### Abstract

Originalsprache | englisch |
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Titel | Advances in pulp and paper research, Oxford 2017: 16th Fundamental Research Symposium, Oxford |

Seiten | 669-682 |

Seitenumfang | 13 |

Publikationsstatus | Veröffentlicht - Sep 2017 |

Veranstaltung | Fundamental Research Symposium - Pembroke College, Oxford, Großbritannien / Vereinigtes Königreich Dauer: 4 Sep 2017 → 8 Sep 2017 |

### Konferenz

Konferenz | Fundamental Research Symposium |
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Land | Großbritannien / Vereinigtes Königreich |

Ort | Oxford |

Zeitraum | 4/09/17 → 8/09/17 |

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### Dies zitieren

*Advances in pulp and paper research, Oxford 2017: 16th Fundamental Research Symposium, Oxford*(S. 669-682)

**LINKING PAPER STRUCTURE TO LOCAL DISTRIBUTION OF DEFORMATION AND DAMAGE.** / Lahti, Jussi Antero; Dauer, Michael; Keller, Douglas Steven; Hirn, Ulrich.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Forschung › Begutachtung

*Advances in pulp and paper research, Oxford 2017: 16th Fundamental Research Symposium, Oxford.*S. 669-682, Fundamental Research Symposium, Oxford, Großbritannien / Vereinigtes Königreich, 4/09/17.

}

TY - GEN

T1 - LINKING PAPER STRUCTURE TO LOCAL DISTRIBUTION OF DEFORMATION AND DAMAGE

AU - Lahti, Jussi Antero

AU - Dauer, Michael

AU - Keller, Douglas Steven

AU - Hirn, Ulrich

PY - 2017/9

Y1 - 2017/9

N2 - A method for quantitatively investigating the relationship between local structural properties (local basis weight, local thickness, local density and local load carrying factor (local fiber orientation)) and local tensile deformation (local strain and local temperature increase (thermal energy dissipation)) was introduced. It was found by utilizing the method for 70 g/m2 sack paper strips that relative basis weight, relative thickness, relative density and relative load carrying factor combined explain 31% and 26% of total variation in relative strain and relative temperature increase, respectively. Best single predictors for relative strain were relative basis weight (R² = 0.14) and relative load carrying factor (R² = 0.11). On the other hand, relative basis weight alone was the best predictor for relative temperature increase (R² = 0.12.). Finally, by analyzing the relationship between the two deformation distribution parameters from the perspective that the high relative temperature increase is preceded by the high relative strain, it could be said that the relative strain explains 45% of the total variation in the relative temperature increase (R² = 0.45). Thus, these two parameters describe the deformation in partially different ways. Based on this study, it can be concluded that the introduced method offers a promising tool to quantitatively investigate the separate/combined influence of local structural properties on the local deformation accumulation initializing the failure of paper.

AB - A method for quantitatively investigating the relationship between local structural properties (local basis weight, local thickness, local density and local load carrying factor (local fiber orientation)) and local tensile deformation (local strain and local temperature increase (thermal energy dissipation)) was introduced. It was found by utilizing the method for 70 g/m2 sack paper strips that relative basis weight, relative thickness, relative density and relative load carrying factor combined explain 31% and 26% of total variation in relative strain and relative temperature increase, respectively. Best single predictors for relative strain were relative basis weight (R² = 0.14) and relative load carrying factor (R² = 0.11). On the other hand, relative basis weight alone was the best predictor for relative temperature increase (R² = 0.12.). Finally, by analyzing the relationship between the two deformation distribution parameters from the perspective that the high relative temperature increase is preceded by the high relative strain, it could be said that the relative strain explains 45% of the total variation in the relative temperature increase (R² = 0.45). Thus, these two parameters describe the deformation in partially different ways. Based on this study, it can be concluded that the introduced method offers a promising tool to quantitatively investigate the separate/combined influence of local structural properties on the local deformation accumulation initializing the failure of paper.

M3 - Conference contribution

SP - 669

EP - 682

BT - Advances in pulp and paper research, Oxford 2017: 16th Fundamental Research Symposium, Oxford

ER -