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Early-age shrinkage assessment of cementitious materials : a critical review

Divya S. Kurup, Manu K Mohan (UGent) , Kim Van Tittelboom (UGent) , Geert De Schutter (UGent) , Manu Santhanam and Rahul Attupurathu Vijayan (UGent)
(2024) CEMENT & CONCRETE COMPOSITES. 145.
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Abstract
With the advent of formwork-free construction technologies like 3D concrete printing, evaluating early-age shrinkage in cementitious materials has become more critical. This paper reviews different test methods for assessing early-age shrinkage. These methods are classified as contact-based, which includes measurement systems that must remain in physical contact with the test specimen or embedded sensors placed inside the fresh concrete, and non-contact-based, which includes optical-based approaches either using white light (digital image correlation) or laser beams. The working principles, advantages, and challenges of the techniques, particularly while handling fresh concrete are discussed. The different mechanisms contributing to early-age shrinkage are reviewed and the common shrinkage mitigation strategies are also pointed out.
Keywords
DIGITAL-IMAGE-CORRELATION, OPTICAL-FIBER SENSOR, HIGH-PERFORMANCE CONCRETE, REACTIVE POWDER CONCRETE, AUTOGENOUS SHRINKAGE, PORTLAND-CEMENT, MECHANICAL-PROPERTIES, REDUCING ADMIXTURE, CRACKING, BEHAVIOR, Early-age shrinkage, Fiber Bragg grating, SOFO sensor, Digital image correlation, Laser displacement sensor, 3D concrete printing

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MLA
Kurup, Divya S., et al. “Early-Age Shrinkage Assessment of Cementitious Materials : A Critical Review.” CEMENT & CONCRETE COMPOSITES, vol. 145, Elsevier Sci LTD, 2024, doi:10.1016/j.cemconcomp.2023.105343.
APA
Kurup, D. S., K Mohan, M., Van Tittelboom, K., De Schutter, G., Santhanam, M., & Attupurathu Vijayan, R. (2024). Early-age shrinkage assessment of cementitious materials : a critical review. CEMENT & CONCRETE COMPOSITES, 145. https://doi.org/10.1016/j.cemconcomp.2023.105343
Chicago author-date
Kurup, Divya S., Manu K Mohan, Kim Van Tittelboom, Geert De Schutter, Manu Santhanam, and Rahul Attupurathu Vijayan. 2024. “Early-Age Shrinkage Assessment of Cementitious Materials : A Critical Review.” CEMENT & CONCRETE COMPOSITES 145. https://doi.org/10.1016/j.cemconcomp.2023.105343.
Chicago author-date (all authors)
Kurup, Divya S., Manu K Mohan, Kim Van Tittelboom, Geert De Schutter, Manu Santhanam, and Rahul Attupurathu Vijayan. 2024. “Early-Age Shrinkage Assessment of Cementitious Materials : A Critical Review.” CEMENT & CONCRETE COMPOSITES 145. doi:10.1016/j.cemconcomp.2023.105343.
Vancouver
1.
Kurup DS, K Mohan M, Van Tittelboom K, De Schutter G, Santhanam M, Attupurathu Vijayan R. Early-age shrinkage assessment of cementitious materials : a critical review. CEMENT & CONCRETE COMPOSITES. 2024;145.
IEEE
[1]
D. S. Kurup, M. K Mohan, K. Van Tittelboom, G. De Schutter, M. Santhanam, and R. Attupurathu Vijayan, “Early-age shrinkage assessment of cementitious materials : a critical review,” CEMENT & CONCRETE COMPOSITES, vol. 145, 2024.
@article{01HQAHB05288NF6CR1C4TA7KM0,
  abstract     = {{With the advent of formwork-free construction technologies like 3D concrete printing, evaluating early-age shrinkage in cementitious materials has become more critical. This paper reviews different test methods for assessing early-age shrinkage. These methods are classified as contact-based, which includes measurement systems that must remain in physical contact with the test specimen or embedded sensors placed inside the fresh concrete, and non-contact-based, which includes optical-based approaches either using white light (digital image correlation) or laser beams. The working principles, advantages, and challenges of the techniques, particularly while handling fresh concrete are discussed. The different mechanisms contributing to early-age shrinkage are reviewed and the common shrinkage mitigation strategies are also pointed out.}},
  articleno    = {{105343}},
  author       = {{Kurup, Divya S. and K Mohan, Manu and Van Tittelboom, Kim and De Schutter, Geert and  Santhanam, Manu and Attupurathu Vijayan, Rahul}},
  issn         = {{0958-9465}},
  journal      = {{CEMENT & CONCRETE COMPOSITES}},
  keywords     = {{DIGITAL-IMAGE-CORRELATION,OPTICAL-FIBER SENSOR,HIGH-PERFORMANCE CONCRETE,REACTIVE POWDER CONCRETE,AUTOGENOUS SHRINKAGE,PORTLAND-CEMENT,MECHANICAL-PROPERTIES,REDUCING ADMIXTURE,CRACKING,BEHAVIOR,Early-age shrinkage,Fiber Bragg grating,SOFO sensor,Digital image correlation,Laser displacement sensor,3D concrete printing}},
  language     = {{eng}},
  pages        = {{14}},
  publisher    = {{Elsevier Sci LTD}},
  title        = {{Early-age shrinkage assessment of cementitious materials : a critical review}},
  url          = {{http://doi.org/10.1016/j.cemconcomp.2023.105343}},
  volume       = {{145}},
  year         = {{2024}},
}
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