Construction of p-energy and associated energy measures on the Sierpiński carpet / Sierpiński carpet上のp-エネルギーと対応するエネルギー測度の構成

Shimizu, Ryosuke

26 September 2022

京都大学 / 新制・課程博士 / 博士(情報学) / 甲第24262号 / 情博第806号 / 新制||情||136(附属図書館) / 京都大学大学院情報学研究科先端数理科学専攻 / (主査)教授 木上 淳, 教授 磯 祐介, 准教授 白石 大典 / 学位規則第4条第1項該当 / Doctor of Informatics / Kyoto University / DFAM

Sierpiński carpet

Nonlinear potential theory

Sobolev spaces on fractals

energy measures

007

Marketing with specific reference to pricing and promotion in the carpet manufacturing industry. An assessment of attitudes towards the marketing concept by senior management and a report on marketing practices with specific reference to pricing and promotion.

Elsayed, Abdelwaheb M.

January 1974

No description available.

Marketing

Pricing

Promotion

Carpet manufacturing industry

Management

Sales promotion

Public relations

Mechanical behaviour of fibre reinforced unsaturated clay. This investigation is to determine the improvement in the mechanical behaviour of unsaturated clayey soil after inclusion of carpet fibre waste

Saad, Suleiman S.E.

January 2016

To acquire deeper understanding and insights into the mechanical behaviour of fibre reinforced saturated/unsaturated cohesive soils, a programme of work was designed and included. 1) Conducting standard Consolidation Undrained (CU) tests to investigate mechanical behaviour of non-reinforced fully saturated soil. 2) Studying the strength of fibre reinforced clay though unconfined compression tests. 3) Testing the behaviour of unsaturated reinforced soil in unsaturated triaxial tests. 4) Determining the soil-water characteristic curves (SWCC) on soil sample with different fibre content. The investigation was undertaken on a clay of low plasticity index. Samples tested with addition of 1, 3 and 5 % fibre content and different values of matric suction of 50, 100 and 200 kPa, one of the challenges that were encountered in this research are how to prepare homogenous samples. A method for prepared compacted fibre reinforced soils with improved fibre distribution and density profile has been proposed and examined. The test results indicated that waste carpet fibres increase the shear strength of unsaturated clay soils. It was also found that relative increase in strength is also a function of applied suction. An increase in waste carpet fibres was found to reduce the hysteresis of soil. A data analysis conducted on the results of unsaturated tests as a function of fibre content and matric suction. The behaviour modelled was shown to be a perfect fit with the experimental data.

Fostering Connectivity: Mediating the Urban and Human Scale through Architecture

Osborn, Caitlin

January 2010

No description available.

Architecture

Human Scale

Contact Making

Urban Carpet

Urban Scale

Edge Conditions

Analysis of strip footings on fibre reinforced slopes with the aid of Particle Image Velocimetry (PIV)

Mirzababaei, M., Mohamed, Mostafa H.A., Miraftab, M.

26 October 2016

Yes / This paper provides results of a comprehensive investigation into the use of waste carpet fibres for reinforcement of clay soil slopes. The interaction between laboratory scale model slopes made of fibre reinforced clay soil and surface strip footing load was examined. Results for the influence of two variables namely fibre content and distance between the footing edge and the crest of the slope are presented and discussed. Particle Image Velocimetry (PIV) technique was employed to study the deformation of the slope under the surface loading. The front side of the tank was made of a thick Perspex glass to facilitate taking accurate images during the loading stage. To study the stress induced in the slope under footing pressure, excess pore-water pressure and total stress increase were measured at predetermined locations within the slope. The results showed that fibre reinforcement increased the bearing resistance of the model slope significantly. For instance, inclusion of 5% waste carpet fibre increased the bearing pressure by 145% at 10% settlement ratio. / The post-print of this article will be released for public view when the version of record has been published by ASCE.

Impact of Carpet Waste Fibre Addition on Swelling Properties of Compacted Clays

Mirzababaei, M., Miraftab, M., Mohamed, Mostafa H.A., McMahon, P.

