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Artigo de periodico
Fabrication, morphological, mechanical and biological performance of 3D printed poly(ε-caprolactone)/bioglass composite scaffolds for bone tissue engineering applications (2022)
Barbosa, Talita Villa; Dernowsek, Janaína A; Tobar, Raúl Julián Revelo; Casali, Bruna Carla; Fortulan, Carlos Alberto ; Ferreira, Eduardo Bellini ; Araújo, Heloísa Sobreiro Selistre de; Branciforti, Márcia Cristina
Source: Biomedical Materials. Unidade: EESC
Subjects: BIOMATERIAIS, VIDRO, ENGENHARIA TECIDUAL, IMPRESSORA, TERCEIRA DIMENSÃO, MATERIAIS
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ABNT
BARBOSA, Talita Villa et al. Fabrication, morphological, mechanical and biological performance of 3D printed poly(ε-caprolactone)/bioglass composite scaffolds for bone tissue engineering applications. Biomedical Materials, v. 17, n. 5, 2022Tradução . . Disponível em: https://doi.org/10.1088/1748-605X/ac88ad. Acesso em: 08 ago. 2024.
APA
Barbosa, T. V., Dernowsek, J. A., Tobar, R. J. R., Casali, B. C., Fortulan, C. A., Ferreira, E. B., et al. (2022). Fabrication, morphological, mechanical and biological performance of 3D printed poly(ε-caprolactone)/bioglass composite scaffolds for bone tissue engineering applications. Biomedical Materials, 17( 5). doi:10.1088/1748-605X/ac88ad
NLM
Barbosa TV, Dernowsek JA, Tobar RJR, Casali BC, Fortulan CA, Ferreira EB, Araújo HSS de, Branciforti MC. Fabrication, morphological, mechanical and biological performance of 3D printed poly(ε-caprolactone)/bioglass composite scaffolds for bone tissue engineering applications [Internet]. Biomedical Materials. 2022 ; 17( 5):[citado 2024 ago. 08 ] Available from: https://doi.org/10.1088/1748-605X/ac88ad
Vancouver
Barbosa TV, Dernowsek JA, Tobar RJR, Casali BC, Fortulan CA, Ferreira EB, Araújo HSS de, Branciforti MC. Fabrication, morphological, mechanical and biological performance of 3D printed poly(ε-caprolactone)/bioglass composite scaffolds for bone tissue engineering applications [Internet]. Biomedical Materials. 2022 ; 17( 5):[citado 2024 ago. 08 ] Available from: https://doi.org/10.1088/1748-605X/ac88ad
Artigo de periodico
Advantages and disadvantages of bioplastics production from starch and lignocellulosic components (2021)
Abe, Mateus Manabu; Martins, Julia Ribeiro; Sanvezzo, Paula Bertolino; Macedo, João Vitor; Branciforti, Márcia Cristina ; Halley, Peter; Botaro, Vagner Roberto; Brienzo, Michel
Source: Polymers. Unidade: EESC
Subjects: PLÁSTICOS BIODEGRADÁVEIS, BIOMASSA, MATERIAIS
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ABNT
ABE, Mateus Manabu et al. Advantages and disadvantages of bioplastics production from starch and lignocellulosic components. Polymers, v. 13, n. 15, p. 1-25, 2021Tradução . . Disponível em: https://doi.org/10.3390/polym13152484. Acesso em: 08 ago. 2024.
