DocumentCode :
3260823
Title :
Effect of rubber powder on the performance of glazed hollow bead thermal insulating mortar
Author :
Zhimin, He ; Junzhe, Liu
Author_Institution :
Ningbo Univ., Ningbo, China
fYear :
2011
fDate :
22-24 April 2011
Firstpage :
4950
Lastpage :
4953
Abstract :
This paper presents a laboratory study on the effect of rubber powder on the performance of thermal insulating mortar with glazed hollow bead. The test results show that with the dosage of rubber powder increases, the consistency of thermal insulating mortar decreases. However, the apparent density is adversely affected, and thermal conductivity increases firstly and decreases laterly. Rubber powder can bind better with the organic compounds in the thermal insulating mortar, and have a affect of closing the open pore-structures, so the water in the mortar is controlled and the drying shrinkage of the thermal insulating mortar decline. The addition of rubber powder significantly increases the ratio of the flexural strength to compressive strength, however, with the addition dosage of the rubber powder increases, the compressive strength of thermal insulating mortar significantly decline. For a specific insulation mortar in this paper, there will exist the best mixing amount 3% of rubber powder.
Keywords :
bending strength; compressive strength; drying; glazes; mixing; mortar; organic compounds; powder technology; rubber; shrinkage; thermal conductivity; thermal insulating materials; thermal insulation; compressive strength; drying shrinkage; flexural strength; glazed hollow bead thermal insulating mortar; mixing; open pore-structures; organic compounds; rubber powder; thermal conductivity; water control; Helium; Mortar; Powders; Rubber; Three dimensional displays; energy saving; glazed hollow bead; rubber powder; thermal insulation mortar;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Electric Technology and Civil Engineering (ICETCE), 2011 International Conference on
Conference_Location :
Lushan
Print_ISBN :
978-1-4577-0289-1
Type :
conf
DOI :
10.1109/ICETCE.2011.5776428
Filename :
5776428
Link To Document :
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