January 2012

No / Municipalities and recycling and environmental authorities are concerned about the growing amount of carpet waste produced by household, commercial and industrial sectors. It is reported that 500,000 tonnes of carpet waste fibre are plunged into landfills annually in the UK. In the United States of America, around 10 million tonnes of textile waste was generated in 2003. In geotechnical engineering, expansive clay soils are categorised as problematic soils due to their swelling behaviour upon increase in the moisture content. The problematic nature of such soils is intensified with the increase in the plasticity index. This paper presents results of a comprehensive investigation into utilisation of carpet waste fibres in order to improve the swelling characteristics of compacted cohesive soils. Therefore, two different clay soils with markedly different plasticity indices (i.e. 17.0 and 31.5 %) were treated with two different types of carpet waste fibre. Waste fibres were added to prepare specimens with fibre content of 1, 3 and 5 % by dry weight of soil. Soil specimens with different dry unit weights and moisture contents were prepared so as to the swelling behaviour of fibre reinforced compacted clays is completely attained under various scenarios. The results indicated that the behaviour of the fibre reinforced soils seems highly dependent on the initial compaction state and secondary on the moisture content. It was found that the swelling pressure drops rapidly as the percentage of fibre increases in samples prepared at the maximum dry unit weight and optimum moisture content. Reducing the dry unit weight, while maintaining constant moisture content or increasing the moisture content at constant dry unit weight was found to reduce the swelling pressure.

Unconfined Compression Strength of Reinforced Clays with Carpet Waste Fibers

Mirzababaei, M., Miraftab, M., Mohamed, Mostafa H.A., McMahon, P.

January 2013

no / This paper presents results of a comprehensive investigation on the utilization of carpet waste fibers in reinforcement of clay soils. Effects of adding proportionate quantities of two different types of shredded carpet waste fibers to clay soils (i.e., 1, 3, and 5% by dry weight of the soil) were investigated and evaluated. The investigation was conducted on specimens prepared at their maximum dry unit weight and optimum moisture content, as well on specimens prepared at variable conditions of dry unit weight and moisture content. A comparison was also made on specimens prepared at the same fiber content by changing dry unit weight while moisture content was kept unchanged or by changing both dry unit weight and moisture content. The investigation revealed that inclusion of carpet waste fibers into clay soils prepared at the same dry unit weight can significantly enhance the unconfined compression strength (UCS), reduce postpeak strength loss, and change the failure behavior from brittle to ductile. The results also showed that the relative benefit of fibers to increase the UCS of the clay soils is highly dependent on initial dry unit weight and moisture content of the soil. Failure patterns were gradually transformed from the apparent classical failure for unreinforced soil specimens to barrel-shaped failures for reinforced specimens at 5% fiber content.

Clay

; Waste

; Carpet

; Fiber

; Unconfined compression strength

; Polypropylene fiber

; Cemented sand

; Soil

; Lime

Unraveling the Soviet Carpet: Handicraft Carpets as Commodity, Craft, and Heritage, 1890-1982

Ryuk, Sohee

January 2024

This dissertation is a social and material cultural history of the handicraft carpet industry in the late Russian Empire and the Soviet Union. It examines how the carpet handicraft associated with the Islamic East entered the vocabulary of the Soviet state, despite its emphasis on heavy industrial development. Woven mostly by women and girls in village and pastoral nomadic contexts, the so-called Oriental carpets of the Russian Empire became sought-after items within the global carpet trade in the late nineteenth and twentieth centuries. The research explores how the Soviet state replaced and replicated business networks that had sprung up during the carpet boom starting in the 1870s, consolidating them into state structures of trade, industry, and national heritage. Despite the rhetoric of socialist modernization of the Soviet Union, carpets continued to be knotted and woven by hand through the end of the twentieth century. Nonetheless, the women’s bodies, skills, and the products of their labor were categorized and understood in different ways. The dissertation uses handicraft carpets to reframe our understanding of how the Soviet Union incorporated peripheral regions such as the Caucasus into the cultural, social, and economic landscape of the Soviet Union. Moving beyond frameworks of the center and periphery that has characterized previous scholarship of the region, the dissertation foregrounds the Caucasus as a nexus of networks that connected the Soviet Union to Europe, Americas, and the Near East. It provides an alternative reading of Soviet national cultures as rooted not so much in top-down or bottom-up negotiations within the cultural or political spheres but in the cross-fertilizations through local, regional, and international networks. The work looks past national narratives to emphasize the role that merchants, weavers, and artists played in shaping the trajectory of handicraft carpet weaving in the Soviet Caucasus. Drawing on a close study of objects, visual material, oral history, and institutional records, the dissertation shows how the construction of Soviet national cultural heritage in the Caucasus was born out attempts reshape the relationship between the practitioner and the craft.