APA
Abe, M. M., Martins, J. R., Sanvezzo, P. B., Macedo, J. V., Branciforti, M. C., Halley, P., et al. (2021). Advantages and disadvantages of bioplastics production from starch and lignocellulosic components. Polymers, 13( 15), 1-25. doi:10.3390/polym13152484
NLM
Abe MM, Martins JR, Sanvezzo PB, Macedo JV, Branciforti MC, Halley P, Botaro VR, Brienzo M. Advantages and disadvantages of bioplastics production from starch and lignocellulosic components [Internet]. Polymers. 2021 ; 13( 15): 1-25.[citado 2024 ago. 08 ] Available from: https://doi.org/10.3390/polym13152484
Vancouver
Abe MM, Martins JR, Sanvezzo PB, Macedo JV, Branciforti MC, Halley P, Botaro VR, Brienzo M. Advantages and disadvantages of bioplastics production from starch and lignocellulosic components [Internet]. Polymers. 2021 ; 13( 15): 1-25.[citado 2024 ago. 08 ] Available from: https://doi.org/10.3390/polym13152484
Artigo de periodico
Reactive extrusion of poly (butylene succinate-co-adipate) and poly (ε-caprolactone) biodegradable blends through titanium-based transesterification catalyst (2020)
Nicolino, Marcos Vinícius Batista; Lucas, Alessandra de Almeida; Branciforti, Márcia Cristina
Source: Polymer Degradation and Stability. Unidade: EESC
Subjects: POLÍMEROS (MATERIAIS), SUSTENTABILIDADE, BIODEGRADAÇÃO, MATERIAIS
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ABNT
NICOLINO, Marcos Vinícius Batista e LUCAS, Alessandra de Almeida e BRANCIFORTI, Márcia Cristina. Reactive extrusion of poly (butylene succinate-co-adipate) and poly (ε-caprolactone) biodegradable blends through titanium-based transesterification catalyst. Polymer Degradation and Stability, v. No 2020, p. 1-9, 2020Tradução . . Disponível em: https://doi.org/10.1016/j.polymdegradstab.2020.109320. Acesso em: 08 ago. 2024.
APA
Nicolino, M. V. B., Lucas, A. de A., & Branciforti, M. C. (2020). Reactive extrusion of poly (butylene succinate-co-adipate) and poly (ε-caprolactone) biodegradable blends through titanium-based transesterification catalyst. Polymer Degradation and Stability, No 2020, 1-9. doi:10.1016/j.polymdegradstab.2020.109320
NLM
Nicolino MVB, Lucas A de A, Branciforti MC. Reactive extrusion of poly (butylene succinate-co-adipate) and poly (ε-caprolactone) biodegradable blends through titanium-based transesterification catalyst [Internet]. Polymer Degradation and Stability. 2020 ; No 2020 1-9.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1016/j.polymdegradstab.2020.109320
Vancouver
Nicolino MVB, Lucas A de A, Branciforti MC. Reactive extrusion of poly (butylene succinate-co-adipate) and poly (ε-caprolactone) biodegradable blends through titanium-based transesterification catalyst [Internet]. Polymer Degradation and Stability. 2020 ; No 2020 1-9.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1016/j.polymdegradstab.2020.109320
Artigo de periodico
Failure monitoring and recovery system during manufacturing process (2020)
Parkesian, P.; Watanabe, F.; Cunha, Daniel Aparecido Lopes Vieira da; Branciforti, Márcia Cristina ; Aroca, R.
Source: IEEE Latin America Transactions. Unidade: EESC
Subjects: IMAGEM 3D, MANUFATURA, INTERNET DAS COISAS, IMPRESSÃO, MATERIAIS
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ABNT
PARKESIAN, P. et al. Failure monitoring and recovery system during manufacturing process. IEEE Latin America Transactions, v. 18, n. 2, p. 407-413, 2020Tradução . . Disponível em: https://doi.org/10.1109/TLA.2020.9085297. Acesso em: 08 ago. 2024.
APA
Parkesian, P., Watanabe, F., Cunha, D. A. L. V. da, Branciforti, M. C., & Aroca, R. (2020). Failure monitoring and recovery system during manufacturing process. IEEE Latin America Transactions, 18( 2), 407-413. doi:10.1109/TLA.2020.9085297
NLM
Parkesian P, Watanabe F, Cunha DALV da, Branciforti MC, Aroca R. Failure monitoring and recovery system during manufacturing process [Internet]. IEEE Latin America Transactions. 2020 ; 18( 2): 407-413.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1109/TLA.2020.9085297
Vancouver
Parkesian P, Watanabe F, Cunha DALV da, Branciforti MC, Aroca R. Failure monitoring and recovery system during manufacturing process [Internet]. IEEE Latin America Transactions. 2020 ; 18( 2): 407-413.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1109/TLA.2020.9085297
Artigo de periodico
Fabrication and characterization of scaffolds of poly (ε-caprolactone) / Biosilicate® biocomposites prepared by generative manufacturing process (2019)
Cunha, Daniel Aparecido Lopes Vieira da; Inforçatti Neto, Paulo; Micocci, Kelli Cristina; Bellani, Caroline Faria; Araujo, Heloisa Sobreiro Selistre de; Silveira, Zilda de Castro; Branciforti, Márcia Cristina
Source: International Journal of Biomaterials. Unidade: EESC
Subjects: MATERIAIS, MATERIAIS COMPÓSITOS, ANDAIMES
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ABNT
CUNHA, Daniel Aparecido Lopes Vieira da et al. Fabrication and characterization of scaffolds of poly (ε-caprolactone) / Biosilicate® biocomposites prepared by generative manufacturing process. International Journal of Biomaterials, v. 2019, p. 1-11, 2019Tradução . . Disponível em: https://doi.org/10.1155/2019/2131467. Acesso em: 08 ago. 2024.
