Pet Fiber Reinforced Wet-Mix Shotcrete with Walnut Shell as Replaced Aggregate

Pet Fiber Reinforced Wet-Mix Shotcrete with Walnut Shell as Replaced Aggregate

In the rapidly developing modern society, many raw materials, such as crushed limestone and river sand, which are limited, are consumed by the concrete industry. Naturally, the usage of waste materials in concrete have become an interesting research area in recent years, which is used to reduce the...

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Bibliographic Details
Published in:Applied sciences Vol. 7; no. 4; p. 345
Main Authors: Cheng, Weimin, Liu, Guoming, Chen, Lianjun
Format: Journal Article
Language:English
Published: Basel MDPI AG 31-03-2017
Subjects:
Accumulation
Alloys
Comparative analysis
Compressive strength
Concrete industry
Concrete mixing
Fiber reinforced materials
Fibers
Lightweight
Limestone
Mechanical properties
mechanism
PET fiber
Polyethylene
Polyethylene terephthalate
Pressure
Pressure drop
pumpability
Raw materials
Rivers
shootability
Splitting
Sprayed concrete
Sustainable development
Tensile strength
Thickness
walnut shell
Walnuts
Waste materials
wet-mix shotcrete
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Summary:In the rapidly developing modern society, many raw materials, such as crushed limestone and river sand, which are limited, are consumed by the concrete industry. Naturally, the usage of waste materials in concrete have become an interesting research area in recent years, which is used to reduce the negative influence of concrete on the environment. Hence, this paper presents the development of a sustainable lightweight wet-mix shotcrete by replacing natural coarse gravel with a kind of byproduct, nut shell (walnut). Fibers made from dumped polyethylene terephthalate (PET) bottles were mixed in the composite to improve the properties of the lightweight wet-mix shotcrete. The initial evaluation of the fresh concrete mixed with different volume fraction of walnut shell was carried out in terms of its performance capacities of mechanical properties (i.e., tensile and compressive strength), pumpability and shootability (i.e., slump, pressure drop per meter and rebound rate) and the results were compared with plain concrete. With increase of walnut shell, compressive and splitting tensile strength of casting concrete decreased, while slump and pressure drop reduced slightly. Additionally, appropriate dosage of walnut shell can improve the shootability of fresh concrete with low rebound rate and larger build-up thickness. In the second series tests, polypropylene (PP) fiber and multi-dimension fiber were also mixed in composite for comparative analysis. After mixing fibers, the splitting tensile strength had obtained marked improvement with slight reduction of compressive strength, along with acceptable fluctuation in terms of pumpability and shootability. Furthermore, relation of density and compressive strength, relation of rebound and density, build-up thickness and relation of compressive and splitting tensile strength were discussed. This study found wet-mix shotcrete incorporating PET fiber with walnut shell of about 35% coarse aggregate replacement could be used for roadway support as lightweight shotcrete per requirements of mine support.
ISSN:2076-3417
2076-3417
DOI:10.3390/app7040345