Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Influence of Molding Moisture Content and Porosity/Cement Index on Stiffness, Strength, and Failure Envelopes of Artificially Cemented Fine-Grained Soils
AbstractAn effort is being carried out to encompass the influence of molding moisture content (ω) on the dose procedures aimed at binder enhanced fine-grained soils built on sound criteria. The porosity/cement index (η/Civ) plays an essential role in initial shear stiffness (G0), tensile (qt), and compressive (qu) strength, and triaxial failure envelope parameters determination. This study aims to assess G0, qt, qu, qt/qu and G0/qu relationships of fine-grained soils treated with distinct cement amounts, distinguishing dry densities and different molding moisture contents to show that the effect of distinct structures because of the influence of moisture content and the porosity/cement index play a major function in establishing stiffness and resistance of fine-grained materials. The ruling factors assessed were molding moisture content and adjusted porosity/cement index. Ultrasonic pulse velocity, unconfined compression, split tensile and drained triaxial tests were performed in current research. Higher values of parameters G0, qt, and qu are observed with the rise of binder content and reduction of porosity of the compacted mixture. In addition power functions are used to represent these interaction diagrams relating G0, qt, or qu with cement content or porosity/cement index. Therefore, the porosity/cement index is shown to be suitable to evaluate G0, qu, and qt of the fine-grained soil-binder blend studied. qt/qu ends to be independent of parameters η/Civ and ω for the fine-grained soil-cement studied. Distinctive relations between G0/qu and η/Civ of the silt-cement mixtures are presented for every moisture content considered, connecting stiffness and resistance.
Influence of Molding Moisture Content and Porosity/Cement Index on Stiffness, Strength, and Failure Envelopes of Artificially Cemented Fine-Grained Soils
AbstractAn effort is being carried out to encompass the influence of molding moisture content (ω) on the dose procedures aimed at binder enhanced fine-grained soils built on sound criteria. The porosity/cement index (η/Civ) plays an essential role in initial shear stiffness (G0), tensile (qt), and compressive (qu) strength, and triaxial failure envelope parameters determination. This study aims to assess G0, qt, qu, qt/qu and G0/qu relationships of fine-grained soils treated with distinct cement amounts, distinguishing dry densities and different molding moisture contents to show that the effect of distinct structures because of the influence of moisture content and the porosity/cement index play a major function in establishing stiffness and resistance of fine-grained materials. The ruling factors assessed were molding moisture content and adjusted porosity/cement index. Ultrasonic pulse velocity, unconfined compression, split tensile and drained triaxial tests were performed in current research. Higher values of parameters G0, qt, and qu are observed with the rise of binder content and reduction of porosity of the compacted mixture. In addition power functions are used to represent these interaction diagrams relating G0, qt, or qu with cement content or porosity/cement index. Therefore, the porosity/cement index is shown to be suitable to evaluate G0, qu, and qt of the fine-grained soil-binder blend studied. qt/qu ends to be independent of parameters η/Civ and ω for the fine-grained soil-cement studied. Distinctive relations between G0/qu and η/Civ of the silt-cement mixtures are presented for every moisture content considered, connecting stiffness and resistance.
Influence of Molding Moisture Content and Porosity/Cement Index on Stiffness, Strength, and Failure Envelopes of Artificially Cemented Fine-Grained Soils
2016
Aufsatz (Zeitschrift)
Englisch
BKL:
56.45
Baustoffkunde
Lokalklassifikation TIB:
535/6520/6525/xxxx
| British Library Online Contents | 2017
Porosity/Cement Index Controlling Flexural Tensile Strength of Artificially Cemented Soils in Brazil
| Online Contents | 2019
Porosity/Cement Index Controlling Flexural Tensile Strength of Artificially Cemented Soils in Brazil
| Online Contents | 2019