«Previous Article|Table of Contents|Next Article»

《南京师大学报（自然科学版）》[ISSN:1001-4616/CN:32-1239/N]

Issue:

2021年03期

Page:

20-23

Research Field:

·物理学·

Publishing date:

Info

Title:

Research on the Rheological Model of Cement Paste with Large Fluidity

Author(s):

Huang He; Jiang Yaqing; Pan Tinghong; Ji Xuping

College of Mechanics and Materials of Hohai University,Nanjing 211100,China

Keywords:

fresh cementitious materials; rheological properties; rheological model; polycarboxylic superplasticizers

PACS:

TU528

DOI:

10.3969/j.issn.1001-4616.2021.03.004

Abstract:

This paper aims at studying the rheological parameters model of fresh cementitious materials with polycarboxylic superplasticizers. Rheological properties of the high fluidity cement paste were measured by RST-SST rotational rheometer,and the rheological parameters obtained from the empirical model were compared with those from the theoretical model.The results show that the modified Bingham model is more applicable to high fluidity cement paste,the empirical viscosity values obtained from the Bingham model are more consistent with the theoretical viscosity of the paste and its viscosity parameters can be used to characterise the viscosity values of the paste.The parameters in the modified Bingham model satisfy a quantitative relationship with the theoretical viscosity of the paste:η=η₁+100c.

References:

[1] 俞星辰,肖亚平,韩维. 铁催化过氧化氢氧化端炔合成羧酸类化合物[J]. 南京师大学报(自然科学版),2020,162(2):35-39,48.
[2]ROUSSEL N. 聚合物和新拌混凝土性能研究进展[J]. 硅酸盐学报,2015,43(10):1401-1407.
[3]TATTERSALL G H,BLOOMER S J. Further development of the two-point test for workability and extension of its range[J]. Magazine of concrete research,1979,31(109),202-210.
[4]DOMONE P L J,XU Y M,BANFILL P F G. Developments of the two-point workability test for high-performance concrete[J]. Magazine of concrete research,1999,51(3),171-179.
[5]NICOLAS R. Rheological requirements for printable concretes[J]. Cement and concrete research,2018,112:76-85.
[6]毛永琳,舒鑫,张倩倩等. 云母粉对水泥砂浆流变性能的影响[J]. 新型建筑材料,2020,47(5):33-36.
[7]HAFID H,OVARLEZ G,TOUSSAINT F,et al. Assessment of potential concrete and mortar rheometry artifacts using magnetic resonance imaging[J]. Cement and concrete research,2015,71:29-35.
[8]PENG J W,DENG D H,LIU Z Q,et al. Rheological models for fresh cement asphalt paste[J]. Construction and building materials,2014,71:254-262.
[9]VANCE K,SANT G,NEITHALATH N. The rheology of cementitious suspensions:a closer look at experimental parameters and property determination using common rheological models[J]. Cement and concrete composites,2015,59:38-48.
[10]AGWU O E,AKPABIO J U,EKPENYONG M E,et al. A critical review of drilling mud rheological models[J]. Journal of petroleum science and engineering,2021,203:108659.
[11]王广华,冯迪,唐文来,等. 3D打印软体机器人及其传感器[J]. 南京师范大学学报(工程技术版),2020,20(3):57-64.
[12]WONG H H C,KWAN A K H. Packing density of cementitious materials:part 1-measurement using a wet packing method[J]. Materials and structures,2008,41(4):689-701.
[13]MEHDIPOUR I,KHAYAT K H. Effect of supplementary cementitious material content and binder dispersion on packing density and compressive strength of sustainable cement paste[J]. ACI materials journal,2016,113(3):361-372.
[14]CHOI M S,KIM Y J,KIM J K. Prediction of concrete pumping using various rheological models[J]. International journal of concrete structures and materials,2014,4(8):269-278.
[15]AN Z Q,ZHANG Y L,LI Q,et al. Effect of particle shape on the apparent viscosity of liquid-solid suspensions[J]. Powder technology,2018,328:199-206.

Memo

Memo:

-

Common functions

Last Update: 2021-09-15