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

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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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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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