Analysis Of Buried Flexible Pipes In Granular Backfill Subjected To Construction Traffic

Cameron, Donald Anthony

January 2005

This thesis explores the design of flexible pipes, buried in shallow trenches with dry sand backfill. The thesis reports the comprehensive analysis of twenty-two full-scale load tests conducted between 1989 and 1991 on pipe installations, mainly within a laboratory facility, at the University of South Australia. The pipes were highly flexible, spirally-wound, uPVC pipes, ranging in diameter from 300 to 450 mm. Guidelines were required by industry for safe cover heights for these pipes when subjected to construction traffic. The tests were designed by, and conducted under the supervision of, the author, prior to the author undertaking this thesis. As current design approaches for pipes could not anticipate the large loading settlements and hence, soil plasticity, experienced in these tests, finite element analyses were attempted. Extensive investigations of the materials in the installations were undertaken to permit finite element modelling of the buried pipe installations. In particular, a series of large strain triaxial tests were conducted on the sand backfill in the buried pipe installations, to provide an understanding of the sand behaviour in terms of critical state theory. Subsequently a constitutive model for the soil was developed. The soil model was validated before implementation in an element of finite element program, AFENA (Carter and Balaam, 1995). Single element modelling of the triaxial tests proved invaluable in obtaining material constants for the soil model. The new element was applied successfully to the analysis of a side-constrained, plate loading test on the sand. The simulation of the buried pipe tests was shown to require three-dimensional finite element analysis to approach the observed pipe-soil behaviour. Non-compliant side boundary conditions were ultimately adjudged chiefly responsible for the difficulty in matching the experimental data. The value of numerical analyses performed in tandem with physical testing was apparent, albeit in hindsight. The research has identified the prediction of vertical soil pressure above the pipe due to external loading as being the major difficulty for designers. Based on the finite element analyses of the field tests, a preliminary simple expression was developed for estimation of these pressures, which could be used with currently available design approaches to reasonably predict pipe deflections.

Anisotropic Superelasticity of Textured Ti-Ni Sheet

Thamburaja, P., Gao, S., Yi, S., Anand, Lallit

01 1900

A recently developed crystal-mechanics-based constitutive model for polycrystalline shape-memory alloys (Thamburaja and Anand [1]) is shown to quantitatively predict the in-plane anisotropy of superelastic sheet Ti-Ni to reasonable accord. / Singapore-MIT Alliance (SMA)

phase transformations

constitutive equations

finite-elements

mechanical testing.

A Constitutive Model for the Mechanical Behavior of Single Crystal Silicon at Elevated Temperature

Moon, H.-S., Anand, Lallit, Spearing, S. Mark

01 1900

Silicon in single crystal form has been the material of choice for the first demonstration of the MIT microengine project. However, because it has a relatively low melting temperature, silicon is not an ideal material for the intended operational environment of high temperature and stress. In addition, preliminary work indicates that single crystal silicon has a tendency to undergo localized deformation by slip band formation. Thus it is critical to obtain a better understanding of the mechanical behavior of this material at elevated temperatures in order to properly exploit its capabilities as a structural material. Creep tests in simple compression with n-type single crystal silicon, with low initial dislocation density, were conducted over a temperature range of 900 K to 1200 K and a stress range of 10 MPa to 120 MPa. The compression specimens were machined such that the multi-slip <100> or <111> orientations were coincident with the compression axis. The creep tests reveal that response can be delineated into two broad regimes: (a) in the first regime rapid dislocation multiplication is responsible for accelerating creep rates, and (b) in the second regime an increasing resistance to dislocation motion is responsible for the decelerating creep rates, as is typically observed for creep in metals. An isotropic elasto-viscoplastic constitutive model that accounts for these two mechanisms has been developed in support of the design of the high temperature turbine structure of the MIT microengine. / Singapore-MIT Alliance (SMA)

single crystal silicon

constitutive model

finite element analysis

microengine

Cemented Carbide Sintering : Constitutive Relations and Microstructural Evolution