APA
Cunha, D. A. L. V. da, Inforçatti Neto, P., Micocci, K. C., Bellani, C. F., Araujo, H. S. S. de, Silveira, Z. de C., & Branciforti, M. C. (2019). Fabrication and characterization of scaffolds of poly (ε-caprolactone) / Biosilicate® biocomposites prepared by generative manufacturing process. International Journal of Biomaterials, 2019, 1-11. doi:10.1155/2019/2131467
NLM
Cunha DALV da, Inforçatti Neto P, Micocci KC, Bellani CF, Araujo HSS de, Silveira Z de C, Branciforti MC. Fabrication and characterization of scaffolds of poly (ε-caprolactone) / Biosilicate® biocomposites prepared by generative manufacturing process [Internet]. International Journal of Biomaterials. 2019 ; 2019 1-11.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1155/2019/2131467
Vancouver
Cunha DALV da, Inforçatti Neto P, Micocci KC, Bellani CF, Araujo HSS de, Silveira Z de C, Branciforti MC. Fabrication and characterization of scaffolds of poly (ε-caprolactone) / Biosilicate® biocomposites prepared by generative manufacturing process [Internet]. International Journal of Biomaterials. 2019 ; 2019 1-11.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1155/2019/2131467
Artigo de periodico
Poly (Butylene Adipate-Co-Terephthalate) and Poly (Ɛ-Caprolactone) and their bionanocomposites with cellulose nanocrystals: thermo-mechanical properties and cell viability study (2019)
Branciforti, Márcia Cristina ; Bellani, Caroline Faria; Morelli, Carolina Lipparelli; Ferrand, Alice; Jessel, Nadia Benkirane; Bretas, Rosario Elida Suman
Source: Journal of Renewable Materials. Unidade: EESC
Subjects: NANOCOMPOSITOS, POLÍMEROS (MATERIAIS), ENGENHARIA TECIDUAL, MATERIAIS
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ABNT
BRANCIFORTI, Márcia Cristina et al. Poly (Butylene Adipate-Co-Terephthalate) and Poly (Ɛ-Caprolactone) and their bionanocomposites with cellulose nanocrystals: thermo-mechanical properties and cell viability study. Journal of Renewable Materials, v. 7, n. 3, p. 269-277, 2019Tradução . . Disponível em: https://doi.org/10.32604/jrm.2019.01794. Acesso em: 08 ago. 2024.
APA
Branciforti, M. C., Bellani, C. F., Morelli, C. L., Ferrand, A., Jessel, N. B., & Bretas, R. E. S. (2019). Poly (Butylene Adipate-Co-Terephthalate) and Poly (Ɛ-Caprolactone) and their bionanocomposites with cellulose nanocrystals: thermo-mechanical properties and cell viability study. Journal of Renewable Materials, 7( 3), 269-277. doi:10.32604/jrm.2019.01794
NLM
Branciforti MC, Bellani CF, Morelli CL, Ferrand A, Jessel NB, Bretas RES. Poly (Butylene Adipate-Co-Terephthalate) and Poly (Ɛ-Caprolactone) and their bionanocomposites with cellulose nanocrystals: thermo-mechanical properties and cell viability study [Internet]. Journal of Renewable Materials. 2019 ; 7( 3): 269-277.[citado 2024 ago. 08 ] Available from: https://doi.org/10.32604/jrm.2019.01794
Vancouver
Branciforti MC, Bellani CF, Morelli CL, Ferrand A, Jessel NB, Bretas RES. Poly (Butylene Adipate-Co-Terephthalate) and Poly (Ɛ-Caprolactone) and their bionanocomposites with cellulose nanocrystals: thermo-mechanical properties and cell viability study [Internet]. Journal of Renewable Materials. 2019 ; 7( 3): 269-277.[citado 2024 ago. 08 ] Available from: https://doi.org/10.32604/jrm.2019.01794
Trabalho de evento
Chemometrics and statistical analysis of polymeric filaments for additive manufacturing (2019)
Cunha, Daniel Aparecido Lopes Vieira da; Branciforti, Márcia Cristina ; Aroca, R. V.
