相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。Application and validation of fly ash based geopolymer mortar as grouting material in porous asphalt concrete
Tao Bai et al.
CONSTRUCTION AND BUILDING MATERIALS (2022)
Sustainable utilization of pre-treated and nano fly ash powder for the development of durable geopolymer mortars
R. Mohana et al.
ADVANCED POWDER TECHNOLOGY (2022)
Studies on the microstructure and durability characteristics of ambient cured FA-GGBS based geopolymer mortar
Anjana Elsa Alexander et al.
CONSTRUCTION AND BUILDING MATERIALS (2022)
Investigation of using waste marble powder, brick powder, ceramic powder, glass powder, and rice husk ash as eco-friendly aggregate in sustainable red mud-metakaolin based geopolymer composites
Mucteba Uysal et al.
CONSTRUCTION AND BUILDING MATERIALS (2022)
Effect of curing conditions on freeze-thaw resistance of geopolymer mortars containing various calcium resources
Zhenzhen Jiao et al.
CONSTRUCTION AND BUILDING MATERIALS (2021)
Insights to the sulfate resistance and microstructures of alkali-activated metakaolin/slag pastes
Huajun Zhu et al.
APPLIED CLAY SCIENCE (2021)
Properties of a New Insulation Material Glass Bubble in Geopolymer Concrete
Noor Fifinatasha Shahedan et al.
MATERIALS (2021)
Sulfate resistance of hybrid fiber reinforced metakaolin geopolymer composites
Liang Guo et al.
COMPOSITES PART B-ENGINEERING (2020)
Alkali activated cement made from blast furnace slag generated by charcoal: Resistance to attack by sodium and magnesium sulfates
Neusa Ap Munhak Beltrame et al.
CONSTRUCTION AND BUILDING MATERIALS (2020)
Early mechanical properties and microstructural evolution of slag/metakaolin-based geopolymers exposed to karst water
Jichun Xiang et al.
CEMENT & CONCRETE COMPOSITES (2019)
Effects of combined usage of GGBS and fly ash on workability and mechanical properties of alkali activated geopolymer concrete with recycled aggregate
Jianhe Xie et al.
COMPOSITES PART B-ENGINEERING (2019)
Sulfate Resistance of Recycled Aggregate Concrete with GGBS and Fly Ash-Based Geopolymer
Jianhe Xie et al.
MATERIALS (2019)
Investigation into the effect of calcium on the existence form of geopolymerized gel product of fly ash based geopolymers
Xianhui Zhao et al.
CEMENT & CONCRETE COMPOSITES (2019)
Effects of mix design parameters on heat of geopolymerization, set time, and compressive strength of high calcium fly ash geopolymer
Yifeng Ling et al.
CONSTRUCTION AND BUILDING MATERIALS (2019)
Hybrid slag geopolymer composites with durable characteristics activated by cement kiln dust
H. M. Khater
CONSTRUCTION AND BUILDING MATERIALS (2019)
Sulfate and acid resistance of lithomarge-based geopolymer mortars
Jacek Kwasny et al.
CONSTRUCTION AND BUILDING MATERIALS (2018)
Magnesium sulfate resistance of geopolymer mortar
Hafez E. Elyamany et al.
CONSTRUCTION AND BUILDING MATERIALS (2018)
A comparative study on the durability of geopolymers produced with ground glass fiber, fly ash, and glass-powder in sodium sulfate solution
Hassan Rashidian-Dezfouli et al.
CONSTRUCTION AND BUILDING MATERIALS (2017)
Characterization of the high-calcium fly ash geopolymer mortar with hot-weather curing systems for sustainable application
Prinya Chindaprasirt et al.
ADVANCED POWDER TECHNOLOGY (2017)
Durability performances of wollastonite, tremolite and basalt fiber-reinforced metakaolin geopolymer composites under sulfate and chloride attack
Daming Ren et al.
CONSTRUCTION AND BUILDING MATERIALS (2017)
Sulfate resistance of ferrochrome slag based geopolymer concrete
Mehmet Burhan Karakoc et al.
CERAMICS INTERNATIONAL (2016)
Influence of partial replacement of fly ash by metakaolin on mechanical properties and microstructure of fly ash geopolymer paste exposed to sulfate attack
Ping Duan et al.
CERAMICS INTERNATIONAL (2016)
Use of OPC to improve setting and early strength properties of low calcium fly ash geopolymer concrete cured at room temperature
Pradip Nath et al.
CEMENT & CONCRETE COMPOSITES (2015)
Chemical acceleration of a neutral granulated blast-furnace slag activated by sodium carbonate
Maxim Kovtun et al.
CEMENT AND CONCRETE RESEARCH (2015)
Behavior of low-calcium fly and bottom ash-based geopolymer concrete cured at ambient temperature
Tianyu Xie et al.
