Characterizing the bond strength of geopolymers at ambient and elevated temperatures

This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters inclu...
Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Zhang, Hai Yan [verfasserIn] Kodur, Venkatesh Qi, Shu Liang Wu, Bo

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2015transfer abstract

Schlagwörter:	Metakaolin Fly ash Geopolymer Temperature Fiber reinforcement Bond strength

Umfang:	10

Übergeordnetes Werk:	Enthalten in: Revisiting the CuPt3 prototype and the L13 structure - Mshumi, Chumani ELSEVIER, 2014transfer abstract, Amsterdam [u.a.]
Übergeordnetes Werk:	volume:58 ; year:2015 ; pages:40-49 ; extent:10

Links:	Volltext

DOI / URN:	10.1016/j.cemconcomp.2015.01.006

Katalog-ID:	ELV039844811

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520			\|a This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism.
520			\|a This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism.
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allfields	10.1016/j.cemconcomp.2015.01.006 doi GBVA2015016000021.pica (DE-627)ELV039844811 (ELSEVIER)S0958-9465(15)00013-X DE-627 ger DE-627 rakwb eng 690 690 DE-600 670 VZ 330 VZ Zhang, Hai Yan verfasserin aut Characterizing the bond strength of geopolymers at ambient and elevated temperatures 2015transfer abstract 10 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. Metakaolin Elsevier Fly ash Elsevier Geopolymer Elsevier Temperature Elsevier Fiber reinforcement Elsevier Bond strength Elsevier Kodur, Venkatesh oth Qi, Shu Liang oth Wu, Bo oth Enthalten in Elsevier Science Mshumi, Chumani ELSEVIER Revisiting the CuPt3 prototype and the L13 structure 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV022993746 volume:58 year:2015 pages:40-49 extent:10 https://doi.org/10.1016/j.cemconcomp.2015.01.006 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U GBV_ILN_73 AR 58 2015 40-49 10 045F 690
spelling	10.1016/j.cemconcomp.2015.01.006 doi GBVA2015016000021.pica (DE-627)ELV039844811 (ELSEVIER)S0958-9465(15)00013-X DE-627 ger DE-627 rakwb eng 690 690 DE-600 670 VZ 330 VZ Zhang, Hai Yan verfasserin aut Characterizing the bond strength of geopolymers at ambient and elevated temperatures 2015transfer abstract 10 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. Metakaolin Elsevier Fly ash Elsevier Geopolymer Elsevier Temperature Elsevier Fiber reinforcement Elsevier Bond strength Elsevier Kodur, Venkatesh oth Qi, Shu Liang oth Wu, Bo oth Enthalten in Elsevier Science Mshumi, Chumani ELSEVIER Revisiting the CuPt3 prototype and the L13 structure 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV022993746 volume:58 year:2015 pages:40-49 extent:10 https://doi.org/10.1016/j.cemconcomp.2015.01.006 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U GBV_ILN_73 AR 58 2015 40-49 10 045F 690
allfields_unstemmed	10.1016/j.cemconcomp.2015.01.006 doi GBVA2015016000021.pica (DE-627)ELV039844811 (ELSEVIER)S0958-9465(15)00013-X DE-627 ger DE-627 rakwb eng 690 690 DE-600 670 VZ 330 VZ Zhang, Hai Yan verfasserin aut Characterizing the bond strength of geopolymers at ambient and elevated temperatures 2015transfer abstract 10 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. Metakaolin Elsevier Fly ash Elsevier Geopolymer Elsevier Temperature Elsevier Fiber reinforcement Elsevier Bond strength Elsevier Kodur, Venkatesh oth Qi, Shu Liang oth Wu, Bo oth Enthalten in Elsevier Science Mshumi, Chumani ELSEVIER Revisiting the CuPt3 prototype and the L13 structure 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV022993746 volume:58 year:2015 pages:40-49 extent:10 https://doi.org/10.1016/j.cemconcomp.2015.01.006 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U GBV_ILN_73 AR 58 2015 40-49 10 045F 690
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allfieldsSound	10.1016/j.cemconcomp.2015.01.006 doi GBVA2015016000021.pica (DE-627)ELV039844811 (ELSEVIER)S0958-9465(15)00013-X DE-627 ger DE-627 rakwb eng 690 690 DE-600 670 VZ 330 VZ Zhang, Hai Yan verfasserin aut Characterizing the bond strength of geopolymers at ambient and elevated temperatures 2015transfer abstract 10 nicht spezifiziert zzz rdacontent nicht spezifiziert z rdamedia nicht spezifiziert zu rdacarrier This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism. Metakaolin Elsevier Fly ash Elsevier Geopolymer Elsevier Temperature Elsevier Fiber reinforcement Elsevier Bond strength Elsevier Kodur, Venkatesh oth Qi, Shu Liang oth Wu, Bo oth Enthalten in Elsevier Science Mshumi, Chumani ELSEVIER Revisiting the CuPt3 prototype and the L13 structure 2014transfer abstract Amsterdam [u.a.] (DE-627)ELV022993746 volume:58 year:2015 pages:40-49 extent:10 https://doi.org/10.1016/j.cemconcomp.2015.01.006 Volltext GBV_USEFLAG_U GBV_ELV SYSFLAG_U GBV_ILN_73 AR 58 2015 40-49 10 045F 690
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hierarchy_parent_title	Revisiting the CuPt3 prototype and the L13 structure
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hierarchy_top_title	Revisiting the CuPt3 prototype and the L13 structure
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title	Characterizing the bond strength of geopolymers at ambient and elevated temperatures
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title_full	Characterizing the bond strength of geopolymers at ambient and elevated temperatures
author_sort	Zhang, Hai Yan
journal	Revisiting the CuPt3 prototype and the L13 structure
journalStr	Revisiting the CuPt3 prototype and the L13 structure
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author_browse	Zhang, Hai Yan
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author-letter	Zhang, Hai Yan
doi_str_mv	10.1016/j.cemconcomp.2015.01.006
dewey-full	690 670 330
title_sort	characterizing the bond strength of geopolymers at ambient and elevated temperatures
title_auth	Characterizing the bond strength of geopolymers at ambient and elevated temperatures
abstract	This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism.
abstractGer	This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism.
abstract_unstemmed	This paper presents characterization of bond strength of geopolymers at ambient and elevated temperatures. The bond strength of 18 different formulations of metakaolin (MK)/fly ash (FA) based geopolymers is evaluated through double shear tests in 20–300°C temperature range. The test parameters include fly ash content, SiO2/K2O ratio, solid-to-liquid ratio and Si/Al ratio. In addition the effect of additives, namely short carbon fibers, basalt fibers and styrene–acrylate emulsion in MK/FA precursor, on bond strength is studied. Data from the tests show that geopolymers exhibit slightly lower bond strength than that of epoxy resin at room temperature, however geopolymers retain much higher bond strength in 100–300°C range. Addition of small quantity of short carbon fibers in MK/FA precursor does not significantly influence bond strength of geopolymers at ambient temperature, but greatly improve bond strength retention in 100–300°C through crack control mechanism.
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title_short	Characterizing the bond strength of geopolymers at ambient and elevated temperatures
url	https://doi.org/10.1016/j.cemconcomp.2015.01.006
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author2	Kodur, Venkatesh Qi, Shu Liang Wu, Bo
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doi_str	10.1016/j.cemconcomp.2015.01.006
up_date	2024-07-06T21:38:37.410Z
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