/

Green Concrete

Kryvenko, Pavlo V. Kolisnychenko, Stanislav
Heftet / 2023 / Engelsk

Produktdetaljer

ISBN
9783036400952
Publisert
2023-03-15
Utgiver
Trans Tech Publications Ltd; Trans Tech Publications Ltd
Vekt
1070 gr
Høyde
240 mm
Bredde
170 mm
Dybde
28 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
560

Redaktør
Kryvenko, Pavlo V.
Kolisnychenko, Stanislav

Green Concrete

Kryvenko, Pavlo V. Kolisnychenko, Stanislav
Heftet / 2023 / Engelsk
Kryvenko, Pavlo V. Kolisnychenko, Stanislav
Heftet / 2023 / Engelsk
Nettpris:
4.170,-
Levering 7-20 dager
Sjekk lagerstatus i butikk

This book, a review of the latest trends in the development, properties research, and production of green concrete, contains articles published by Trans Tech Publications Inc. in the last few years. The edition will be helpful and interesting to a broad audience of specialists in the concrete production and construction industry.

Les mer
<p>Aggregated Book</p>
  • Preface
  • Chapter 1: Sustainability Aspects in Concrete Production
  • A Classification Review on Green Concrete
  • Concrete as a Sustainable Construction Material
  • High Performance Concrete for Environmentally Efficient Building Structures
  • Proposal of Eco-Efficiency Evaluation Method for Concrete Using Equivalent Durability on Carbonation
  • Chapter 2: Cement Replacement
  • Application of Waste Glass Powder as a Partial Cement Substitute towards more Sustainable Concrete Production
  • Influence of Fly Ash and Basalt Fibers on Strength and Chloride Penetration Resistance of Self-Consolidating Concrete
  • Validation of the Splitting Tensile Strength Formula for Concrete Containing Blast Furnace Slag
  • Durability of Sustainable Self-Consolidating Concrete
  • Experimental Validation of Splitting Tensile Strength of Self Consolidating Concrete
  • The Correlation between Splitting Tensile Strength and Flexural Strength of Self Consolidating Concrete
  • Strength Possibilities on Fly ash Based Interlock Pavers
  • The Behavior of Fly Ash in Concrete Mixture
  • Engineering Properties of Concrete with a Ternary Blend of Fly Ash, Wheat Straw Ash, and Maize Cob Ash
  • Suitability of Cordia millenii Ash Blended Cement in Concrete Production
  • Mechanical and Water Absorption Properties of Normal Strength Concrete (NSC) Containing Secondary Aluminum Dross (SAD)
  • Durability of Concrete with Fly Ash from the Dam Orlík after 55 Years
  • Evaluation of Compressive Strength of Sustainable Concrete Using Genetic Algorithm Assisted Artificial Neural Networks
  • Rice Husk Ash as a Cement Replacement in High Strength Sustainable Concrete
  • Optimization of Sustainable Concrete Mixes Containing Binary and Ternary Blends
  • Thermal Transmission Properties of Sustainable Concrete with Supplementary Cementitious Materials
  • Sustainability Considerations of Concrete Mixes Incorporating Slag as Partial Replacement of Cement in Concrete in the UAE
  • Optimization of Concrete with High Volume of Fly Ash
  • Development of Geopolymer Mortar for Field Applications
  • A Review Study on the Characterization of Geopolymer Concrete
  • Behaviour of Fly Ash and Rice Husk Ash Based Geopolymer Concrete
  • Setting Time and Compressive Strength of Mortar Containing Cockle Shell Powder as Partial Cement Replacement
  • A Bibliographic Historical Analysis on Geopolymer as a Substitute for Portland Cement
  • Chapter 3: Aggregate Replacement
  • Influence of Calcined Clay on the Strength Characteristics and Microstructure of Recycled Aggregate Concrete for Sustainable Construction
  • Waste and Discharge Sand Use of Foundry for the Manufacture of Concrete Tiles
  • Recycled Polymer Concrete Composite: A Retrospective Review of the Literature and Framework for Thermal Comfort in Homes
  • Compressive Strength Performance of Reactive Powder Concrete Using Different Types of Materials as a Partial Replacement of Fine Aggregate
