Fachinformationsdienst BAUdigital

A platform for research: civil engineering, architecture and urbanism

    Strain-rate sensitivity of cement composites: Insights from field's metal nano-inclusions

    New search for: Tourani, Navid
    New search for: Sagoe-Crentsil, Kwesi
    New search for: Duan, Wenhui

    Abstract In this study, we investigated the effects of Field's metal (FM) nanoparticles (NPs) on the mechanical behaviour of cement paste under quasi-static (QS) and dynamic strain rates. We found the highest mechanical improvement under QS loading with 1 % FM dosage, beyond which boosting the dosage diminished its contribution to the mechanical performance. Conversely, under dynamic loadings, boosting the dosage from 1 % to 4 % FM significantly and progressively enhanced the overall mechanical performance. These results indicated that the mechanical impacts that ensue from the microstructural modification effects of FM differ with dosage and strain rates. Under QS loading, the pore-refining effect of the NPs was predominant, whereas, under dynamic loadings, the reinforcing effect of the NPs was the primary factor. Furthermore, by comparing the effects of FM and nanosilica NPs, our findings underscored the pronounced effect of the nanomaterial physical and mechanical properties on the strain-rate sensitivity of cementitious nanocomposites.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Strain-rate sensitivity of cement composites: Insights from field's metal nano-inclusions

    New search for: Tourani, Navid
    New search for: Sagoe-Crentsil, Kwesi
    New search for: Duan, Wenhui

    Abstract In this study, we investigated the effects of Field's metal (FM) nanoparticles (NPs) on the mechanical behaviour of cement paste under quasi-static (QS) and dynamic strain rates. We found the highest mechanical improvement under QS loading with 1 % FM dosage, beyond which boosting the dosage diminished its contribution to the mechanical performance. Conversely, under dynamic loadings, boosting the dosage from 1 % to 4 % FM significantly and progressively enhanced the overall mechanical performance. These results indicated that the mechanical impacts that ensue from the microstructural modification effects of FM differ with dosage and strain rates. Under QS loading, the pore-refining effect of the NPs was predominant, whereas, under dynamic loadings, the reinforcing effect of the NPs was the primary factor. Furthermore, by comparing the effects of FM and nanosilica NPs, our findings underscored the pronounced effect of the nanomaterial physical and mechanical properties on the strain-rate sensitivity of cementitious nanocomposites.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Strain-rate sensitivity of cement composites: Insights from field's metal nano-inclusions

    New search for: Tourani, Navid
    New search for: Sagoe-Crentsil, Kwesi
    New search for: Duan, Wenhui

    Abstract In this study, we investigated the effects of Field's metal (FM) nanoparticles (NPs) on the mechanical behaviour of cement paste under quasi-static (QS) and dynamic strain rates. We found the highest mechanical improvement under QS loading with 1 % FM dosage, beyond which boosting the dosage diminished its contribution to the mechanical performance. Conversely, under dynamic loadings, boosting the dosage from 1 % to 4 % FM significantly and progressively enhanced the overall mechanical performance. These results indicated that the mechanical impacts that ensue from the microstructural modification effects of FM differ with dosage and strain rates. Under QS loading, the pore-refining effect of the NPs was predominant, whereas, under dynamic loadings, the reinforcing effect of the NPs was the primary factor. Furthermore, by comparing the effects of FM and nanosilica NPs, our findings underscored the pronounced effect of the nanomaterial physical and mechanical properties on the strain-rate sensitivity of cementitious nanocomposites.

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Access

    Check access
    Check availability in my library
    Order at Subito €

    Page navigation

    Document information
    Similar titles

    Export, share and cite

    Document information
    Title:

    Strain-rate sensitivity of cement composites: Insights from field's metal nano-inclusions

    Contributors:

    Tourani, Navid (author) / Sagoe-Crentsil, Kwesi (author) / Duan, Wenhui (author)

    Published in:

    Cement and Concrete Research ; 171

    Publication date:

    2023-05-24

    ISSN:

    0008-8846

    DOI:

    https://doi.org/10.1016/j.cemconres.2023.107210

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    English

    Keywords:

    Electron microscopy , Field's metal nanoparticles , Mechanical properties , Split Hopkinson pressure bar , Strain-rate-dependent effect

    Similar titles

    Hydration behavior and microstructure of cement-based materials modified by Field’s metal particles

    Qian, Cheng / Zhang, Zhaocai / Zhu, Yu | Elsevier | 2023

    FIELD'S SHOPPING CENTRE

    Wu, S. | British Library Online Contents | 2005

    The Strain Rate Sensitivity of Plasma Treated Nano TiO~x Particles/PP/PLA Nano-Composites Filaments

    Huang, J.N. / Zhang, Y.C. / Zhu, H.Y. et al. | British Library Online Contents | 2009

    Robust cement composite with low hydration temperature and high mechanical performance achieved by Field's metal and acrylic acid-acrylamide copolymer

    Liu, Qing / Ming, Xing / Xu, Jianyu et al. | Elsevier | 2023

    Strain rate sensitivity of unequal grained nano-multilayers

    Huang, P. / Wang, F. / Xu, M. et al. | British Library Online Contents | 2011

    Back to top