In‐situ polymerization modified calcium sulfate whiskers and their application in <scp>PP</scp> composites research-Reference-Cited by-同舟云学术

In‐situ polymerization modified calcium sulfate whiskers and their application in PP composites research

Published:2024-06-21 Issue: Volume: Page:
ISSN:0272-8397
Container-title:Polymer Composites
language:en
Short-container-title:Polymer Composites

Author:

Gao Xuan¹,Wang Mingwei¹,Cao Jianxin¹²,Xiao Rengui¹²,Yang Chunliang¹²,Xie Guiming¹²^ORCID

Affiliation:

1. School of Chemistry and Chemical Engineering Guizhou University Guiyang PR China

2. Key Laboratory of Guizhou Province for Green Chemical Industry and Clean Energy Technology Guizhou University Guiyang PR China

Abstract

AbstractCalcium sulfate whiskers (CSW) exhibit significant surface polarity and high surface energy, leading to aggregation when directly incorporated into polymer matrices, significantly affecting the mechanical properties of the composites. Sodium oleate (SO) was used to modify CSW, introducing –C=C– active groups on the surface, followed by in‐situ graft polymerization of sodium oleate‐modified CSW (SO‐CSW) with methyl methacrylate (MMA) to prepare CSW‐g‐PMMA composites. The modification mechanism of SO and PMMA on CSW, as well as the surface modification effects on CSW, were studied using DRIFT, XRD, XPS and TEM. The results show that oleic acid ions adsorb onto the surface of CSW in two forms. One is chemisorption, in which the oleic acid ions are adsorbed on the calcium ions site on the surface of CSW in a bridging way. The other is physical adsorption, oleic acid ions and dissolved calcium ions in the form of precipitation adsorbed on the outermost layer of CSW. After in‐situ polymerization, PMMA was successfully grafted onto the surface of CSW, and the thickness of the surface PMMA coating layer was approximately 67 nm. CSW‐g‐PMMA was used as a filler in the melt blending with polypropylene (PP) to prepare PP composites. CSW‐g‐PMMA mainly toughens and enhances the mechanical properties of PP composites in the form of crack bridging, crack deflection and pull‐out effect.Highlights

The mechanism of sodium oleate modified calcium sulfate whisker (CSW) has been investigated. One is chemical adsorption that the oleic acid ions are adsorbed on the calcium ions site on the CSW surface in a bridge way. The other is physical adsorption that oleic acid ions and dissolved calcium ions are adsorbed in the form of precipitation on the outer layer of CSW.

After the modification of sodium oleate, the active group –C=C– was introduced on the surface of CSW, and then the PMMA long chain polymer was grafted with an in‐situ polymerization to form a PMMA coating layer with a thickness of about 67 nm, which significantly improved the hydrophobicity of CSW surface.

After modification with sodium oleate and PMMA grafting, the modified CSW significantly toughened and enhanced the mechanical properties of PP composites in the form of crack bridging, crack deflection and pull‐out effect.

Publisher

Wiley

Reference30 articles.

1. Single-molecule study on the force-induced melting in syndiotactic polypropylene single crystals

2. Mechanical behavior of calcium sulfate whisker-reinforced paraffin/gypsum composites

3. Insights into the modification for improving the surface property of calcium sulfate whisker: Experimental and DFT simulation study

4. Surface modification of calcium sulfate whisker prepared from flue gas desulfurization gypsum

5. Calcium Sulphate Whiskers (CSW) an innovative material for civil engineering applications: A critical review of its preparation, characterization, current trends, and prospects