Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects

Ren, Qiang; De Schutter, Geert; Jiang, Zhengwu; Chen, Qing

Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects

Qiang Ren (UGent) , Geert De Schutter (UGent) , Zhengwu Jiang and Qing Chen

(2019) CONSTRUCTION AND BUILDING MATERIALS. 207. p.218-227

Author

Qiang Ren (UGent) , Geert De Schutter (UGent) , Zhengwu Jiang and Qing Chen

Organization

Department of Structural engineering

Keywords

INTERFACIAL TRANSITION ZONE, CEMENT-BASED MATERIALS, CHLORIDE, DIFFUSIVITY, MICROMECHANICAL MODEL, NUMERICAL-METHOD, PORE STRUCTURE, CONCRETE, HYDRATION, MICROSTRUCTURE, FILLER, Diffusion model, Manufactured sand, Mortar, Limestone powder, Particle, shape, Multi-level homogenization

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Citation

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-8637489

MLA: Ren, Qiang, et al. “Multi-Level Diffusion Model for Manufactured Sand Mortar Considering Particle Shape and Limestone Powder Effects.” CONSTRUCTION AND BUILDING MATERIALS, vol. 207, ELSEVIER, 2019, pp. 218–27.
APA: Ren, Q., De Schutter, G., Jiang, Z., & Chen, Q. (2019). Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects. CONSTRUCTION AND BUILDING MATERIALS, 207, 218–227.
Chicago author-date: Ren, Qiang, Geert De Schutter, Zhengwu Jiang, and Qing Chen. 2019. “Multi-Level Diffusion Model for Manufactured Sand Mortar Considering Particle Shape and Limestone Powder Effects.” CONSTRUCTION AND BUILDING MATERIALS 207: 218–27.
Chicago author-date (all authors): Ren, Qiang, Geert De Schutter, Zhengwu Jiang, and Qing Chen. 2019. “Multi-Level Diffusion Model for Manufactured Sand Mortar Considering Particle Shape and Limestone Powder Effects.” CONSTRUCTION AND BUILDING MATERIALS 207: 218–227.
Vancouver: 1.
Ren Q, De Schutter G, Jiang Z, Chen Q. Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects. CONSTRUCTION AND BUILDING MATERIALS. 2019;207:218–27.
IEEE: [1]
Q. Ren, G. De Schutter, Z. Jiang, and Q. Chen, “Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects,” CONSTRUCTION AND BUILDING MATERIALS, vol. 207, pp. 218–227, 2019.

@article{8637489,
  author       = {Ren, Qiang and De Schutter, Geert and Jiang, Zhengwu and Chen, Qing},
  issn         = {0950-0618},
  journal      = {CONSTRUCTION AND BUILDING MATERIALS},
  keywords     = {INTERFACIAL TRANSITION ZONE,CEMENT-BASED MATERIALS,CHLORIDE,DIFFUSIVITY,MICROMECHANICAL MODEL,NUMERICAL-METHOD,PORE STRUCTURE,CONCRETE,HYDRATION,MICROSTRUCTURE,FILLER,Diffusion model,Manufactured sand,Mortar,Limestone powder,Particle,shape,Multi-level homogenization},
  language     = {eng},
  pages        = {218--227},
  publisher    = {ELSEVIER},
  title        = {Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects},
  url          = {http://dx.doi.org/10.1016/j.conbuildmat.2019.02.139},
  volume       = {207},
  year         = {2019},
}

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Multi-level diffusion model for manufactured sand mortar considering particle shape and limestone powder effects

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