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Año de publicación: 2024

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Figure 4_SEM PBSA-SWCNT (0.50%).png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 157,1 KB - MD5: 8b24f9a29c75e3be791044e01370bed2
Figure 5_SEM PBSA-SWCNT (0.75%).png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 162,0 KB - MD5: f175482834e7f5aed1e0e6cce025e671
Figure 6_SEM PBSA-SWCNT (1.0%).png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 156,9 KB - MD5: d42283dcfc18fb7043bbd987fd3f397c
Figure 7_Young Modulus.png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 51,7 KB - MD5: 34ad70a2ac643a997e89878709fa0feb
Figure 8_Tensile Strength.png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 70,7 KB - MD5: 6a2f3b559ea6a57b6a5d91255a124920
Figure 9_Elongation at break.png 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Imagen PNG - 44,0 KB - MD5: 5e31a8fbacaf483644948e3fe996822e
readme_Machine learning algorithms to optimize.txt 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Texto plano - 6,5 KB - MD5: 33f9ce9bddfe535bda79b3f5d7bcf6e4
Text 1_Mechanical Properties.txt 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Texto plano - 967 B - MD5: ed90f7d70eda8e1dc3e544137dcc7ce2
Text 2_Thermal Properties.txt 5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes Texto plano - 776 B - MD5: b2f2fa31b57871b96fee7e311139b101
Optimization of mechanical properties of multiscale hybrid polymer nanocomposites: A combination of experimental and machine learning techniques 5 nov 2024 - Universidad de Alcalá Diez-Pascual, Ana María; Champa-Bujaico, Elisabeth; Garcia Díaz, Pilar; Lomas Redondo, Alba, 2024, "Optimization of mechanical properties of multiscale hybrid polymer nanocomposites: A combination of experimental and machine learning techniques", https://doi.org/10.21950/2ZUDRR, e-cienciaDatos, V1 Machine learning (ML) algorithms offer quick and accurate predictions of material properties at a low computational cost. In this project, the mechanical properties of multiscale poly(3-hydroxybutyrate) (P3HB)-based nanocomposites reinforced with different concentrations of multi...

Figure 4_SEM PBSA-SWCNT (0.50%).png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 157,1 KB -

Figure 5_SEM PBSA-SWCNT (0.75%).png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 162,0 KB -

Figure 6_SEM PBSA-SWCNT (1.0%).png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 156,9 KB -

Figure 7_Young Modulus.png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 51,7 KB -

Figure 8_Tensile Strength.png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 70,7 KB -

Figure 9_Elongation at break.png

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Imagen PNG - 44,0 KB -

readme_Machine learning algorithms to optimize.txt

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Texto plano - 6,5 KB -

Text 1_Mechanical Properties.txt

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Texto plano - 967 B -

Text 2_Thermal Properties.txt

5 nov 2024 - Machine learning algorithms to optimize the properties of bio-based poly(butylene succinate-co- butylene adipate) nanocomposites with carbon nanotubes

Texto plano - 776 B -

Optimization of mechanical properties of multiscale hybrid polymer nanocomposites: A combination of experimental and machine learning techniques

5 nov 2024 - Universidad de Alcalá

Diez-Pascual, Ana María; Champa-Bujaico, Elisabeth; Garcia Díaz, Pilar; Lomas Redondo, Alba, 2024, "Optimization of mechanical properties of multiscale hybrid polymer nanocomposites: A combination of experimental and machine learning techniques", https://doi.org/10.21950/2ZUDRR, e-cienciaDatos, V1

Machine learning (ML) algorithms offer quick and accurate predictions of material properties at a low computational cost. In this project, the mechanical properties of multiscale poly(3-hydroxybutyrate) (P3HB)-based nanocomposites reinforced with different concentrations of multi...

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