CERAMICS INTERNATIONAL (2015)
Reactivity and reaction products of alkali-activated, fly ash/slag paste
N. K. Lee et al.
CONSTRUCTION AND BUILDING MATERIALS (2015)
Effects of sodium hydroxide and sodium silicate solutions on compressive and shear bond strengths of FA-GBFS geopolymer
Tanakorn Phoo-ngernkham et al.
CONSTRUCTION AND BUILDING MATERIALS (2015)
Effect of the activator dose on the compressive strength and accelerated carbonation resistance of alkali silicate-activated slag/metakaolin blended materials
Susan A. Bernal
CONSTRUCTION AND BUILDING MATERIALS (2015)
Very high strength (120 MPa) class F fly ash geopolymer mortar activated at different NaOH amount, heat curing temperature and heat curing duration
C. D. Atis et al.
CONSTRUCTION AND BUILDING MATERIALS (2015)
An investigation of the microstructure and durability of a fluidized bed fly ash-metakaolin geopolymer after heat and acid exposure
Ping Duan et al.
MATERIALS & DESIGN (2015)
Potential utilization of class C fly ash-based geopolymer in oil well cementing operations
Mahmoud Khalifeh et al.
CEMENT & CONCRETE COMPOSITES (2014)
Effects of NaOH concentrations on physical and electrical properties of high calcium fly ash geopolymer paste
Sakonwan Hanjitsuwan et al.
CEMENT & CONCRETE COMPOSITES (2014)
Use of glass waste as an activator in the preparation of alkali-activated slag. Mechanical strength and paste characterisation
F. Puertas et al.
CEMENT AND CONCRETE RESEARCH (2014)
Effect of transient creep on compressive strength of geopolymer concrete for elevated temperature exposure
Zhu Pan et al.
CEMENT AND CONCRETE RESEARCH (2014)
Utilization of radioactive high-calcium Mongolian flyash for the preparation of alkali-activated geopolymers for safe use as construction materials
J. Temuujin et al.
CERAMICS INTERNATIONAL (2014)
Effect of activator type and content on properties of alkali-activated slag mortars
Serdar Aydin et al.
COMPOSITES PART B-ENGINEERING (2014)
Influence of curing conditions on properties of high calcium fly ash geopolymer containing Portland cement as additive
Saengsuree Pangdaeng et al.
MATERIALS & DESIGN (2014)
Setting and mechanical properties of alkali-activated fly ash/slag concrete manufactured at room temperature
N. K. Lee et al.
CONSTRUCTION AND BUILDING MATERIALS (2013)
Microstructural changes in alkali activated fly ash/slag geopolymers with sulfate exposure
Idawati Ismail et al.
MATERIALS AND STRUCTURES (2013)
Influence of Curing on the Strength Development of Calcium-Containing Geopolymer Mortar
Xueying Li et al.
MATERIALS (2013)
Effect of SiO2 and Al2O3 on the setting and hardening of high calcium fly ash-based geopolymer systems
Prinya Chindaprasirt et al.
JOURNAL OF MATERIALS SCIENCE (2012)
Effect of type, form, and dosage of activators on strength of alkali-activated natural pozzolans
Dali Bondar et al.
CEMENT & CONCRETE COMPOSITES (2011)
Properties of geopolymer from circulating fluidized bed combustion coal bottom ash
Ilker Bekir Topcu et al.
MATERIALS SCIENCE AND ENGINEERING A-STRUCTURAL MATERIALS PROPERTIES MICROSTRUCTURE AND PROCESSING (2011)
Chemical Research and Climate Change as Drivers in the Commercial Adoption of Alkali Activated Materials
Jannie S. J. van Deventer et al.
WASTE AND BIOMASS VALORIZATION (2010)
Effect of synthesis parameters on the compressive strength of low-calcium ferronickel slag inorganic polymers
Kostas Komnitsas et al.
JOURNAL OF HAZARDOUS MATERIALS (2009)
Influence of NaOH solution on the synthesis of fly ash geopolymer
Ubolluk Rattanasak et al.
MINERALS ENGINEERING (2009)
Durability of geopolymer materials in sodium and magnesium sulfate solutions
T Bakharev
CEMENT AND CONCRETE RESEARCH (2005)
Mechanism of sulfate attack: a fresh look Part 2. Proposed mechanisms
M Santhanam et al.
CEMENT AND CONCRETE RESEARCH (2003)
Sulfate attack on alkali-activated slag concrete
T Bakharev et al.
CEMENT AND CONCRETE RESEARCH (2002)
Calorimetric study of alkaline activation of calcium hydroxide-metakaolin solid mixtures
S Alonso et al.
CEMENT AND CONCRETE RESEARCH (2001)