Source: Anais eletrônicos. Conference titles: Simpósio em Ciência e Engenharia de Materiais - SICEM. Unidade: EESC
Subjects: IMPRESSÃO 3-D, ESPECTROSCOPIA INFRAVERMELHA, MATERIAIS
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ABNT
CUNHA, Daniel Aparecido Lopes Vieira da e BRANCIFORTI, Márcia Cristina e AROCA, R. V. Chemometrics and statistical analysis of polymeric filaments for additive manufacturing. 2019, Anais.. São Carlos, SP: EESC/USP, 2019. Disponível em: https://repositorio.usp.br/directbitstream/89488f03-a386-4263-903e-43e1cf131096/PROD_25315_SYSNO_3103776.pdf. Acesso em: 08 ago. 2024.
APA
Cunha, D. A. L. V. da, Branciforti, M. C., & Aroca, R. V. (2019). Chemometrics and statistical analysis of polymeric filaments for additive manufacturing. In Anais eletrônicos. São Carlos, SP: EESC/USP. Recuperado de https://repositorio.usp.br/directbitstream/89488f03-a386-4263-903e-43e1cf131096/PROD_25315_SYSNO_3103776.pdf
NLM
Cunha DALV da, Branciforti MC, Aroca RV. Chemometrics and statistical analysis of polymeric filaments for additive manufacturing [Internet]. Anais eletrônicos. 2019 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/89488f03-a386-4263-903e-43e1cf131096/PROD_25315_SYSNO_3103776.pdf
Vancouver
Cunha DALV da, Branciforti MC, Aroca RV. Chemometrics and statistical analysis of polymeric filaments for additive manufacturing [Internet]. Anais eletrônicos. 2019 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/89488f03-a386-4263-903e-43e1cf131096/PROD_25315_SYSNO_3103776.pdf
Trabalho de evento
Morfologia e viabilidade celular de scaffolds fabricados por manufatura aditiva (2017)
Cunha, Daniel Aparecido Lopes Vieira da; Neto, Paulo I.; Micocci, Kelli C.; Bellani, Caroline Faria; Araújo, Heloísa Sobreiro Selistre de; Silveira, Zilda de ; Branciforti, Márcia Cristina
Source: Anais. Conference titles: Congresso Brasileiro de Polímeros - CBPol. Unidade: EESC
Subjects: ENGENHARIA TECIDUAL, MANUFATURA, MATERIAIS
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ABNT
CUNHA, Daniel Aparecido Lopes Vieira da et al. Morfologia e viabilidade celular de scaffolds fabricados por manufatura aditiva. 2017, Anais.. São Carlos, SP: ABPol, 2017. Disponível em: https://repositorio.usp.br/directbitstream/c29c1932-be15-4a5b-85d5-04c058105826/OK___trabalho%2008%20-%20Morfologia%20e%20Viabilidade%20Celular%20de%20Scaffolds%20Fabricados%20por%20Manufatura%20Aditiva%20%28cbpol%202017%29.pdf. Acesso em: 08 ago. 2024.
