Top

Journal of Polymer Research

Published in:

01-08-2020 | ORIGINAL PAPER

Controllable synthesis of terminal carboxyl hyperbranched polyester and their retarding effect on concrete

Authors: Pengfei Guo, Zhiliang Zhang, Yaowen Zhang, Fei Han, Chongqi Shou

Published in: Journal of Polymer Research | Issue 8/2020

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Concrete retarders could efficiently extend the hydration time of cement and maintain the plasticity of concrete slurry. However, some inherent shortcomings, such as a short setting time and poor compatibility, severely limits their application. To solve these problems, in this work, a series of carboxyl-terminated hyperbranched polymers (CTHP) were controllably synthesized and their retarding effects on the concrete setting were investigated. The results showed that the final setting time of concrete was increased by nearly 4 times as the addition amount of third generation CTHP was 1.5%, demonstrating an excellent retarding effect. Furthermore, the compressive strength was increased by 43% after 7 d of curing. The results of resistivity and Zeta potential demonstrated that CTHP could change the surface charge density of cement particles and affect the flocculation of cement particles and thus extend the retarding time. The results of Tg、XRD and SEM demonstrated that the CTHP could induce a decrease in the content of Ca(OH)₂ and an increase in the content of ettringaite (AFt) during the hydration procedure, drastically enhancing the strength of the concrete. These CTHP would demonstrate the enormous potential to commercial concrete for the rapid demand in the engineering field.

previous article Chiral PDTDH-based electrode modification material for L/D-tartaric acid electrochemical sensing

next article Effect of incorporation of Halloysite nanotubes on the structure and properties of low-density polyethylene/thermoplastic starch blend

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

Available only for authorised users

Neupane K, Chalmers D, Kidd P (2018) High-strength Geopolymer concrete—properties, advantages and challenges, Adv. Mater 7:15–25

Childers, M. I.; Nguyen, M.-T.; Rod, K. A.; Koech, P. K.; Um, W.; Chun, J.; Glezakou, V.-A.; Linn, D.; Roosendaal, T. J.; Wietsma, T. W(2017) Polymer-cement composites with self-healing ability for geothermal and fossil energy applications, Chem Mater 29 (11): 4708–4718

Xiao J (2018) Products and Constructions with Recycled Aggregate Concrete. Products and constructions with recycled aggregate concrete: in recycled aggregate concrete structures. Springer, Berlin Heidelberg, pp 569–610CrossRef

Biernacki JJ, Bullard JW, Sant G, Brown K, Glasser FP, Jones S, Ley T, Livingston R et al (2017) Cements in the 21st century: challenges, perspectives, and opportunities. J Am Ceram Soc 100(7):2746–2773CrossRef

Berodier E, Gibson II LR, Burns E, Roberts L, Cheung J (2019) Robust production of sustainable concrete through the use of admixtures and in-transit concrete management systems. Cement Concrete Comp 101:52–66CrossRef

Liu J, Yu C, Shu X, Ran Q, Yang Y (2019) Recent advance of chemical admixtures in concrete. Cement Concrete Res 124:105834CrossRef

Boncukcuoğlu R, Yılmaz MT, Kocakerim MM, Tosunoğlu V (2002) Utilization of borogypsum as set retarder in Portland cement production. Cement Concrete Res 32(3):471–475CrossRef

Khalid NHA, Hussin MW, Ismail M, Basar N, Ismail MA, Lee H-S, Mohamed A (2015) Evaluation of effectiveness of methyl methacrylate as retarder additive in polymer concrete. Constr Build Mater 93:449–456CrossRef

Nochaiya T, Sekine Y, Choopun S, Chaipanich A (2015) Microstructure, characterizations, functionality and compressive strength of cement-based materials using zinc oxide nanoparticles as an additive. J Alloy Compd 630:1–10CrossRef

10.

