Skip to content

Study on Concrete Pumpability Combining Different Laboratory Tools and Linkage to Rheology (2017-04)

10.1016/j.conbuildmat.2017.03.199

 Secrieru Egor,  Fataei Shirin,  Schröfl Christof,  Mechtcherine Viktor
Journal Article - Construction and Building Materials, Vol. 144, pp. 451-461

Abstract

The paper at hand focuses on various methods to characterize the pumpability of fresh concrete. Primarily the rheological behaviours of the concrete as a bulk are described. The study concentrates on the composition and rheological properties of the lubrication layer forming at the interface to the pipeline wall, since this layer is widely considered crucial for concrete pumpability. For this purpose, the material forming the lubrication layer (LL) is sampled from the various concrete mixtures. The results confirm that in addition to the rheological properties of the bulk of fresh concrete, the properties of the lubrication layer and the roughness of the pipe-wall significantly affect concrete flow in pipes. Based on the composition of the concrete and the lubrication layer, it is possible to design the constitutive material of the lubrication layer with properties similar to the one forming in concrete during pumping. It has as well been demonstrated that knowledge of the rheological properties of the lubrication layer is not sufficient to state whether the concrete is pumpable or not. Only a combination of rheological instruments makes the adequate description of concrete pumpability possible.

6 References

  1. Choi Myoungsung, Roussel Nicolas, Kim Youngjin, Kim Jinkeun (2013-01)
    Lubrication-Layer Properties During Concrete Pumping
  2. Khoshnevis Behrokh, Hwang Dooil, Yao Ke, Yeh Zhenghao (2006-05)
    Mega-Scale Fabrication by Contour Crafting
  3. Le Thanh, Austin Simon, Lim Sungwoo, Buswell Richard et al. (2012-01)
    Hardened Properties of High-Performance Printing Concrete
  4. Mechtcherine Viktor, Nerella Venkatesh, Kasten Knut (2013-12)
    Testing Pumpability of Concrete Using Sliding-Pipe Rheometer
  5. Schutter Geert, Feys Dimitri (2016-11)
    Pumping of Fresh Concrete:
    Insights and Challenges
  6. Secrieru Egor, Butler Marko, Mechtcherine Viktor (2014-11)
    Testing Pumpability of Concrete:
    From Laboratory into Practice