APA
Cunha, D. A. L. V. da, Neto, P. I., Micocci, K. C., Bellani, C. F., Araújo, H. S. S. de, Silveira, Z. de, & Branciforti, M. C. (2017). Morfologia e viabilidade celular de scaffolds fabricados por manufatura aditiva. In Anais. São Carlos, SP: ABPol. Recuperado de https://repositorio.usp.br/directbitstream/c29c1932-be15-4a5b-85d5-04c058105826/OK___trabalho%2008%20-%20Morfologia%20e%20Viabilidade%20Celular%20de%20Scaffolds%20Fabricados%20por%20Manufatura%20Aditiva%20%28cbpol%202017%29.pdf
NLM
Cunha DALV da, Neto PI, Micocci KC, Bellani CF, Araújo HSS de, Silveira Z de, Branciforti MC. Morfologia e viabilidade celular de scaffolds fabricados por manufatura aditiva [Internet]. Anais. 2017 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/c29c1932-be15-4a5b-85d5-04c058105826/OK___trabalho%2008%20-%20Morfologia%20e%20Viabilidade%20Celular%20de%20Scaffolds%20Fabricados%20por%20Manufatura%20Aditiva%20%28cbpol%202017%29.pdf
Vancouver
Cunha DALV da, Neto PI, Micocci KC, Bellani CF, Araújo HSS de, Silveira Z de, Branciforti MC. Morfologia e viabilidade celular de scaffolds fabricados por manufatura aditiva [Internet]. Anais. 2017 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/c29c1932-be15-4a5b-85d5-04c058105826/OK___trabalho%2008%20-%20Morfologia%20e%20Viabilidade%20Celular%20de%20Scaffolds%20Fabricados%20por%20Manufatura%20Aditiva%20%28cbpol%202017%29.pdf
Trabalho de evento
Hidrogéis de gelatina metacrilato incorporados com nanocristais de celulose para biofabricação 3D (2017)
Bellani, Caroline Faria; Morelli, Carolina Lipparelli; Khademhosseini, Ali; Branciforti, Márcia Cristina
Source: Anais. Conference titles: Congresso Brasileiro de Polímeros - CBPol. Unidades: EESC, BIOENGENHARIA
Assunto: MATERIAIS
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ABNT
BELLANI, Caroline Faria et al. Hidrogéis de gelatina metacrilato incorporados com nanocristais de celulose para biofabricação 3D. 2017, Anais.. São Carlos, SP: ABPol, 2017. Disponível em: https://repositorio.usp.br/directbitstream/5677fb98-73ac-45f2-bb83-acadbbc045f8/OK___trabalho%2007%20-%20Hidrog%C3%A9is%20de%20Gelatina%20Metacrilato%20incorporados%20com%20Nanocristais%20de%20celulose%20para%20Biofabrica%C3%A7%C3%A3o%203d%20%28cbpol%202017%29.pdf. Acesso em: 08 ago. 2024.
APA
Bellani, C. F., Morelli, C. L., Khademhosseini, A., & Branciforti, M. C. (2017). Hidrogéis de gelatina metacrilato incorporados com nanocristais de celulose para biofabricação 3D. In Anais. São Carlos, SP: ABPol. Recuperado de https://repositorio.usp.br/directbitstream/5677fb98-73ac-45f2-bb83-acadbbc045f8/OK___trabalho%2007%20-%20Hidrog%C3%A9is%20de%20Gelatina%20Metacrilato%20incorporados%20com%20Nanocristais%20de%20celulose%20para%20Biofabrica%C3%A7%C3%A3o%203d%20%28cbpol%202017%29.pdf
NLM
Bellani CF, Morelli CL, Khademhosseini A, Branciforti MC. Hidrogéis de gelatina metacrilato incorporados com nanocristais de celulose para biofabricação 3D [Internet]. Anais. 2017 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/5677fb98-73ac-45f2-bb83-acadbbc045f8/OK___trabalho%2007%20-%20Hidrog%C3%A9is%20de%20Gelatina%20Metacrilato%20incorporados%20com%20Nanocristais%20de%20celulose%20para%20Biofabrica%C3%A7%C3%A3o%203d%20%28cbpol%202017%29.pdf
Vancouver
Bellani CF, Morelli CL, Khademhosseini A, Branciforti MC. Hidrogéis de gelatina metacrilato incorporados com nanocristais de celulose para biofabricação 3D [Internet]. Anais. 2017 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/5677fb98-73ac-45f2-bb83-acadbbc045f8/OK___trabalho%2007%20-%20Hidrog%C3%A9is%20de%20Gelatina%20Metacrilato%20incorporados%20com%20Nanocristais%20de%20celulose%20para%20Biofabrica%C3%A7%C3%A3o%203d%20%28cbpol%202017%29.pdf
Artigo de periodico
Thermal properties and crystallinity of PCL/PBSA/cellulose nanocrystals grafted with PCL chains (2016)
Simão, José Alexandre; Bellani, Caroline Faria; Branciforti, Márcia Cristina
Source: Journal of Applied Polymer Science. Unidade: EESC
Subjects: NANOCOMPOSITOS, POLÍMEROS (MATERIAIS), MATERIAIS
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ABNT
SIMÃO, José Alexandre e BELLANI, Caroline Faria e BRANCIFORTI, Márcia Cristina. Thermal properties and crystallinity of PCL/PBSA/cellulose nanocrystals grafted with PCL chains. Journal of Applied Polymer Science, v. 134, n. 8, p. 1-9, 2016Tradução . . Disponível em: https://doi.org/10.1002/app.44493. Acesso em: 08 ago. 2024.
