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Influence of Cooling Rates on the Microstructure and Mechanical Properties of Aluminum Titanate Flexible Ceramic

Jiawei Lian, Qingliang Shan, Weiwei Chen, Qian Ma, Shenghui Zeng, Hao Xiong, Yewei Wang, Qiankun Xu, Anze Shui

2021Advanced Engineering Materials12 citationsDOI

Abstract

Herein, aluminum titanate (Al 2 TiO 5 , AT) flexible ceramics with different cooling rates (program‐controlling cooling (10 and 20 °C min −1 ), air cooling (≈400 °C min −1 ), and water cooling (>1000 °C min −1 ) are fabricated by reaction sintering of Al 2 O 3 and TiO 2 . The effect of cooling rates on microstructures and the mechanical properties of AT ceramics are systematically investigated. The microcrack width and density of AT ceramics with different cooling rates are statistically calculated. In addition, the effect of a microcracks structure on the mechanical properties of AT ceramics is deeply studied. Results show that the increase in cooling rate will increase the width and density of microcrack, leading to a suitable increase in flexibility and a slight decrease in strength. When AT is cooled in air, the best bending strain of 1.10% can be obtained, with a median microcrack width of 0.533 μm and a density of 6831.88 ± 374.87 N mm −2 . It is hopeful that through this research, the effect of cooling rate on the mechanical properties of AT flexible ceramics can be deeply understood, and the strategy used in this research can be used in other exploration of similar material.

Topics & Concepts

Materials scienceMicrostructureCeramicComposite materialAluminiumSinteringFlexural strengthFlexibility (engineering)Air coolingWater coolingBendingThermodynamicsStatisticsMathematicsPhysicsAdvanced ceramic materials synthesisMicrowave Dielectric Ceramics SynthesisFerroelectric and Piezoelectric Materials
Influence of Cooling Rates on the Microstructure and Mechanical Properties of Aluminum Titanate Flexible Ceramic | Litcius