31 Citations

  1. Xie Xiangyu, Liu Xuemei, Zhang Nan, Zhang Lihai et al. (2025-09)
    Capillary Extrusion Rheometry for Characterising Wall Slip Behaviour in 3D Printed Concrete
  2. Abedi Mohammadmadhi, Waris Muhammad, Alawi Mubarak, Jabri Khalifa et al. (2024-12)
    From Local Earth to Modern Structures:
    A Critical Review of 3D Printed Cement Composites for Sustainable and Efficient Construction
  3. Malik Umair, Riaz Raja, Rehman Saif, Usman Muhammad et al. (2024-07)
    Advancing Mix-Design Prediction in 3D Printed Concrete:
    Predicting Anisotropic Compressive Strength and Slump-Flow
  4. Yang Liuhua, Gao Yang, Chen Hui, Jiao Huazhe et al. (2024-04)
    3D Printing Concrete Technology from a Rheology Perspective:
    A Review
  5. Sheng Zhaoliang, Zhu Binrong, Cai Jingming, Li Xuesen et al. (2024-03)
    Development of a Novel Extrusion-Device to Improve the Printability of 3D Printable Geopolymer Concrete
  6. Fasihi Ali, Libre Nicolas (2024-01)
    From Pumping to Deposition:
    A Comprehensive Review of Test-Methods for Characterizing Concrete-Printability
  7. Xie Xiangyu, Liu Xuemei, Ding Faxing, Zhang Lihai (2023-08)
    Characteristics and Mechanism of the Particle-Migration Subject to the Shear Flow of Concrete Flow Under Pressure
  8. Paritala Spandana, Singaram Kailash, Bathina Indira, Khan Mohd et al. (2023-08)
    Rheology and Pumpability of Mix Suitable for Extrusion-Based Concrete 3D Printing:
    A Review
  9. Riaz Raja, Usman Muhammad, Ali Ammar, Majid Usama et al. (2023-06)
    Inclusive Characterization of 3D Printed Concrete in Additive Manufacturing:
    A Detailed Review
  10. Skibicki Szymon, Pułtorak Monika, Kaszyńska Maria, Hoffmann Marcin et al. (2022-04)
    The Effect of Using Recycled PET-Aggregates on Mechanical and Durability Properties of 3D Printed Mortar
  11. Xie Xiangyu, Zhang Lihai, Shi Caijun, Liu Xuemei (2022-01)
    Prediction of Lubrication-Layer Properties of Pumped Concrete Based on Flow-Induced Particle-Migration
  12. Cui Jinyang, He Zhen, Zhang Guozhi, Cai Xinhua (2022-01)
    Rheological Properties of Sprayable Ultra-High-Performance Concrete with Different Viscosity-Enhancing Agents
  13. Skibicki Szymon, Jakubowska Patrycja, Kaszyńska Maria, Sibera Daniel et al. (2021-12)
    Early-Age Mechanical Properties of 3D Printed Mortar with Spent Garnet
  14. Tavangar Tooran, Hosseinpoor Masoud, Yahia Ammar, Khayat Kamal (2021-12)
    Novel Tri-Viscous-Model to Simulate Pumping of Flowable Concrete Through Characterization of Lubrication-Layer and Plug-Zones
  15. Chen Yu, He Shan, Gan Yidong, Çopuroğlu Oğuzhan et al. (2021-11)
    A Review of Printing-Strategies, Sustainable Cementitious Materials and Characterization Methods in the Context of Extrusion-Based 3D Concrete Printing
  16. Tavangar Tooran, Hosseinpoor Masoud, Yahia Ammar, Khayat Kamal (2021-11)
    Computational Investigation of Concrete-Pipe-Flow:
    Critical Review
  17. Fataei Shirin, Secrieru Egor, Mechtcherine Viktor, Roussel Nicolas (2021-07)
    A First-Order Physical Model for the Prediction of Shear-Induced Particle-Migration and Lubricating-Layer Formation During Concrete Pumping
  18. Song Hongwei, Li Xinle (2021-05)
    An Overview on the Rheology, Mechanical Properties, Durability, 3D Printing, and Microstructural Performance of Nanomaterials in Cementitious Composites
  19. Wang Li, Liu Yi, Yang Yu, Li Yanfeng et al. (2021-04)
    Bonding Performance of 3D Printing Concrete with Self-Locking Interfaces Exposed to Compression-Shear and Compression-Splitting Stresses
  20. Sikora Paweł, Chougan Mehdi, Cuevas Villalobos Karla, Liebscher Marco et al. (2021-02)
    The Effects of Nano- and Micro-Sized Additives on 3D Printable Cementitious and Alkali-Activated Composites:
    A Review
  21. Skibicki Szymon, Pułtorak Monika, Kaszyńska Maria (2021-01)
    Evaluation of Material-Modification Using PET in 3D Concrete Printing Technology
  22. Hou Shaodan, Duan Zhenhua, Xiao Jianzhuang, Ye Jun (2020-12)
    A Review of 3D Printed Concrete:
    Performance-Requirements, Testing Measurements and Mix-Design
  23. Kaszyńska Maria, Skibicki Szymon, Hoffmann Marcin (2020-12)
    3D Concrete Printing for Sustainable Construction
  24. Zongo Karim, Charrier Malo, Duval Corentin, Ouellet-Plamondon Claudiane (2020-07)
    Dynamic and Static Yield-Stress Determination of Cementitious Paste with Admixtures
  25. Hoffmann Marcin, Skibicki Szymon, Pankratow Paweł, Zieliński Adam et al. (2020-04)
    Automation in the Construction of a 3D Printed Concrete Wall with the Use of a Lintel Gripper
  26. Mechtcherine Viktor, Bos Freek, Perrot Arnaud, Silva Wilson et al. (2020-03)
    Extrusion-Based Additive Manufacturing with Cement-Based Materials:
    Production Steps, Processes, and Their Underlying Physics
  27. Ivanova Irina, Mechtcherine Viktor (2020-01)
    Possibilities and Challenges of Constant Shear-Rate-Test for Evaluation of Structural Build-Up-Rate of Cementitious Materials
  28. Mechtcherine Viktor, Nerella Venkatesh (2018-10)
    3D-Concrete-Printing by Selective Deposition:
    Requirements for Fresh Concrete and Testing
  29. Secrieru Egor, Khodor Jad, Schröfl Christof, Mechtcherine Viktor (2018-05)
    Formation of Lubricating Layer and Flow Type During Pumping of Cement-Based Materials
  30. Secrieru Egor, Cotardo Dario, Mechtcherine Viktor, Lohaus Ludger et al. (2018-04)
    Changes in Concrete Properties During Pumping and Formation of Lubricating Material Under Pressure
  31. Nerella Venkatesh, Mechtcherine Viktor (2018-03)
    Virtual Sliding-Pipe Rheometer for Estimating Pumpability of Concrete

BibTeX 
@article{secr_fata_schr_mech.2017.SoCPCDLTaLtR,
  author            = "Egor Secrieru and Shirin Fataei and Christof Schröfl and Viktor Mechtcherine",
  title             = "Study on Concrete Pumpability Combining Different Laboratory Tools and Linkage to Rheology",
  doi               = "10.1016/j.conbuildmat.2017.03.199",
  year              = "2017",
  journal           = "Construction and Building Materials",
  volume            = "144",
  pages             = "451--461",
}
Formatted Citation

E. Secrieru, S. Fataei, C. Schröfl and V. Mechtcherine, “Study on Concrete Pumpability Combining Different Laboratory Tools and Linkage to Rheology”, Construction and Building Materials, vol. 144, pp. 451–461, 2017, doi: 10.1016/j.conbuildmat.2017.03.199.

Secrieru, Egor, Shirin Fataei, Christof Schröfl, and Viktor Mechtcherine. “Study on Concrete Pumpability Combining Different Laboratory Tools and Linkage to Rheology”. Construction and Building Materials 144 (2017): 451–61. https://doi.org/10.1016/j.conbuildmat.2017.03.199.