Petersson, Anders

January 2004

Cemented carbides based on tungsten carbide and cobalt arecommonly produced by a powder metallurgy route including liquidphase sintering. The pressed compact densifies to almost halfits volume during sintering due to pore elimination. Thesintering behaviour changes with material composition, such ascarbide grain size, binder fraction, carbon content andaddition of cubic carbides. This thesis is devoted to the study of constitutivebehaviour, in particular densification, and the microstructuralevolution during cemented carbide sintering. Dimensionalchanges are monitored using dilatometry with and withoutapplied external load. The microstructural evolution isinvestigated with light optical microscopy and scanningelectron microscopy. Thermodynamic calculations are used asreference. Constitutive relations are derived for uniaxial viscosity,viscous equivalent of Poisson’s ratio and sintering stressbased on relative density and temperature. The relations areextended to a model describing sintering shrinkage withexplicit dependencies on carbide grain size and binder content.The model is divided in three stages of which two pertain tothe solid state and the third to liquid phase sintering. Solidstate shrinkage is suppressed in a material with coarsecarbides and in the stage of liquid phase sintering grain sizestrongly influences the uniaxial viscosity. The binder contentaffects primarily the later densification. The effects of carbon content and grain size distribution onshrinkage have been studied. High carbon content enhancesshrinkage rate, but the effect of grain size distribution israther small. The mean carbide grain size is insufficient todescribe densification for very broad distributions only. Shrinkage occurs through rearrangement andsolution-reprecipitation. Rearrangement is studied through theevolution of the pore size distribution and simulatedgenerically using a discrete element method. Keywords:Cemented carbides, Sintering, Constitutiverelations, Microstructure, Densification, Modelling

Cemented carbides

Sintering

Constitutive relations

Microstructure

Densification

Modelling

Methods for experimental estimation of anelastic material properties

Dalenbring, Mats

January 2001

No description available.

constitutive material damping modelling

isotropy

transverse isotropy

homogeneous materials

De styrdas röster : Rektorers berättelser om Skolinspektionens regelbundna tillsyn

Novak, Judit

January 2013

The political motives for reinstating national school inspection in 2003 and reinforcing it through the establishment of the Swedish School Inspectoratein 2008 stressed the necessity of sufficient state involvement in order to retain and ensure nationwide educational quality and equivalence. Since then, additional political efforts have been made to intensify and exercise national state control over education. On July 1, 2011, the Education Act gave the agency enhanced legal support. The aim of this study was to describe and analyze a sample of school leaders' stories of the regular inspection that have been conducted in their schools since the legal changes came into force. School leaders of 20 compulsory schools were interviewed. Theinterviews were analyzed and the results were presented in eight themes. In the following analysis, change mechanisms that had been initiated in the schools during the inspection process were examined through a theoretical framework of evaluation influence. The results from the second analys is also illustrated conceivable forms of pathways that link inspection processes to inspection outcomes. Finally, the empirical findings were discussed in terms of constitutive effects and education governance. The study was a part of the research project "Governing by inspection. School inspection and education governance in Sweden, England and Scotland".

Constitutive effects

education governance

evaluation influence

school inspection

Sweden

異方性と損傷を考慮した皮膚骨の非弾性構成式の定式化

岩本, 正実, IWAMOTO, Masami, 田中, 英一, TANAKA, Eiichi, 伝田, 耕平, DENDA, Kohei, 山本, 創太, YAMAMOTO, Sota

05 1900

No description available.

Biomechanics

Constitutive Equation

Anisotropy

Cortical Bone

Damage Mechanics

Material Modelling for Structural Analysis of Polyethylene

Liu, Hongtao

11 January 2007

The purpose of this work was to develop a practical method for constitutive modelling of polyethylene, based on a phenomenological approach, which can be applied for structural analysis. Polyethylene (PE) is increasingly used as a structural material, for example in pipes installed by trenchless methods where relatively low stiffness of PE reduces the required installation forces, chemical inertness makes it applicable for corrosive environments, and adequate strength allows to use it for sewer, gas and water lines. Polyethylene exhibits time-dependent constitutive behaviour, which is also dependent on the applied stress level resulting in nonlinear stress-strain relationships. Nonlinear viscoelastic theory has been well established and a variety of modelling approaches have been derived from it. In order to be able to realistically utilize the nonlinear modelling approaches in design, a simple method is needed for finding the constitutive formulation for a specific polyethylene type. In this study, time-dependent constitutive relationships for polymers are investigated for polyethylene materials. Creep tests on seven polyethylene materials were conducted and the experimental results indicate strong nonlinear viscoelasticity in the material responses. Creep tests on seven materials were conducted for 24 hours for modelling purposes. However, creep tests up to fourteen days were performed on one material to study long-term creep behaviour. Multiple-stepped creep tests were also investigated. Constant rate (load and strain rate) tensile tests were conducted on two of the seven polyethylene materials. A practical approach to nonlinear viscoelastic modelling utilizing both multi-Kelvin element theory and power law functions to model creep compliance is presented. Creep tests are used to determine material parameters and models are generated for four different polyethylene materials. The corroboration of the models is achieved by comparisons with the results of different tensile creep tests, with one dimensional step loading test results and with test results from load and displacement rate loading.

