THE DYNAMIC RESPONSE OF CONCRETE FILLED FRP TUBES SUBJECTED TO BLAST AND IMPACT LOADING

Qasrawi, YAZAN

28 January 2014

Blasts and impacts are two of the severest loads a structure can experience. Blast experimenters, however, have observed that the load imparted to a circular member was lower than the predicted design load. Additionally, numerous investigations have established the superiority of concrete filled FRP tubes (CFFTs) over conventional reinforced concrete members. These observations indicated CFFTs’ potential to resist dynamic blast and impact loads. The experimental and numerical investigations presented in this thesis aimed to demonstrate the suitability of CFFTs to resist blast and impact loads, to determine the parameters that influence their behaviour under such loads, and to develop a design procedure for resisting these loads. The initial numerical investigation determined the reflected blast loading parameters experienced by a circular cross section. The experimental phase consisted of testing twelve full scale specimens, two monotonically, four under impact loading, and six under close-in blast loading. The monotonically tested specimens acted as controls for the entire program. The results of the impact testing investigation were used to develop and validate a non-linear single degree of freedom (SDOF) model. This impact phase also led to the development of relatively simple procedures for designing CFFTs under impact loading using either SDOF modeling or the conservation of energy. Analysis of the blast testing results led to the development of numerical procedures for obtaining an equivalent close-in blast loading for SDOF analysis of CFFTs and Pressure-Impulse diagrams. The use of SDOF modeling and conservation of energy in blast design were also discussed. Finally, a non-linear explicit dynamic model of CFFTs was developed using the commercial software ANSYS Autodyn. This model was verified using the experimental impact and blast test results and used to conduct a parametric study. The results of these investigations indicated that CFFTs were particularly suitable for blast and impact resistant applications, as their geometry diffracted blast waves and the addition of the tube increased their energy absorbing capacity significantly giving them additional strength and ductility. The tube also confined and protected the concrete core and simplified construction. / Thesis (Ph.D, Civil Engineering) -- Queen's University, 2014-01-27 15:57:52.768

Concrete

FRP

Impact

CFFT

Blast

High velocity impact of cylindrical shells

Oline, Larry Ward

08 1900

No description available.

Cylinders

Shells (Engineering) Testing

Impact

Impact modeling of viscoelastic systems

Rao, Manoharprasad K.

12 1900

No description available.

Impact Measurement

Protective clothing

Viscoelasticity

Assessing the utility of environmental impact assessments as a strategy for global sustainable development / Utility of environmental impact assessments in sustainable development

Akol, Doris.

January 2001

This thesis discusses the role of Environmental Impact Assessments in the implementation of the concept of sustainable development within the realm of North-South tensions regarding responsibilities for environmental conservation. Environmental Impact Assessments provide opportunities for realizing sustainable development not only because they operationalize the integration principle of sustainable development by facilitating the equilibrium between development and environmental conservation objectives, essential for ecological sustainability, but also because, in allowing for public participation in the assessment process, they promote the realization of the civil right of participation in public affairs, an essential component of good governance required for sustainable development to thrive. However, the thesis scrutinizes the reality in developing countries of adopting Environmental Impact Assessments. They are not yet accorded a lot of value because it is foreign technology imported from the North, which must be adopted often as a conditionality to that much needed development assistance, which often does not take into account cultural realities in developing countries and which inadvertently plays a role in the growth of Third World debt, corruption and erosion of sovereignty in the Third World. It argues, therefore that the utility of Environmental Impact Assessment in the realization of global sustainable development is limited by the existence of these realities unless modifications are made in the implementation of Environmental Impact Assessments in developing countries.

Environmental impact analysis.

Sustainable development.

Disability in Health Impact Assessment

Memon, Neelusha

January 2012

People with disabilities are a ‘disadvantaged’ group, not only due to their impairment, but also due to the formal and informal institutional inertia that they contend with in Western Societies. This disadvantage has been recognised and acknowledged in the social model of disability. This model understands that disability is a social construction placed on people with impairments. The Health Impact Assessment (HIA) is a tool which identifies inequities in policy, and is potentially a useful tool to aid the response of policy makers to the needs of people with disabilities. Arguably, the New Zealand HIA guidelines reflect the underlying principles of the social model of disability. Using a mixed methods research strategy, this thesis sets out to understand in a global context using a top-down quantitative analysis, to what extent the New Zealand HIA guidelines which acknowledge the social model of disability are translated into practice. It then subsequently investigates from a bottom-up qualitative perspective, what factors influence this relationship. It is argued in this thesis that there are barriers to translating the rhetoric about people with disabilities found in the HIA guidelines into practice. Three sets of inter-related barriers identified include attitudinal barriers to people with disabilities, generic HIA barriers, and barriers related to the feminist interpretation of the construction of disability. In this thesis, the research findings conclude that it is difficult to operationalise the disability awareness present in the HIA guidelines due to barriers which are related to the ‘othering’ of people with disabilities. This is discussed in relation to feminist analyses of the construction of people with disabilities, and it needs to be addressed by wider societal reforms. The thesis makes the recommendation that a national awareness-raising campaign about people with disabilities be undertaken in New Zealand in an attempt to rectify this situation.

Disability

Health Impact Assessment

HIA

Computer simulation of ion implantation in crystalline targets

Kalsi, R. M.

January 1988

No description available.

530.41

Crystal/ion impact modelling

Comparative study of ammonia-based clean rail transportation systems for Greater Toronto area

Hogerwaard, Janette

01 April 2014

Ammonia as a transportation fuel offers a carbon-free, hydrogen rich energy source that emits no greenhouse gases in combustion, and has no global warming potential. Furthermore, it may be produced from any renewable energy resource, and is a strong option for long term sustainability. Ammonia also provides a pathway towards a hydrogen economy, which is the long term goal for environmental sustainability. This thesis investigates the feasibility of integrating ammonia as a combustion fuel, hydrogen carrier, heat recovery and working fluid, and for indirect engine cooling, within locomotive propulsion systems for nine novel ammonia-based configurations. Thermodynamic, environmental, and economic analyses are conducted for a typical modern diesel-fueled locomotive and the proposed ammonia configurations. The study comparatively assesses potential long term solutions for sustainable, clean rail transportation. From the modeled results, the proposed systems operating with 50% of required fuel energy replaced by ammonia have a reduction in diesel fuel consumption from 0.211 kg/s to less than 0.10 kg/s. This is associated with a reduction in GHG emissions of more than 8 tonnes CO2eq for a typical daily locomotive duty cycle for commuter operation. Criteria air contaminants are reduced to below upcoming Tier 3 emission levels for NOx and HC emissions, and meet current levels for PM emissions. In total, ten locomotive propulsion systems are investigated including the diesel-fueled locomotive baseline, and the performance gains are considered against economic factors for fuel and equipment costs in a comparative assessment.

Ammonia

Locomotive

Environmental impact

Sustainability

The impact of demersal fishing on marine soft-sediment meiofauna

Harries, Daniel Bernard

January 1995

No description available.

577

Attitudes of residents towards tourism in Madeira

Martins, J. Felix

January 2000

No description available.

320

Social impact; Tourism policy

High strain-rate behaviour of polymers using blast-wave and impact loading methods

Ahmad, Sahrim Haji

January 1988

No description available.

668.4

Plastic impact load analysis