History

Carpets

Handicraft industries--Economic aspects

Hand weaving

Rug and carpet industry

Practical approach to predict the shear strength of fibre-reinforced clay

Mirzababaei, M., Mohamed, Mostafa H.A., Arulrajah, A., Horpibulsuk, S., Anggraini, V.

22 September 2017

Yes / Carpet waste fibres have a higher volume to weight ratios and once discarded into landfills, these fibres occupy a larger volume than other materials of similar weight. This research evaluates the efficiency of two types of carpet waste fibre as sustainable soil reinforcing materials to improve the shear strength of clay. A series of consolidated undrained (CU) triaxial compression tests were carried out to study the shear strength of reinforced clays with 1%, to 5% carpet waste fibres. The results indicated that carpet waste fibres improve the effective shear stress ratio and deviator stress of the host soil significantly. Addition of 1%, 3% and 5% carpet fibres could improve the effective stress ratio of the unreinforced soil by 17.6%, 53.5% and 70.6%, respectively at an initial effective consolidation stress of 200 kPa. In this study, a nonlinear regression model was developed based on a modified form of the hyperbolic model to predict the relationship between effective shear stress ratio, deviator stress and axial strain of fibre-reinforced soil samples with various fibre contents when subjected to various initial effective consolidation stresses. The proposed model was validated using the published experimental data, with predictions using this model found to be in excellent agreement.

Geosynthetics

Shear strength

Carpet waste fibre

Reinforced soil

Clays

Modified hyperbolic model

Theory of transformation optics and invisibility cloak design

Zhang, Pu

January 2011

Research on metamaterials has been growing ever since the first experimental realization of double negative media. The theory of transformation optics provides people with a perfect tool to make use of vast possibilities of the constitutive parameters for metamaterials. A lot of fascinating designs have been brought to us by transformation optics, with invisibility cloaks being the most intensely studied. The present thesis aims to develop the basic theory of transformation optics, and utilize it to design invisibility cloaks for various applications. After the background description of this field, the theory of transformation optics is first introduced. Formulas of transformation medium parameters and transformed fields are derived with every detail explained, so that the working knowledge of transformation optics can be grasped with minimal prerequisite mathematics. Proof of form invariance of full Maxwell’s equations with sources is presented. Design procedure of transformation optics is then demonstrated by creating perfect invisibility cloaks. The introduction to basic theory is followed by discussions on our works included in our published papers. As our first application, a method of designing two-dimensional reduced cloaks of complex shapes is proposed to relieve the difficulty of singularity occurring in perfect cloaks. The simple and intuitive method is the first way to design two-dimensional reduced cloaks of shapes other than cylindrical. Elliptical and bowtie shaped reduced cloaks are presented to verify the effectiveness of the method. Prominent scattering reduction is observed for both examples. Considering the practical realization, transformations continuous in the whole space must be the identity operation outside certain volume, and thus they can only manipulate fields locally. Discontinuous transformations are naturally considered to break the limitation. We study the possible reflections from such a transformation medium due to a discontinuous transformation by a new concept of inverse transformation. This way, the reflection falls into the framework of transformation optics as well. A necessary and sufficient condition for no reflection is derived as a special case. Unlike the invisibility realized by perfect cloaks, cloaking an object over a dielectric half-space has advantages in some particular applications. Starting from a perfect cloak, a half-space cloak is designed to achieve this. In our design, two matching strips embedded in the dielectric ground are used to induce proper reflection in the upper air space, so that the reflected field is the same as that from the bare dielectric ground. Cloaks obtained from singular transformations and even reduced models all have null principal value in their material parameters, making invisibility inherently very narrowband. In contrast, a carpet cloak designed by only coordinate deformation does not have the narrowband issue, and can perform well in a broad spectrum. The invisibility accomplished by the carpet cloak is also for the half-space case as our previous design. In this part, we extend the original version of a carpet cloak above a PEC sheet to a general dielectric ground. / QC 20110415

Transformation optics

Maxwell’s equations

invisibility cloak

half-space cloak

reduced cloak

inverse transformation

carpet cloak

Electrical engineering

Elektroteknik