Protective and Blast Resistive Design of Posttensioned Box Girders Using Computational Geometry

Aleyaasin, Majid

doi:10.1155/2018/4932987

Cited by 2 publications

(1 citation statement)

References 13 publications

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“…Postgraduate assignments, are longer and the assessor should have extensive knowledge about the topic, not necessarily related to the educational skills, but academic knowledge. For example the author herein has research experience on design of structures in fire and explosion [1,2]. This paper is his first work on implementing computational knowledge in engineering education.…”

Section: Introductionmentioning

confidence: 99%

Digital assessment of individual engineering assignments in mass courses

Aleyaasin

2018

Comp Applic In Engineering

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In this article a digitally assisted tool, that uses a master computer program for a particular assignment, and enables quick and semi‐automatic assessment is introduced. Since the data allocated to each student is different from the other classmates, acquiring the correct results depends on the sole effort of the student. The master program will produces the correct results in a tabular format. Then student is asked to provide his/her results with same format, and submit the work to the course web site. The marker assesses the work by running the master program and observing the correct results. In last step the student's result with the same format will be compared with the correct results and an appropriate feedback will be provided for that student. In the first experiment 300 undergraduate students with different mathematical knowledge, have been asked to find the acceptable ranges of a gear ratios for a particular electromechanical device and submit their results. In the 2nd experiment 40 postgraduate students have been, with different engineering and science degrees, asked to find the optimal passive fire protection system for the structural elements. It is concluded that for strengthening the innovation in students, apart from group projects, the individual assignments are also necessary. The digital method described in this paper, can reduce the assessment time substantially, also provides appropriate feedback for each student. Future applications, improvements are discussed, commented upon.

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Section: Introductionmentioning

confidence: 99%

Digital assessment of individual engineering assignments in mass courses

Aleyaasin

2018

Comp Applic In Engineering

Self Cite

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A Predictive Model for Damage Assessment and Deformation in Blast Walls Resulted by Hydrocarbon Explosions

Aleyaasin

2019

Advances in Civil Engineering

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In this paper, a new method is developed to find the ductility ratio in blast walls, resulted by hydrocarbon explosions. In this method, only the explosion energy and distance from the centre of explosion are required to find the damage by using simple predictive models in terms of empirical-type formulas. The explosion model herein is a TNO multiphysic method. This provides the maximum overpressure and pulse duration in terms of the explosion length and distance from explosion centre. Thereafter, the obtained results are combined with the SDOF model of the blast wall to determine the ductility ratio and the damage. By using advanced optimisation techniques, two types of predictive models are found. In the first model, the formula is found in terms of 2 parameters of explosion length and distance from explosion centre. However, the 2nd model has 3 parameters of explosion length, distance, and also the natural period of the blast wall. These predictive models are then used to find explosion damages and ductility ratio. The results are compared with FEM analysis and pressure-impulse (P-I) method. It is shown that both types of models fit well with the outputs of the simulation. Moreover, results of both models are close to FEM analysis. The comparison tables provided in this paper show that, in the asymptotic region of P-I diagrams, results are not accurate. Therefore, this new method is superior to classical pressure-impulse (P-I) diagrams in the literature. Advantage of the new method is the easy damage assessment by using simple empirical-type formulas. Therefore, the researchers can use the method in this paper, for damage assessment in other types of blast resistive structures.

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Protective and Blast Resistive Design of Posttensioned Box Girders Using Computational Geometry

Cited by 2 publications

References 13 publications

Digital assessment of individual engineering assignments in mass courses

Digital assessment of individual engineering assignments in mass courses

A Predictive Model for Damage Assessment and Deformation in Blast Walls Resulted by Hydrocarbon Explosions

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