Add to ORKGIn February of 1968 a cooperative research project by the Iowa State Highway Commission (Project No. HR-136) and the University of Iowa, Iowa City, Iowa was initiated in order to determine experimentally the creep and shrinkage characteristics of lightweight-aggregate concrete used in the State of Iowa. This report is concerned with Phase 1 of the Project as described in the Prospectus for the project submitted in November of 1967: "The State Highway Commission is planning to conduct pilot studies in prestressed-lightweight structures fabricated with materials that are proposed for use in bridge structures in the near future. Thus, Phase will have as its immediate objective, investigating the materials to be used in the above mentioned pilo...
In addition to immediate elastic deformations, concrete undergoes time-dependent deformations that m...
Creep and shrinkage are such properties that will occur in concrete when they are under load and exp...
Structural lightweight concrete is a very versatile material and Haydite and Minergy lightweight agg...
This study was made to develop a criterion for predicting creep in prestressed lightweight-aggregate...
Camber, strain, creep, and shrinkage measurements were made over a period of two years on a three-sp...
The paper presents the experimental results of shrinkage, creep, and prestress loss in concrete with...
Theoretical time-dependent deformations and prestress losses in pretensioned, prestressed simply su...
General equations are presented for predicting loss of prestress and camber of both composite and no...
Prepared as part of an investigation conducted by the Engineering Experiment Station, University of ...
741355441Final report; Sept. 2008-May 2011.PDFTech ReportK-TRAN: KSU-08-2C1797ConcretePrestressed co...
Creep and shrinkage behaviour of an ultra lightweight cement composite (ULCC) up to 450 days was eva...
This Phase II research project on the shrinkage behavior of high-performance concrete (HPC) used in ...
1648354PDFTech ReportResearch Report Number 55-2Research Project Number 3-8-63-55Interagency Contrac...
The Division of Highways. State of Illinois.The Bureau of Public Roads. U.S. Department of Commerc
Presented in this report is an investigation of the use of "sand-lightweight" concrete in prestresse...
In addition to immediate elastic deformations, concrete undergoes time-dependent deformations that m...
Creep and shrinkage are such properties that will occur in concrete when they are under load and exp...
Structural lightweight concrete is a very versatile material and Haydite and Minergy lightweight agg...
This study was made to develop a criterion for predicting creep in prestressed lightweight-aggregate...
Camber, strain, creep, and shrinkage measurements were made over a period of two years on a three-sp...
The paper presents the experimental results of shrinkage, creep, and prestress loss in concrete with...
Theoretical time-dependent deformations and prestress losses in pretensioned, prestressed simply su...
General equations are presented for predicting loss of prestress and camber of both composite and no...
Prepared as part of an investigation conducted by the Engineering Experiment Station, University of ...
741355441Final report; Sept. 2008-May 2011.PDFTech ReportK-TRAN: KSU-08-2C1797ConcretePrestressed co...
Creep and shrinkage behaviour of an ultra lightweight cement composite (ULCC) up to 450 days was eva...
This Phase II research project on the shrinkage behavior of high-performance concrete (HPC) used in ...
1648354PDFTech ReportResearch Report Number 55-2Research Project Number 3-8-63-55Interagency Contrac...
The Division of Highways. State of Illinois.The Bureau of Public Roads. U.S. Department of Commerc
Presented in this report is an investigation of the use of "sand-lightweight" concrete in prestresse...
In addition to immediate elastic deformations, concrete undergoes time-dependent deformations that m...
Creep and shrinkage are such properties that will occur in concrete when they are under load and exp...
Structural lightweight concrete is a very versatile material and Haydite and Minergy lightweight agg...