Constitutive Modelling

Polyethylene

Structural Analysis

Polymer

Viscoelastic

Viscoplastic

Civil Engineering

Material Modelling for Structural Analysis of Polyethylene

Liu, Hongtao

11 January 2007

The purpose of this work was to develop a practical method for constitutive modelling of polyethylene, based on a phenomenological approach, which can be applied for structural analysis. Polyethylene (PE) is increasingly used as a structural material, for example in pipes installed by trenchless methods where relatively low stiffness of PE reduces the required installation forces, chemical inertness makes it applicable for corrosive environments, and adequate strength allows to use it for sewer, gas and water lines. Polyethylene exhibits time-dependent constitutive behaviour, which is also dependent on the applied stress level resulting in nonlinear stress-strain relationships. Nonlinear viscoelastic theory has been well established and a variety of modelling approaches have been derived from it. In order to be able to realistically utilize the nonlinear modelling approaches in design, a simple method is needed for finding the constitutive formulation for a specific polyethylene type. In this study, time-dependent constitutive relationships for polymers are investigated for polyethylene materials. Creep tests on seven polyethylene materials were conducted and the experimental results indicate strong nonlinear viscoelasticity in the material responses. Creep tests on seven materials were conducted for 24 hours for modelling purposes. However, creep tests up to fourteen days were performed on one material to study long-term creep behaviour. Multiple-stepped creep tests were also investigated. Constant rate (load and strain rate) tensile tests were conducted on two of the seven polyethylene materials. A practical approach to nonlinear viscoelastic modelling utilizing both multi-Kelvin element theory and power law functions to model creep compliance is presented. Creep tests are used to determine material parameters and models are generated for four different polyethylene materials. The corroboration of the models is achieved by comparisons with the results of different tensile creep tests, with one dimensional step loading test results and with test results from load and displacement rate loading.

Constitutive Modelling

Polyethylene

Structural Analysis

Polymer

Viscoelastic

Viscoplastic

Civil Engineering

"That the Truth of Things May Be More Fully Known:" Understanding the Role of Rhetoric in Shaping, Resolving, and Remembering the Salem Witchcraft Crisis

Lemley, Lauren

2010 May 1900

This project investigates how rhetorical texts influenced the witch trials that were held in Salem in 1691-1692, how rhetoric shaped the response to this event, and how rhetorical artifacts in the twentieth and twenty first centuries have shaped American public memory of the Salem witchcraft crisis. My analysis draws from three different chronological and rhetorical viewpoints. In Chapter II, I build upon work done by scholars such as McGee, White, and Charland in the area of constitutive rhetoric to address the question of how the witchcraft crisis was initiated and fueled rhetorically. Then, as my examination shifts to the rhetorical artifacts constructed immediately after the trials in Chapter III, I rely on the tradition of apologia, rooted in the ancient Greek understanding of stasis theory to understand how rhetorical elements were utilized by influential rhetors to craft a variety of different explanations for the crisis. And finally in Chapter IV, I draw from individuals such as Halbwachs, Kammen, Zelizer, and Bodnar, working in the cross-disciplinary field of public memory, to respond to the questions of how we remember the trials today and what impact these memories have on our understanding of the themes of witchcraft and witch hunting in contemporary American society. Therefore, this project uses the lens of rhetorical analysis to provide a method for examining and understanding how individuals, both in the seventeenth century and today, have engaged in the act of updating their reflections about this facet of American history.

Rhetoric

Constitutive Rhetoric

Apologia

Public Memory

Salem Witchcraft Trials