A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times

A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times

Magnesium phosphate cement (MPC), a new type of inorganic cementitious material, is favored in engineering and construction because of its fast setting speed and high bonding strength, but is limited in practical application due to its high production cost and excessive release of hydration heat. Re...

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Main Authors: Hui Wu, Zhujian Xie, Liwen Zhang, Zhiwei Lin, Shimin Wang, Wenle Tang
Format: Article
Language:English
Published: MDPI AG 2021-09-01
Series:Materials
Subjects:
magnesium phosphate cement
flexural strength
oyster shell powder
curing time
three-point bending test
Online Access:https://www.mdpi.com/1996-1944/14/18/5433
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record_format Article
spelling doaj-ce7660f9f1834ee4b91cb53180720c4f2021-09-26T00:37:34ZengMDPI AGMaterials1996-19442021-09-01145433543310.3390/ma14185433A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing TimesHui Wu0Zhujian Xie1Liwen Zhang2Zhiwei Lin3Shimin Wang4Wenle Tang5Department of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaDepartment of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaDepartment of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaDepartment of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaDepartment of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaDepartment of Civil Engineering, Guangzhou University, Guangzhou 510006, ChinaMagnesium phosphate cement (MPC), a new type of inorganic cementitious material, is favored in engineering and construction because of its fast setting speed and high bonding strength, but is limited in practical application due to its high production cost and excessive release of hydration heat. Relevant research has investigated the application of discarded oyster shell powder (OSP) replacing cement mortar and has reported certain improvements to its performance. Consequently, focusing on discovering more effects of OSP on MPC performance, this study, by using a typical three-point bending test, used 45 cuboid specimens to investigate the influences of OSP mass content on flexural properties of MPC at different curing times. Results illustrated that MPC flexural strength was first increased and then decreased, and 3% is the critical value for OSP mass content. Similarly, the stiffness of all specimens presented a tendency to increase first and then decrease, with a maximum value of 36.18 kN/mm appearing at 3%, i.e., the critical OSP mass content. Finally, scanning electron microscope (SEM) and X-ray diffraction (XRD) were employed to analyze the microstructure and composition of specimens, confirming that the specimens generated not only the hydration product potassium phosphate magnesium (MgKPO<sub>4</sub>·6H<sub>2</sub>O, MKP), but also another new reactant (CaHPO<sub>4</sub>·2H<sub>2</sub>O).https://www.mdpi.com/1996-1944/14/18/5433magnesium phosphate cementflexural strengthoyster shell powdercuring timethree-point bending test
collection DOAJ
language English
format Article
sources DOAJ
author Hui Wu
Zhujian Xie
Liwen Zhang
Zhiwei Lin
Shimin Wang
Wenle Tang
spellingShingle Hui Wu
Zhujian Xie
Liwen Zhang
Zhiwei Lin
Shimin Wang
Wenle Tang
A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
Materials
magnesium phosphate cement
flexural strength
oyster shell powder
curing time
three-point bending test
author_facet Hui Wu
Zhujian Xie
Liwen Zhang
Zhiwei Lin
Shimin Wang
Wenle Tang
author_sort Hui Wu
title A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
title_short A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
title_full A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
title_fullStr A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
title_full_unstemmed A New Magnesium Phosphate Cement Based on Renewable Oyster Shell Powder: Flexural Properties at Different Curing Times
title_sort new magnesium phosphate cement based on renewable oyster shell powder: flexural properties at different curing times
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2021-09-01
description Magnesium phosphate cement (MPC), a new type of inorganic cementitious material, is favored in engineering and construction because of its fast setting speed and high bonding strength, but is limited in practical application due to its high production cost and excessive release of hydration heat. Relevant research has investigated the application of discarded oyster shell powder (OSP) replacing cement mortar and has reported certain improvements to its performance. Consequently, focusing on discovering more effects of OSP on MPC performance, this study, by using a typical three-point bending test, used 45 cuboid specimens to investigate the influences of OSP mass content on flexural properties of MPC at different curing times. Results illustrated that MPC flexural strength was first increased and then decreased, and 3% is the critical value for OSP mass content. Similarly, the stiffness of all specimens presented a tendency to increase first and then decrease, with a maximum value of 36.18 kN/mm appearing at 3%, i.e., the critical OSP mass content. Finally, scanning electron microscope (SEM) and X-ray diffraction (XRD) were employed to analyze the microstructure and composition of specimens, confirming that the specimens generated not only the hydration product potassium phosphate magnesium (MgKPO<sub>4</sub>·6H<sub>2</sub>O, MKP), but also another new reactant (CaHPO<sub>4</sub>·2H<sub>2</sub>O).
topic magnesium phosphate cement
flexural strength
oyster shell powder
curing time
three-point bending test
url https://www.mdpi.com/1996-1944/14/18/5433
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