APA
Simão, J. A., Bellani, C. F., & Branciforti, M. C. (2016). Thermal properties and crystallinity of PCL/PBSA/cellulose nanocrystals grafted with PCL chains. Journal of Applied Polymer Science, 134( 8), 1-9. doi:10.1002/app.44493
NLM
Simão JA, Bellani CF, Branciforti MC. Thermal properties and crystallinity of PCL/PBSA/cellulose nanocrystals grafted with PCL chains [Internet]. Journal of Applied Polymer Science. 2016 ; 134( 8): 1-9.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1002/app.44493
Vancouver
Simão JA, Bellani CF, Branciforti MC. Thermal properties and crystallinity of PCL/PBSA/cellulose nanocrystals grafted with PCL chains [Internet]. Journal of Applied Polymer Science. 2016 ; 134( 8): 1-9.[citado 2024 ago. 08 ] Available from: https://doi.org/10.1002/app.44493
Trabalho de evento
Melt extrusion of PBAT with modified cellulose nanocrystals by in situ polymerization (2014)
Morelli, Carolina Lipparelli; Bras, Julien; Belgacem, Mohamed Naceur; Branciforti, Márcia Cristina ; Bretas, Rosario Elida Suman
Source: Proceedings of PPS-30. Conference titles: International Conference of the Polymer Processing Society - PPS-30. Unidade: EESC
Subjects: EXTRUSÃO, NANOCOMPOSITOS, BIOPOLÍMEROS, MATERIAIS
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ABNT
MORELLI, Carolina Lipparelli et al. Melt extrusion of PBAT with modified cellulose nanocrystals by in situ polymerization. 2014, Anais.. Cleveland, OH, USA: Escola de Engenharia de São Carlos, Universidade de São Paulo, 2014. Disponível em: https://repositorio.usp.br/directbitstream/38ae08ca-6a65-41a4-9e00-fd558429ffcd/PROD_25313_SYSNO_3103760%20%281%29.pdf. Acesso em: 08 ago. 2024.
APA
Morelli, C. L., Bras, J., Belgacem, M. N., Branciforti, M. C., & Bretas, R. E. S. (2014). Melt extrusion of PBAT with modified cellulose nanocrystals by in situ polymerization. In Proceedings of PPS-30. Cleveland, OH, USA: Escola de Engenharia de São Carlos, Universidade de São Paulo. Recuperado de https://repositorio.usp.br/directbitstream/38ae08ca-6a65-41a4-9e00-fd558429ffcd/PROD_25313_SYSNO_3103760%20%281%29.pdf
NLM
Morelli CL, Bras J, Belgacem MN, Branciforti MC, Bretas RES. Melt extrusion of PBAT with modified cellulose nanocrystals by in situ polymerization [Internet]. Proceedings of PPS-30. 2014 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/38ae08ca-6a65-41a4-9e00-fd558429ffcd/PROD_25313_SYSNO_3103760%20%281%29.pdf
Vancouver
Morelli CL, Bras J, Belgacem MN, Branciforti MC, Bretas RES. Melt extrusion of PBAT with modified cellulose nanocrystals by in situ polymerization [Internet]. Proceedings of PPS-30. 2014 ;[citado 2024 ago. 08 ] Available from: https://repositorio.usp.br/directbitstream/38ae08ca-6a65-41a4-9e00-fd558429ffcd/PROD_25313_SYSNO_3103760%20%281%29.pdf

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