Publications

Thermomechanical characterisation of a thermoplastic polymer and its short glass fibre reinforced composite: influence of fibre, fibre orientation, strain rates and temperatures

Song P, Chapman D, Graham A, Lukic B, Rack A et al. (2024), Composites Part A: Applied Science and Manufacturing, 180

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BibTeX

@article{thermomechanica-2024/2,
  title={Thermomechanical characterisation of a thermoplastic polymer and its short glass fibre reinforced composite: influence of fibre, fibre orientation, strain rates and temperatures},
  author={Song P, Chapman D, Graham A, Lukic B, Rack A et al.},
  journal={Composites Part A: Applied Science and Manufacturing},
  volume={180},
  number={108099},
  publisher={Elsevier},
  year = "2024"
}

An effective route to the additive manufacturing of a mechanically gradient supramolecular polymer nanocomposite structure

Salimi S, Graham AM, Wu Y, Song P, Hart LR et al. (2023), Journal of the Mechanical Behavior of Biomedical Materials, 150

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BibTeX

@article{aneffectiverout-2023/12,
  title={An effective route to the additive manufacturing of a mechanically gradient supramolecular polymer nanocomposite structure},
  author={Salimi S, Graham AM, Wu Y, Song P, Hart LR et al.},
  journal={Journal of the Mechanical Behavior of Biomedical Materials},
  volume={150},
  number={106358},
  publisher={Elsevier},
  year = "2023"
}

Tensile testing of polymers: Integration of digital image correlation, infrared thermography and finite element modelling

Song P, Trivedi A & Siviour C (2022), Journal of the Mechanics and Physics of Solids, 171

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BibTeX

@article{tensiletestingo-2022/11,
  title={Tensile testing of polymers: Integration of digital image correlation, infrared thermography and finite element modelling},
  author={Song P, Trivedi A & Siviour C},
  journal={Journal of the Mechanics and Physics of Solids},
  volume={171},
  number={105161},
  publisher={Elsevier},
  year = "2022"
}

Experimentally simulating adiabatic behaviour: capturing the high strain rate compressive response of polymers using low strain rate experiments with programmed temperature profiles

Trivedi A, Song P & Siviour CR (2022), Polymer Testing, 116

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BibTeX

@article{experimentallys-2022/9,
  title={Experimentally simulating adiabatic behaviour: capturing the high strain rate compressive response of polymers using low strain rate experiments with programmed temperature profiles},
  author={Trivedi A, Song P & Siviour CR},
  journal={Polymer Testing},
  volume={116},
  number={107773},
  publisher={Elsevier},
  year = "2022"
}

Mechanical response of four polycarbonates at a wide range of strain rates and temperatures

Song P, Siviour C & Trivedi A (2022)

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BibTeX

@misc{mechanicalrespo-2022/1,
  title={Mechanical response of four polycarbonates at a wide range of strain rates and temperatures},
  author={Song P, Siviour C & Trivedi A},
  year = "2022"
}

Tensile Testing of Polymers: Integration of Digital Image Correlation, Infrared Thermography and Finite Element Modelling

Song P, Trivedi A & Siviour C (2022)

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BibTeX

@misc{tensiletestingo-2022/1,
  title={Tensile Testing of Polymers: Integration of Digital Image Correlation, Infrared Thermography and Finite Element Modelling},
  author={Song P, Trivedi A & Siviour C},
  year = "2022"
}

Supplementary data for "Application of the T-test and Virtual Fields Method to the Constitutive Response of Materials"

Graham A & Song P (2022)

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BibTeX

@misc{supplementaryda-2022/1,
  title={Supplementary data for "Application of the T-test and Virtual Fields Method to the Constitutive Response of Materials"},
  author={Graham A & Song P},
  year = "2022"
}

Mechanical response of two different molecular weight polycarbonates at varying rates and temperatures

Song P, Trived A & Siviour CR (2021), EPJ Web of Conferences, 250

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BibTeX

@article{mechanicalrespo-2021/9,
  title={Mechanical response of two different molecular weight polycarbonates at varying rates and temperatures},
  author={Song P, Trived A & Siviour CR},
  journal={EPJ Web of Conferences},
  volume={250},
  publisher={EDP Sciences},
  year = "2021"
}

Strain rate, temperature, and their coupled effects on the deformation process of four polycarbonates and a short glass fibre reinforced polycarbonate composite

Song P (0)

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BibTeX

@misc{strainratetempe-/,
  title={Strain rate, temperature, and their coupled effects on the deformation process of four polycarbonates and a short glass fibre reinforced polycarbonate composite},
  author={Song P}
}

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Showing 9 publications by Peihao Song

Thermomechanical characterisation of a thermoplastic polymer and its short glass fibre reinforced composite: influence of fibre, fibre orientation, strain rates and temperatures

An effective route to the additive manufacturing of a mechanically gradient supramolecular polymer nanocomposite structure

Tensile testing of polymers: Integration of digital image correlation, infrared thermography and finite element modelling

Experimentally simulating adiabatic behaviour: capturing the high strain rate compressive response of polymers using low strain rate experiments with programmed temperature profiles

Mechanical response of four polycarbonates at a wide range of strain rates and temperatures

Tensile Testing of Polymers: Integration of Digital Image Correlation, Infrared Thermography and Finite Element Modelling

Supplementary data for "Application of the T-test and Virtual Fields Method to the Constitutive Response of Materials"

Mechanical response of two different molecular weight polycarbonates at varying rates and temperatures

Strain rate, temperature, and their coupled effects on the deformation process of four polycarbonates and a short glass fibre reinforced polycarbonate composite