Synthesis and Structural Analysis of Metastable Transition Metal Oxides with Unique Magnetic Properties / 特異な磁気的性質を持つ準安定遷移金属酸化物の合成と構造解析

Kawamoto, Takahiro

23 March 2016

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第19727号 / 工博第4182号 / 新制||工||1645(附属図書館) / 32763 / 京都大学大学院工学研究科材料化学専攻 / (主査)教授 田中 勝久, 教授 平尾 一之, 教授 三浦 清貴 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DGAM

Metastable transition metal oxides

Magnetic property

Synthesis

Structural analysis

500

A parametric study on IBR sheeting supported by purlins

Mlasi, Marope Stella

January 2016

A dissertation submitted to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, in fulfilment of the requirements for the degree of Master of Science in Engineering Johannesburg, 2016 / This dissertation presents a parametric study conducted on the dimensions of an inverted box rib (IBR) sheet. The objectives of the study were (i) to obtain the optimum dimensions that would be used to simulate new IBR profiles made from standard sheet input coils whilst meeting the stiffness criterion; and (ii) to perform a cost analysis to determine the most economic simulated profile. The dimensions which were varied in the parametric study were rib-height, rib-width, sheet thickness and the number of pans per 686 mm cover width of a single IBR 686 sheet. Numerical experiments were conducted using the Finite Elements Method and Abaqus/CAE software. The results were compared to the predictions obtained from Euler-Bernoulli beam theory. The outputs from the experiments were the sheet deflection from which stiffness was determined, and eigenvalues from which the profiles’ stability and buckling modes were calculated. This study found that sheet stiffness increased as the rib-height, sheet thickness and number of pans per 686 mm cover width increased. In contrast, the rib-width had little effect on the sheet stiffness. Hence, it was concluded that, for any IBR sheet profile, the rib-width should be kept at approximately 23 mm to avoid using more material in the sheet. The optimum dimensions found were rib-height of 34 mm, rib-width of 23 mm and four pans per 686 mm cover width. The commercially available IBR 686 sheet is made up of four pans and has a rib-height and a rib-width of 37 and 33 mm, respectively. It is manufactured from an input sheet coil of 925 mm. Reducing the rib-height from 37 mm to 34 mm and the rib-width from 33 mm to 23 mm resulted in increasing the cover width by 8 %. The optimum dimensions were further used to simulate profiles made from the 925, 940, 1000, 1175, 1219, 1225, 1250 and 1320 mm standard sheet coils in order to find the most economic IBR profiles that met the stiffness criterion. The 1250 mm coil yielded the most economical IBR profile, which has six 97 mm wide pans, and a 996 mm cover width. This profile resulted in a 10 % cost saving compared with the next closest profile. / MT2017

Structural analysis (Engineering)

Roofing

Steel, Structural

Sheet-steel

Bending of Sandwhich Beams and Columns

Betancourt-Angel , Fernando

January 1972

<p> A detailed synopsis of the state-of-the-art in the field of the Structural Analysis of sandwich beams is presented. Deficiencies, inaccuracies, lack of clarity, and the imposition of unnecessary assumptions of behaviour found in the related bibliography are presented in a comparative fashion. A method of analysis with obvious advantages over the others studied in this thesis is derived, and its use is suggested. The presentation of all methods of analysis is made under the most general cases of dimensions and loadings to make them as applicable as possible to the common cases encountered in sandwich components for the building industry.</p> <p> Experimental work carried out on several materials with some potential to be used in sandwich members for buildings and the tests carried out on some sandwich beams and beam-columns are reported.</p> / Thesis / Master of Engineering (MEngr)

structural analysis

sandwich beams

methods of analysis

dimensions and loadings

Accuracy of a Simplified Analysis Model for Modern Skyscrapers

Lee, Jacob Scott

11 June 2013

A new simplified skyscraper analysis model (SSAM) was developed and implemented in a spreadsheet to be used for preliminary skyscraper design and teaching purposes. The SSAM predicts linear and nonlinear response to gravity, wind, and seismic loading of "modern" skyscrapers which involve a core, megacolumns, outrigger trusses, belt trusses, and diagonals. The SSAM may be classified as a discrete method that constructs a reduced system stiffness matrix involving selected degrees of freedom (DOF's). The steps in the SSAM consist of: 1) determination of megacolumn areas, 2) construction of stiffness matrix, 3) calculation of lateral forces and displacements, and 4) calculation of stresses. Seven configurations of a generic skyscraper were used to compare the accuracy of the SSAM against a space frame finite element model. The SSAM was able to predict the existence of points of contraflexure in the deflected shape which are known to exist in modern skyscrapers. The accuracy of the SSAM was found to be very good for displacements (translations and rotations), and reasonably good for stress in configurations that exclude diagonals. The speed of execution, data preparation, data extraction, and optimization were found to be much faster with the SSAM than with general space frame finite element programs.

skyscraper

structural analysis

optimization

preliminary design

Civil and Environmental Engineering

Structural and Vibrational Analysis of Inactive Nuclear Fuel Rods during Earth-to-Orbit Launch

Joyce, Michael R.

January 2021

No description available.

Aerospace Engineering

nuclear thermal propulsion

structural analysis

vibrational analysis

X-ray structural analysis of the thermotropic copolyesters Xyda(registered trademark) and Vectra(registered trademark)

Cheng, Hsiao-Mo

January 1990

No description available.

Plastics Technology

Thinking Outside The Grid: Structural Design Through Multi-parametric Growth and Self-Adaptive Analysis

Kahn, Sergey

19 September 2017

No description available.

Architecture

parametric

structural analysis

skyscraper

chicago

algorithmic

morphology

Structural analysis of water and alcohol solutions

Cross, Kelly J.

23 September 2011

No description available.

Materials Science

structural analysis

water-alcohol solutions

light scattering

Structural Analysis Through Ordered Harmony Transformations in the Early Works of Arnold Schoenberg

Henson, Blake Ross

26 August 2010

No description available.

Music

Arnold Schoenberg

Ordered Harmony Transformations

Schenker

Structural Analysis

Atonal

Finite element investigations of thermo-elastic and thermo-plastic consolidation /

Aboustit, Baher Labeeb

January 1983

No description available.

Education

Thermoelasticity

Thermoplastics

Finite element method

Structural analysis