Ground Improvement Case Histories: Compaction, Grouting and Geosynthetics
Autor Buddhima Indraratna, Jian Chu, Cholachat Rujikiatkamjornen Limba Engleză Paperback – 10 iun 2015
- Comprehensive analysis methods using numerical modelling methods
- Features over 700 pages of contributor generated case-histories from all over the world
- Offers field data and clear observations based on the practical aspects of the construction procedures and treatment effectiveness
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Specificații
ISBN-13: 9780081006986
ISBN-10: 0081006985
Pagini: 796
Dimensiuni: 152 x 229 x 36 mm
Greutate: 1.27 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0081006985
Pagini: 796
Dimensiuni: 152 x 229 x 36 mm
Greutate: 1.27 kg
Editura: ELSEVIER SCIENCE
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Public țintă
Civil Engineers, and Researchers Structural Engineers, Geotechnical Engineers, and Earthquake EngineersCuprins
Part One: Physical Modification including Compaction, Grouting and Drainage
Chapter 1: Ground Improvement for Mitigating Liquefaction-Induced Geotechnical Hazards
Chapter 2: Placing soil covers on soft mine tailings
Chapter 3: Geotechnical Aspects of Hydraulic Filling of Underground Mine Stopes in Australia
Chapter 4: Deep Vibratory Compaction of Granular Soils
Chapter 5: Soft Ground Treatment and Performance, Yelgun to Chinderah Freeway, NSW, Australia
Chapter 6: Ground Improvement using Deep Vibro Techniques
Chapter 7: Improvement of collapsible loess in Eastern Europe
Chapter 8: Deep compaction of granular fills in a land reclamation project by dynamic and vibratory compaction techniques
Chapter 9: Soil Compaction: Recent Developments
Chapter 10: Dynamic Compaction & Dynamic Surcharging at Dubai’s Palm Jumeira STP
Chapter 11: Principles and Case Histories of Deep Vibro Techniques
Chapter 12: Dynamic Compaction & Dynamic Consolidation of Soils
Chapter 13: Assessment of the post-compaction fill characteristics at Penrith Lakes Development site
Chapter 14: The Effectiveness of Rolling Dynamic Compaction –A Field Based Study
Part Two: Geosynthetics and Other Inclusions
Chapter 15: A Multi-Tier Mechanically Stabilized Soil Wall – Field Performance and Numerical Modelling
Chapter 16: The Use of Alternative and Improved Construction Materials and Geosynthetics in Pavements
Chapter 17: Case Histories of Embankments on Soft Soils and Stabilisation with Geosynthetics: Canadian Experience
Chapter 18: Ground improvement with geotextile reinforcements
Chapter 19: Use of Geosynthetics to aid construction over soft soils
Chapter 20: Modernisation of rail tracks using geosynthetics and shockmats: an Australian perspective
Chapter 21: Soil Improvement and Foundation Systems with Encased Columns and Reinforced Bearing Layers
Chapter 22: Use of Tire Derived Aggregate in Highway Embankment Construction – North American Overview and a Canadian perspective
Chapter 23: Design, construction and performance of GRS structures for railways in Japan
Chapter 24: The Use of Bamboo and Bakau Piles for Soil Improvements and Application of Pile Raft System for the Construction of Embankment on Peats and Soft Soils
Chapter 25: Natural Fibers in Reinforcement and Erosion Control Applications with Limited Life Geosynthetics (LLGs)
Chapter 26: Geotechnical Measures to Increase the Stability of Rock Cuts and to Reduce Rockfall Hazards: Case History "Makkah"
Chapter 1: Ground Improvement for Mitigating Liquefaction-Induced Geotechnical Hazards
Chapter 2: Placing soil covers on soft mine tailings
Chapter 3: Geotechnical Aspects of Hydraulic Filling of Underground Mine Stopes in Australia
Chapter 4: Deep Vibratory Compaction of Granular Soils
Chapter 5: Soft Ground Treatment and Performance, Yelgun to Chinderah Freeway, NSW, Australia
Chapter 6: Ground Improvement using Deep Vibro Techniques
Chapter 7: Improvement of collapsible loess in Eastern Europe
Chapter 8: Deep compaction of granular fills in a land reclamation project by dynamic and vibratory compaction techniques
Chapter 9: Soil Compaction: Recent Developments
Chapter 10: Dynamic Compaction & Dynamic Surcharging at Dubai’s Palm Jumeira STP
Chapter 11: Principles and Case Histories of Deep Vibro Techniques
Chapter 12: Dynamic Compaction & Dynamic Consolidation of Soils
Chapter 13: Assessment of the post-compaction fill characteristics at Penrith Lakes Development site
Chapter 14: The Effectiveness of Rolling Dynamic Compaction –A Field Based Study
Part Two: Geosynthetics and Other Inclusions
Chapter 15: A Multi-Tier Mechanically Stabilized Soil Wall – Field Performance and Numerical Modelling
Chapter 16: The Use of Alternative and Improved Construction Materials and Geosynthetics in Pavements
Chapter 17: Case Histories of Embankments on Soft Soils and Stabilisation with Geosynthetics: Canadian Experience
Chapter 18: Ground improvement with geotextile reinforcements
Chapter 19: Use of Geosynthetics to aid construction over soft soils
Chapter 20: Modernisation of rail tracks using geosynthetics and shockmats: an Australian perspective
Chapter 21: Soil Improvement and Foundation Systems with Encased Columns and Reinforced Bearing Layers
Chapter 22: Use of Tire Derived Aggregate in Highway Embankment Construction – North American Overview and a Canadian perspective
Chapter 23: Design, construction and performance of GRS structures for railways in Japan
Chapter 24: The Use of Bamboo and Bakau Piles for Soil Improvements and Application of Pile Raft System for the Construction of Embankment on Peats and Soft Soils
Chapter 25: Natural Fibers in Reinforcement and Erosion Control Applications with Limited Life Geosynthetics (LLGs)
Chapter 26: Geotechnical Measures to Increase the Stability of Rock Cuts and to Reduce Rockfall Hazards: Case History "Makkah"