  • Eco-Friendly and Cost-Effective Design of Concrete Pavement Using Used Foundry Sand and Tiles Dust
  • Cracking Tendency of Self-Compacting Concrete Containing Crumb Rubber as Fine Aggregate
  • Development of Functionally Graded Concrete Using Rubber Fiber
  • Behavior of Concrete Containing of Fine Recycled Aggregate
  • The Comparison of Different Recycled Aggregate Types Properties
  • Rheological Behavior of Self-Compacting Geopolymer Concrete Containing Recycled Aggregates: Effect of Na2SiO3/NaOH and Molarity of NAOH
  • Mechanical Behavior and Shrinkage of Algerian Very High Performance Concrete Using Local Materials
  • Development of Green Cementitious Materials by Using the Abrasive Waterjet Garnet Wastes: Preliminary Studies
  • Development of Light-Weight Concrete with Utilization of Foam Glass Based Aggregate
  • Rice Husk Ash as Fine Aggregate Sustainable Material for Strength Enhancement of Conventional and Self Compacting Concrete
  • Durability and Mechanical Properties of Self-Compacting Concrete Incorporating Recovered Filler from Hot Mix Asphalt Plants and Recycled Fine Aggregate
  • Effects of Rubber Particles on Rheological and Mechanical Properties of Concrete Containing CaCO3 Nanoparticles
  • Compressive Strength of Sustainable Concrete Mixes with Different Maximum Size Aggregates
  • Study of the Substitution of Natural Fine Aggregates by Stone Dust in the Concrete of the Portland Cement
  • Analysis of Technical Suitability of Using Wood Ash in Cement Based Materials
  • The Mechanical Properties Study of Waste Bakelite Aggregate Concrete
  • Egg as an Organic Building Material a Comparative Study and Understanding in Indian Context
  • Optimization of Re-Mixing Recyclated Concrete Aggregates
  • Compressive Resistance of Environmental Concrete Using Fly Ash and Fine Aggregate for Replacing Traditional Sand
  • Properties of Alkali Activated Slag Concrete Incorporating Waste Materials as Aggregate: A Review
  • Fresh and Mechanical Properties of Sustainable Concrete Using Recycled Aggregates
  • Chapter 4: Other Variants of Basic Components Replacement
  • Properties of Concrete with Eggshell Powder and Tyre Rubber Crumb
  • Carbonation Resistance of Sustainable Concrete Using Recycled Aggregate and Supplementary Cementitious Materials
  • Innovative Sustainable Materials – Structural Stability Check of Various Waste Mix Concrete Material
  • Preliminary Assessment of Durability of Sustainable RC Structures with Mixed-In Seawater and Stainless Steel Reinforcement
  • Calculating Dynamic Strengths of Concrete Subjected to Impact Load
  • Investigating Mechanical Properties of Sustainable Concrete Admixing Wollastonite Micro Fibre and Granite Block Cutting Waste
  • Chapter 5: Reinforcement and Fillers
  • Embedding Bio-Filler Materials to Enhance Physical-Mechanical-Thermal Properties of Concrete
  • Compressive and Flexural Strength of Concrete Containing Recycled Polyethylene Terephthalate (PET)
  • Effect of Surface Modification and Fibre Content on the Mechanical Properties of Coconut Fibre Reinforced Concrete
  • Evaluation of the Mechanical Strength of a Concrete Modified with PET Fibers from Post-Consumer Bottles
  • The Compressive Strength of Coconut Fibers Reinforced Nano Concrete Composite
  • Concrete Reinforced with Recycled Steel Fibers from End of Life Tires: Mix-Design and Application
  • Preliminary Study of Compressive Strength of Concrete Incorporated with Waste Paper Fibres
  • Influence of Asphalt Dust Waste Material in Mix Design for Self-Compacting Concrete
Les mer

Relaterte produkter

This book, a review of the latest trends in the development, properties research, and production of green concrete, contains articles published by Trans Tech Publications Inc. in the last few years. The edition will be helpful and interesting to a broad audience of specialists in the concrete production and construction industry.

