van Blitterswijk, Clemens
Verbout, A.J.
Dhert, W.J.A.

January 2004

This investigation describes the production and characterization of calcium phosphate scaffolds with...

Porous Bioceramics Produced by Impregnation of 3D-Printed Wax Mold: Ceramic Architectural Control and Process Limitations

Abstract

Extracted data

Porous Bioceramics Produced by Impregnation of 3D-Printed Wax Mold: Ceramic Architectural Control and Process Limitations

Abstract

Extracted data

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