Lime modification of clay till - A case study

Westesson, Emil

Lime modification of clay till - A case study

Mark

Westesson, Emil ^LU (2015) In TVGT VGTM01 20151
Geotechnical Engineering
Department of Construction Sciences

Abstract: This report deals with lime modification of clay till. Lime modification means that the compaction properties of the soil are improved by the addition of lime. The report consists of three main parts: 1) Description of the geotechnical properties of clay till and how lime modification affects the properties; 2) Description of the implementation of lime modification and the tests conducted at a construction site in the northeast part of Lund, Sweden; 3) Evaluation of the test results.

Clay tills are complex soils in earthworks. To be able to pack a clay till, it is required that the soil is in a solid consistency condition. Clay till is rarely found in a solid consistency condition. An ion exchange occurs through the addition of lime... (More); This report deals with lime modification of clay till. Lime modification means that the compaction properties of the soil are improved by the addition of lime. The report consists of three main parts: 1) Description of the geotechnical properties of clay till and how lime modification affects the properties; 2) Description of the implementation of lime modification and the tests conducted at a construction site in the northeast part of Lund, Sweden; 3) Evaluation of the test results.

Clay tills are complex soils in earthworks. To be able to pack a clay till, it is required that the soil is in a solid consistency condition. Clay till is rarely found in a solid consistency condition. An ion exchange occurs through the addition of lime where calcium ions replace the existing ions surrounding the clay particles. The ion exchange leads to a structural change, which lowers the plastic limit and makes the soil packable.

The modification has been carried out by Skanska and the measurements have been carried out by geotechnical consultants. The lime used during the modification has been quicklime and the amount of lime was 0.5 % and 1.0 %. The test methods used during the work have been plate load tests (static and dynamic), isotope meter and MCV test.

The most important parameter in lime modification is the moisture content. An optimum moisture content exists for clay till. Quicklime is suitable when the moisture content exceeds the optimum. The porosity increases and results in a low stiffness at low moisture contents. The compaction work becomes easier by adding water before the mixing of lime. The amount of lime affects the result. A lime content of 1.0 % results in a smaller spread of porosity compared to a lime content of 0.5 %. Lime modification is an effective method for improving clay till in earthworks. (Less)
Popular Abstract (Swedish): Detta är en artikel om kalkmodifiering av lermorän och är baserad på examensarbetet ”Lime modification of clay till – a case study” (Westesson, 2015). Med kalkmodifiering menas att jordens packningsbarhet förbättras genom inblandning av kalk. Metoden att använda sig av kalk för att förbättra de geotekniska egenskaperna av leror och lermoräner är en nygammal metod och har främst använts till vägprojekt.

När jordförbättrande åtgärder med kalk har genomförts har kalkhalten ofta varit hög för att få både en modifierande och stabiliserande effekt i jorden. För att förbättra packningsegenskaperna, men behålla jorden i ett bearbetningsbart tillstånd, krävs det att de stabiliserande effekterna uteblir. För att detta tillstånd skall nås krävs... (More); Detta är en artikel om kalkmodifiering av lermorän och är baserad på examensarbetet ”Lime modification of clay till – a case study” (Westesson, 2015). Med kalkmodifiering menas att jordens packningsbarhet förbättras genom inblandning av kalk. Metoden att använda sig av kalk för att förbättra de geotekniska egenskaperna av leror och lermoräner är en nygammal metod och har främst använts till vägprojekt.

När jordförbättrande åtgärder med kalk har genomförts har kalkhalten ofta varit hög för att få både en modifierande och stabiliserande effekt i jorden. För att förbättra packningsegenskaperna, men behålla jorden i ett bearbetningsbart tillstånd, krävs det att de stabiliserande effekterna uteblir. För att detta tillstånd skall nås krävs det att kalkhalten är låg. (Less)

Please use this url to cite or link to this publication: http://lup.lub.lu.se/student-papers/record/5467018

author

Westesson, Emil ^LU

supervisor

Ola Dahlblom ^LU
Petra Andersson

organization

course

VGTM01 20151

year

2015

type

H3 - Professional qualifications (4 Years - )

subject

Technology and Engineering

keywords

clay till, quicklime, lime modification

publication/series

TVGT

report number

TVGT-5052

ISSN

0349-4977

language

English

id

5467018

alternative location

http://www.geoteknik.lth.se/english/publications/masters-dissertations/

date added to LUP

2015-06-24 12:19:45

date last changed

2015-06-24 12:19:45

@misc{5467018,
  abstract     = {{This report deals with lime modification of clay till. Lime modification means that the compaction properties of the soil are improved by the addition of lime. The report consists of three main parts: 1) Description of the geotechnical properties of clay till and how lime modification affects the properties; 2) Description of the implementation of lime modification and the tests conducted at a construction site in the northeast part of Lund, Sweden; 3) Evaluation of the test results.

Clay tills are complex soils in earthworks. To be able to pack a clay till, it is required that the soil is in a solid consistency condition. Clay till is rarely found in a solid consistency condition. An ion exchange occurs through the addition of lime where calcium ions replace the existing ions surrounding the clay particles. The ion exchange leads to a structural change, which lowers the plastic limit and makes the soil packable.

The modification has been carried out by Skanska and the measurements have been carried out by geotechnical consultants. The lime used during the modification has been quicklime and the amount of lime was 0.5 % and 1.0 %. The test methods used during the work have been plate load tests (static and dynamic), isotope meter and MCV test.

The most important parameter in lime modification is the moisture content. An optimum moisture content exists for clay till. Quicklime is suitable when the moisture content exceeds the optimum. The porosity increases and results in a low stiffness at low moisture contents. The compaction work becomes easier by adding water before the mixing of lime. The amount of lime affects the result. A lime content of 1.0 % results in a smaller spread of porosity compared to a lime content of 0.5 %. Lime modification is an effective method for improving clay till in earthworks.}},
  author       = {{Westesson, Emil}},
  issn         = {{0349-4977}},
  language     = {{eng}},
  note         = {{Student Paper}},
  series       = {{TVGT}},
  title        = {{Lime modification of clay till - A case study}},
  year         = {{2015}},
}

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Lime modification of clay till - A case study