Les mer
<p>Aggregated Book</p>
  • Preface
  • Chapter 1: Sustainability Aspects in Concrete Production
  • A Classification Review on Green Concrete
  • Concrete as a Sustainable Construction Material
  • High Performance Concrete for Environmentally Efficient Building Structures
  • Proposal of Eco-Efficiency Evaluation Method for Concrete Using Equivalent Durability on Carbonation
  • Chapter 2: Cement Replacement
  • Application of Waste Glass Powder as a Partial Cement Substitute towards more Sustainable Concrete Production
  • Influence of Fly Ash and Basalt Fibers on Strength and Chloride Penetration Resistance of Self-Consolidating Concrete
  • Validation of the Splitting Tensile Strength Formula for Concrete Containing Blast Furnace Slag
  • Durability of Sustainable Self-Consolidating Concrete
  • Experimental Validation of Splitting Tensile Strength of Self Consolidating Concrete
  • The Correlation between Splitting Tensile Strength and Flexural Strength of Self Consolidating Concrete
  • Strength Possibilities on Fly ash Based Interlock Pavers
  • The Behavior of Fly Ash in Concrete Mixture
  • Engineering Properties of Concrete with a Ternary Blend of Fly Ash, Wheat Straw Ash, and Maize Cob Ash
  • Suitability of Cordia millenii Ash Blended Cement in Concrete Production
  • Mechanical and Water Absorption Properties of Normal Strength Concrete (NSC) Containing Secondary Aluminum Dross (SAD)
  • Durability of Concrete with Fly Ash from the Dam Orlík after 55 Years
  • Evaluation of Compressive Strength of Sustainable Concrete Using Genetic Algorithm Assisted Artificial Neural Networks
  • Rice Husk Ash as a Cement Replacement in High Strength Sustainable Concrete
  • Optimization of Sustainable Concrete Mixes Containing Binary and Ternary Blends
  • Thermal Transmission Properties of Sustainable Concrete with Supplementary Cementitious Materials
  • Sustainability Considerations of Concrete Mixes Incorporating Slag as Partial Replacement of Cement in Concrete in the UAE
  • Optimization of Concrete with High Volume of Fly Ash
  • Development of Geopolymer Mortar for Field Applications
  • A Review Study on the Characterization of Geopolymer Concrete
  • Behaviour of Fly Ash and Rice Husk Ash Based Geopolymer Concrete
  • Setting Time and Compressive Strength of Mortar Containing Cockle Shell Powder as Partial Cement Replacement
  • A Bibliographic Historical Analysis on Geopolymer as a Substitute for Portland Cement
  • Chapter 3: Aggregate Replacement
  • Influence of Calcined Clay on the Strength Characteristics and Microstructure of Recycled Aggregate Concrete for Sustainable Construction
  • Waste and Discharge Sand Use of Foundry for the Manufacture of Concrete Tiles
  • Recycled Polymer Concrete Composite: A Retrospective Review of the Literature and Framework for Thermal Comfort in Homes
  • Compressive Strength Performance of Reactive Powder Concrete Using Different Types of Materials as a Partial Replacement of Fine Aggregate
  • Eco-Friendly and Cost-Effective Design of Concrete Pavement Using Used Foundry Sand and Tiles Dust
  • Cracking Tendency of Self-Compacting Concrete Containing Crumb Rubber as Fine Aggregate
  • Development of Functionally Graded Concrete Using Rubber Fiber
  • Behavior of Concrete Containing of Fine Recycled Aggregate
  • The Comparison of Different Recycled Aggregate Types Properties
