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Abstract
Chemical resistance is one of the important evaluation factors of ceramic tiles. This article describes the method for determining the chemical resistance of ceramic tiles, and discusses the influence of acid-base solution concentration on the test results during the experiment, and proposes corresponding improvement measures.
Highlights
Ceramic products have been widely used in the general decoration, wall and floor of buildings at home and abroad because of their strong anti-corrosion, powerful pollution resistance, long service life and low price
Ceramic tile testing standard GB/T 3810. 13-2016 stipulates that the experimental reagents mainly include household chemicals, swimming pool salts and acid-base solutions of different concentrations, etc
The detection situation when the test solution concentration deviation occurs in the experiment is simulated, and the influence of different strong acid and strong alkali test solution concentrations on the chemical corrosion resistance of ceramic tiles is studied
Summary
2.1 The principle and equipment of the experiment of chemical corrosion resistance of ceramic tiles. The sample is directly affected by the test solution, and the degree of chemical corrosion will be observed and determined after a certain period of time under certain conditions. The equipment used in the experiment mainly includes: Balance 05g); Oven (operating temperature 110°C±5°C), Biochemical incubator (20°C ±2°C);Cylinder (made of borosilicate glass); Suede etc The equipment used in the experiment mainly includes: Balance (precision is 0. 05g); Oven (operating temperature 110°C±5°C), Biochemical incubator (20°C ±2°C);Cylinder (made of borosilicate glass); Suede etc
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