Plank J, Sakai E, Miao C, Yu C, Hong J (2015) Chemical admixtures—chemistry, applications and their impact on concrete microstructure and durability. Cement Concrete Res 78:81–99CrossRef

11.

Ding Z, Xu M-R, Dai J-G, Dong B-Q, Zhang M-J, Hong S-X, Xing F (2019) Strengthening concrete using phosphate cement-based fiber-reinforced inorganic composites for improved fire resistance. Constr Build Mater 212:755–764CrossRef

12.

Wu C, Chen W, Zhang H, Yu H, Zhang W, Jiang N, Liu L (2017) The hydration mechanism and performance of modified magnesium oxysulfate cement by tartaric acid. Constr Build Mater 144:516–524CrossRef

13.

Nalet C, Nonat A (2016) Retarding effectiveness of hexitols on the hydration of the silicate phases of cement: interaction with the aluminate and sulfate phases. Cement Concrete Res 90:137–143CrossRef

14.

Ataie, F. F.; Juenger, M. C. G.; Taylor-Lange, S. C.; Riding, K. A(2015) Comparison of the retarding mechanisms of zinc oxide and sucrose on cement hydration and interactions with supplementary cementitious material, Cement Concrete Res 72, 128, 136

15.

Assi LN, Deaver EE, Ziehl P (2018) Using sucrose for improvement of initial and final setting times of silica fume-based activating solution of fly ash geopolymer concrete. Constr Build Mater 191:47–55CrossRef

16.

Von Daake H, Stephan D (2016) Impact of retarders by controlled addition on the setting, early hydration and microstructural development of different cements. Mag Concrete Res 68(19):1011–1024CrossRef

17.

Chaudhari O, Biernacki JJ, Northrup S (2017) Effect of carboxylic and hydroxycarboxylic acids on cement hydration: experimental and molecular modeling study. J Mater Sci 52(24):13719–13735CrossRef

18.

Kremieniewski M, Rzepka M, Stryczek S, Wiśniowski R (2016) Comparison of gas migration test and building structural strength of slurry in the aspect of limiting gas invasion, AGH drilling, oil. Gas 33(3)

19.

Heckert B, Banerjee T, Sulthana S, Naz S, Alnasser R, Thompson D, Normand G, Grimm J, Perez JM, Santra S (2017) Design and synthesis of new sulfur-containing hyperbranched polymer and theranostic nanomaterials for bimodal imaging and treatment of cancer. ACS Macro Lett 6(3):235–240CrossRef

20.

Ding L, Qian J, Zhu G, Li W, Zhao C, Xu Y, Mu J (2019) Self-assembly of linear-hyperbranched hybrid block polymers: crystallization-driven or solvent-driven? Jour Polym Res 26(5):121CrossRef

21.

Turner, S. R.; Voit, B. I.; Mourey, T. H(1993) All-aromatic hyperbranched polyesters with phenol and acetate end groups: synthesis and characterization, Macromolecules 26 (17): 4617–4623

22.

Aly KI, Abdel-Rahman MA, Qutai MM (2018) Photoactive linear and hyperbranched polyesters based on 4-methylcyclohexanone and 4-tert-butylcyclohexanone moieties in the main chain: synthetic methodology,characterization and cytotoxicity. Jour Polym Res 25(8):185CrossRef

23.

Wang, F.; Liu, L.-z.; Zhang, X.-r.; Weng, L9 (017) Hyperbranched unsaturated polyester resin for application in impregnation coatings, Iran Polym J 26 (1): 81–89

24.

Zhao C, Han Q, Qin H, Yan H, Qian Z, Ma Z, Zhang X, Li X (2017) Biocompatible hyperbranched polyester magnetic nanocarrier for stimuli-responsive drug release. J Biomater Sci Polym Ed 28(7):616–628CrossRef

25.

Li Q, Li J, Liao G, Xu Z (2018) The preparation of heparin-like hyperbranched polyimides and their antithrombogenic, antibacterial applications. J Mater Sci Mater Med 29(8):126CrossRef

26.

