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Mechanics of Advanced Materials and Structures Volume 26, 2019 - Issue 11
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Original Articles

Mechanical and piezoresistive properties of self-sensing smart concretes reinforced by carbon nanotubes

Vali ParvanehDepartment of Mechanical Engineering, Shahrood branch, Islamic Azad University, Shahrood, IranCorrespondence[email protected] [email protected]
&
Solmaz Hasanzadeh KhiabaniDepartment of Civil Engineering, Ala al-Dawla Institute of Semnan, Garmsar, Iran
Pages 993-1000 | Received 17 Jul 2017, Accepted 31 Oct 2017, Published online: 08 Feb 2018

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Chen Chen, Xudong Chen & Jinhua Zhang. (2021) Experimental study on flexural fatigue behavior of self-compacting concrete with waste tire rubber. Mechanics of Advanced Materials and Structures 28:16, pages 1691-1702.
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Articles from other publishers (21)

Nzar Shakr Piro, Ahmed Salih Mohammed & Samir M. Hamad. (2023) Compressive strength and piezoresistivity of smart cement paste modified with waste steel slag. Journal of Building Engineering 70, pages 106393.
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Tianling Wang, Sabine Faßbender, Wenkui Dong, Christian Schulze, Markus Oeser & Pengfei Liu. (2023) Sensitive surface layer: A review on conductive and piezoresistive pavement materials with carbon-based additives. Construction and Building Materials 387, pages 131611.
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Xu Cheng, Wei TianJinfeng Gao, Li He, Jiahang Zhang & Xiaohui Wang. (2023) Effect of multiwalled carbon nanotube size on electrical properties of cement mortar composites. Magazine of Concrete Research 75:12, pages 595-606.
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Hongbo Jiao, Yonggang Wang, Lielie Li, Kiran Arif, Furqan Farooq & Abdulaziz Alaskar. (2023) A novel approach in forecasting compressive strength of concrete with carbon nanotubes as nanomaterials. Materials Today Communications 35, pages 106335.
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Beyza Fahriye Aygun, Zeynep Bastan & Turhan Bilir. (2022) Review and Outlook of Self-Sensing, Self-Healing, Piezoelectric Pozzolans, and Piezoelectric Fibers in “Smart” Engineered Cementitious Composites (ECC). Iranian Journal of Science and Technology, Transactions of Civil Engineering 47:2, pages 639-662.
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E. D. Reis, L. A. Borges, J. S. F. Camargos, F. Gatuingt, F. S. J. Poggiali & A. C. S. Bezerra. (2023) A systematic review on the engineering properties of concrete with carbon nanotubes. Journal of the Brazilian Society of Mechanical Sciences and Engineering 45:4.
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Peng Zhang, Jia Su, Jinjun Guo & Shaowei Hu. (2023) Influence of carbon nanotube on properties of concrete: A review. Construction and Building Materials 369, pages 130388.
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Huihui Chen, Ning Xu, Peng Jiang & Linhua Jiang. (2023) Study on the Effect of Freeze–Thaw Action on the Electrical Conductivity and Sensing Properties of Graphene-Based Cement Composites. Materials 16:2, pages 855.
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D.D.L. Chung. (2023) A critical review of electrical-resistance-based self-sensing in conductive cement-based materials. Carbon 203, pages 311-325.
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Claudio José de Aguiar Junior, Pedro de Almeida Carísio, Carlos Fernando Teodósio Soares, Romildo Dias Toledo Filho & Oscar Mendoza Reales. 2023. International RILEM Conference on Synergising Expertise towards Sustainability and Robustness of Cement-based Materials and Concrete Structures. International RILEM Conference on Synergising Expertise towards Sustainability and Robustness of Cement-based Materials and Concrete Structures 516 527 .
Elvys Dias Reis, Heron Freitas Resende, Péter Ludvig, Rogério Cabral de Azevedo, Flávia Spitale Jacques Poggiali & Augusto Cesar da Silva Bezerra. (2022) Bonding of Steel Bars in Concrete with the Addition of Carbon Nanotubes: A Systematic Review of the Literature. Buildings 12:10, pages 1626.
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Goon Mo Koo, Sultan Ghazzawi & Tyler N. Tallman. (2022) Effect of inter-filler transport on AC piezoresistivity in CNF-modified epoxy nanocomposites. Effect of inter-filler transport on AC piezoresistivity in CNF-modified epoxy nanocomposites.
Wengui Li, Wenkui Dong, Yipu Guo, Kejin Wang & Surendra P. Shah. (2022) Advances in multifunctional cementitious composites with conductive carbon nanomaterials for smart infrastructure. Cement and Concrete Composites 128, pages 104454.
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Maksymilian Frąc, Wojciech Szudek, Paulina Szołdra & Waldemar Pichór. (2022) The applicability of shungite as an electrically conductive additive in cement composites. Journal of Building Engineering 45, pages 103469.
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Diego L. Castañeda-Saldarriaga, Joham Alvarez-Montoya, Vladimir Martínez-Tejada & Julián Sierra-Pérez. (2021) Toward Structural Health Monitoring of Civil Structures Based on Self-Sensing Concrete Nanocomposites: A Validation in a Reinforced-Concrete Beam. International Journal of Concrete Structures and Materials 15:1.
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Zhuang Tian, Shaoqi Li & Yancheng Li. (2021) Aligning conductive particles using magnetic field for enhanced piezoresistivity of cementitious composites. Construction and Building Materials 313, pages 125582.
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Sofija Kekez & Jan Kubica. (2021) Application of Artificial Neural Networks for Prediction of Mechanical Properties of CNT/CNF Reinforced Concrete. Materials 14:19, pages 5637.
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Yao Yao & Hao Lu. (2021) Mechanical properties and failure mechanism of carbon nanotube concrete at high temperatures. Construction and Building Materials 297, pages 123782.
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Pedro de Almeida Carísio, Oscar Aurelio Mendoza Reales, Eduardo de Morares Rego Fairbairn & Romildo Dias Toledo Filho. 2021. International RILEM Conference on Early-Age and Long-Term Cracking in RC Structures. International RILEM Conference on Early-Age and Long-Term Cracking in RC Structures 341 352 .
Maksymilian Frąc & Waldemar Pichór. (2020) Piezoresistive properties of cement composites with expanded graphite. Composites Communications 19, pages 99-102.
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Bautista-Gutierrez, Herrera-May, Santamaría-López, Honorato-Moreno & Zamora-Castro. (2019) Recent Progress in Nanomaterials for Modern Concrete Infrastructure: Advantages and Challenges. Materials 12:21, pages 3548.
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