  • Rheological Behavior of Self-Compacting Geopolymer Concrete Containing Recycled Aggregates: Effect of Na2SiO3/NaOH and Molarity of NAOH
  • Mechanical Behavior and Shrinkage of Algerian Very High Performance Concrete Using Local Materials
  • Development of Green Cementitious Materials by Using the Abrasive Waterjet Garnet Wastes: Preliminary Studies
  • Development of Light-Weight Concrete with Utilization of Foam Glass Based Aggregate
  • Rice Husk Ash as Fine Aggregate Sustainable Material for Strength Enhancement of Conventional and Self Compacting Concrete
  • Durability and Mechanical Properties of Self-Compacting Concrete Incorporating Recovered Filler from Hot Mix Asphalt Plants and Recycled Fine Aggregate
  • Effects of Rubber Particles on Rheological and Mechanical Properties of Concrete Containing CaCO3 Nanoparticles
  • Compressive Strength of Sustainable Concrete Mixes with Different Maximum Size Aggregates
  • Study of the Substitution of Natural Fine Aggregates by Stone Dust in the Concrete of the Portland Cement
  • Analysis of Technical Suitability of Using Wood Ash in Cement Based Materials
  • The Mechanical Properties Study of Waste Bakelite Aggregate Concrete
  • Egg as an Organic Building Material a Comparative Study and Understanding in Indian Context
  • Optimization of Re-Mixing Recyclated Concrete Aggregates
  • Compressive Resistance of Environmental Concrete Using Fly Ash and Fine Aggregate for Replacing Traditional Sand
  • Properties of Alkali Activated Slag Concrete Incorporating Waste Materials as Aggregate: A Review
  • Fresh and Mechanical Properties of Sustainable Concrete Using Recycled Aggregates
  • Chapter 4: Other Variants of Basic Components Replacement
  • Properties of Concrete with Eggshell Powder and Tyre Rubber Crumb
  • Carbonation Resistance of Sustainable Concrete Using Recycled Aggregate and Supplementary Cementitious Materials
  • Innovative Sustainable Materials – Structural Stability Check of Various Waste Mix Concrete Material
  • Preliminary Assessment of Durability of Sustainable RC Structures with Mixed-In Seawater and Stainless Steel Reinforcement
  • Calculating Dynamic Strengths of Concrete Subjected to Impact Load
  • Investigating Mechanical Properties of Sustainable Concrete Admixing Wollastonite Micro Fibre and Granite Block Cutting Waste
  • Chapter 5: Reinforcement and Fillers
  • Embedding Bio-Filler Materials to Enhance Physical-Mechanical-Thermal Properties of Concrete
  • Compressive and Flexural Strength of Concrete Containing Recycled Polyethylene Terephthalate (PET)
  • Effect of Surface Modification and Fibre Content on the Mechanical Properties of Coconut Fibre Reinforced Concrete
  • Evaluation of the Mechanical Strength of a Concrete Modified with PET Fibers from Post-Consumer Bottles
  • The Compressive Strength of Coconut Fibers Reinforced Nano Concrete Composite
  • Concrete Reinforced with Recycled Steel Fibers from End of Life Tires: Mix-Design and Application
  • Preliminary Study of Compressive Strength of Concrete Incorporated with Waste Paper Fibres
  • Influence of Asphalt Dust Waste Material in Mix Design for Self-Compacting Concrete
Les mer

Produktdetaljer

ISBN
9783036400952
Publisert
2023-03-15
Utgiver
Trans Tech Publications Ltd; Trans Tech Publications Ltd
Vekt
1070 gr
Høyde
240 mm
Bredde
170 mm
Dybde
28 mm
Aldersnivå
P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet
Antall sider
560

Redaktør
Kryvenko, Pavlo V.
Kolisnychenko, Stanislav

Relaterte produkter