Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques

Research output: Contribution to journalConference articleResearchpeer review

Authors

  • Mariia Stepanova
  • Aleksei Eremin
  • Ilia Averianov
  • Iosif Gofman
  • Antonina Lavrentieva
  • Viktor Korzhikov-Vlakh
  • Evgenia Korzhikova-Vlakh

Research Organisations

External Research Organisations

  • St. Petersburg State Polytechnical University
  • Russian Academy of Sciences (RAS)
  • Saint Petersburg State University
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Details

Original languageEnglish
Pages (from-to)277-283
Number of pages7
JournalKey Engineering Materials
Volume822
Early online date24 Sept 2019
Publication statusPublished - 2019
EventInternational Scientific Conference on New Materials and Technologies in Mechanical Engineering, NMTME 2019 - St. Petersburg, Russian Federation
Duration: 12 Mar 201915 Mar 2019

Abstract

Supermacroporous three-dimensional matrices based on poly-D,L-lactide or polycaprolactone were fabricated by thermally induced phase separation method and 3D printing technique. The morphology and mechanical properties of the resulting matrices were studied with the use of optical and scanning electron microscopy and the uniaxial compression test, respectively. All matrices were characterized with supermacroporous structure suitable for cell penetration. A significant increase in Young's modulus and tensile strength was established for both polymer matrices prepared by 3D printing technique.

Keywords

    3D printing, Mechanical properties, Poly-D,L-lactide, Polycaprolactone, Polyesters, Scaffolds, Supermacroporous polymeric matrix, Thermally induced phase separation, Uniaxial compression

ASJC Scopus subject areas

Cite this

Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques. / Stepanova, Mariia; Eremin, Aleksei; Averianov, Ilia et al.
In: Key Engineering Materials, Vol. 822, 2019, p. 277-283.

Research output: Contribution to journalConference articleResearchpeer review

Stepanova, M, Eremin, A, Averianov, I, Gofman, I, Lavrentieva, A, Korzhikov-Vlakh, V & Korzhikova-Vlakh, E 2019, 'Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques', Key Engineering Materials, vol. 822, pp. 277-283. https://doi.org/10.4028/www.scientific.net/KEM.822.277
Stepanova, M., Eremin, A., Averianov, I., Gofman, I., Lavrentieva, A., Korzhikov-Vlakh, V., & Korzhikova-Vlakh, E. (2019). Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques. Key Engineering Materials, 822, 277-283. https://doi.org/10.4028/www.scientific.net/KEM.822.277
Stepanova M, Eremin A, Averianov I, Gofman I, Lavrentieva A, Korzhikov-Vlakh V et al. Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques. Key Engineering Materials. 2019;822:277-283. Epub 2019 Sept 24. doi: 10.4028/www.scientific.net/KEM.822.277
Stepanova, Mariia ; Eremin, Aleksei ; Averianov, Ilia et al. / Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques. In: Key Engineering Materials. 2019 ; Vol. 822. pp. 277-283.
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title = "Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques",
abstract = "Supermacroporous three-dimensional matrices based on poly-D,L-lactide or polycaprolactone were fabricated by thermally induced phase separation method and 3D printing technique. The morphology and mechanical properties of the resulting matrices were studied with the use of optical and scanning electron microscopy and the uniaxial compression test, respectively. All matrices were characterized with supermacroporous structure suitable for cell penetration. A significant increase in Young's modulus and tensile strength was established for both polymer matrices prepared by 3D printing technique.",
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note = "Funding Information: This study was supported by the Russian Ministry of Education and Science (state contract no. 14.W03.31.0014, MegaGrant). The “Geomodel” and “Interdisciplinary Center for Nanotechnology” Research Center of St. Petersburg State University are acknowledged for SEM and mCT analysis.; International Scientific Conference on New Materials and Technologies in Mechanical Engineering, NMTME 2019 ; Conference date: 12-03-2019 Through 15-03-2019",
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T1 - Comparison of supermacroporous polyester matrices fabricated by thermally induced phase separation and 3d printing techniques

AU - Stepanova, Mariia

AU - Eremin, Aleksei

AU - Averianov, Ilia

AU - Gofman, Iosif

AU - Lavrentieva, Antonina

AU - Korzhikov-Vlakh, Viktor

AU - Korzhikova-Vlakh, Evgenia

N1 - Funding Information: This study was supported by the Russian Ministry of Education and Science (state contract no. 14.W03.31.0014, MegaGrant). The “Geomodel” and “Interdisciplinary Center for Nanotechnology” Research Center of St. Petersburg State University are acknowledged for SEM and mCT analysis.

PY - 2019

Y1 - 2019

N2 - Supermacroporous three-dimensional matrices based on poly-D,L-lactide or polycaprolactone were fabricated by thermally induced phase separation method and 3D printing technique. The morphology and mechanical properties of the resulting matrices were studied with the use of optical and scanning electron microscopy and the uniaxial compression test, respectively. All matrices were characterized with supermacroporous structure suitable for cell penetration. A significant increase in Young's modulus and tensile strength was established for both polymer matrices prepared by 3D printing technique.

AB - Supermacroporous three-dimensional matrices based on poly-D,L-lactide or polycaprolactone were fabricated by thermally induced phase separation method and 3D printing technique. The morphology and mechanical properties of the resulting matrices were studied with the use of optical and scanning electron microscopy and the uniaxial compression test, respectively. All matrices were characterized with supermacroporous structure suitable for cell penetration. A significant increase in Young's modulus and tensile strength was established for both polymer matrices prepared by 3D printing technique.

KW - 3D printing

KW - Mechanical properties

KW - Poly-D,L-lactide

KW - Polycaprolactone

KW - Polyesters

KW - Scaffolds

KW - Supermacroporous polymeric matrix

KW - Thermally induced phase separation

KW - Uniaxial compression

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U2 - 10.4028/www.scientific.net/KEM.822.277

DO - 10.4028/www.scientific.net/KEM.822.277

M3 - Conference article

AN - SCOPUS:85106066690

VL - 822

SP - 277

EP - 283

JO - Key Engineering Materials

JF - Key Engineering Materials

SN - 1013-9826

T2 - International Scientific Conference on New Materials and Technologies in Mechanical Engineering, NMTME 2019

Y2 - 12 March 2019 through 15 March 2019

ER -

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