HG/T 2709–1995 (1995) Determination of hydroxyl value in polymer polyols. Beijing

27.

GB 8076–2008 (2008) Concrete admixtures. Beijing

28.

GB/T 50080–2016 (2016) Standard for test method of performance on ordinary fresh concrete. Beijing

29.

Liu S, Wang L, Gao Y, Yu B, Tang W (2015) Influence of fineness on hydration kinetics of supersulfated cement. Thermochim Acta 605:37–42CrossRef

30.

Hong S, Zhang J, Liang H, Xiao J, Huang C, Wang G, Hu H, Liu Y, Xu Y, Xing F, Dong B (2018) Investigation on early hydration features of magnesium potassium phosphate cementitious material with the electrodeless resistivity method. Cement Concrete Comp 90:235–240CrossRef

31.

Sanchez, F (2016) In chemomechanical behavior of cement-based materials and molecular dynamics modeling at interfaces: In International Workshop on Seawater sea-sand Concrete (SSC) Structures Reinforced with FRP Composites, pp:24

32.

Nicoleau L, Nonat A (2016) A new view on the kinetics of calcium silicate hydration, Cement. Concrete Res 86:1–11CrossRef

33.

Yan-Rong Z, Xiang-Ming K, Zi-Chen L, Zhen-Bao L, Qing Z, Bi-Qin D, Feng X (2016) Influence of triethanolamine on the hydration product of portlandite in cement paste and the mechanis. Cement Concrete Res 87:64–76CrossRef

34.

Peng Y, Pedersen B, Ng S, De Weerdt K, Jacobsen S (2018) Filler and water reducer effects on sedimentation, bleeding and zeta-potential of cement paste. Nordic Concrete Res 58(1):107–125CrossRef

35.

Yoshioka, K.; Tazawa, E.-i.; Kawai, K.; Enohata, T(2002) Adsorption characteristics of superplasticizers on cement component minerals, Cement Concrete Res 32 (10): 1507–1513

36.

Ioannidou K, Kanduč M, Li L, Frenkel D, Dobnikar J, Gado ED (2016) The crucial effect of early-stage gelation on the mechanical properties of cement hydrates. Nat Commun 7(1)

37.

Jianming Y, Shucong Z (2018) Experimental research on seawater erosion resistance of magnesium potassium phosphate cement pastes. Constr Build Mater 183:534–543CrossRef

38.

Li Y, Sun J, Li J, Shi T (2015) Effects of fly ash, retarder and calcination of magnesia on properties of magnesia–phosphate cement. Adv Cem Res 27(7):373–380CrossRef

Title: Controllable synthesis of terminal carboxyl hyperbranched polyester and their retarding effect on concrete
Authors: Pengfei Guo
Zhiliang Zhang
Yaowen Zhang
Fei Han
Chongqi Shou
Publication date: 01-08-2020
Publisher: Springer Netherlands
Published in: Journal of Polymer Research / Issue 8/2020
Print ISSN: 1022-9760
Electronic ISSN: 1572-8935
DOI: https://doi.org/10.1007/s10965-020-02188-0

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Other articles of this Issue 8/2020

On the mechanical behaviour of industrial PVC pipes under pressure loading: experimental and numerical studies

Chiral PDTDH-based electrode modification material for L/D-tartaric acid electrochemical sensing

Synthesis of surface modified hydrophobic PTFE-ZnO electrospun nanofibrous mats for removal of volatile organic compounds (VOCs) from air

Interaction Effect of Scomberomorus Guttatus-Derived Hydroxyapatite and Montmorillonite on the Characteristics of Polylactic Acid Blends for Biomedical Application

Intrinsic viscosity of poly(N-vinylcaprolactam) with varying the architecture

Silica-graphene oxide nanohybrids as reinforcing filler for natural rubber

Premium Partners