33 research outputs found

    Some solutions based on elastic-plastic and creep transition in homogeneous and non-homogeneous shells

    No full text
    Elastic-plastic and creep analysis of shell structures have an important role in engineering applications. Engineers have found its increasing application in aerospace, chemical, civil and mechanical industries such as in high-speed centrifugal separators, gas turbines for high-power aircraft engines, spinning satellite structures, certain rotor systems and rotating magnetic shields. To increase the strength of shells, it is therefore very important for engineers to study the behaviour of elastic-plastic and creep transition of shells. A shell is a curved surface, in which the thickness is much smaller than the remaining dimensions. The geometrical properties of shells, i.e. single or double curvature give rise to a tremendous advantage of these light weight structures. The concept of elastic-plastic and creep transition problems is related to the science of forces and motions. The numerical solution of these problems can be achieved through a proper blending of the principles of mechanics with certain postulates and assumptions based on experiments and experience. This study comes under the field of Solid mechanics. The Solid mechanics is the branch of Continuum mechanics that deals with the behaviour of solid materials, especially their motion and deformation under the influence of forces, thermal effects and other different conditions. In order to make a mechanical body safe, a designer must have knowledge of the limiting conditions of stress at which temporary and permanent deformation starts to develop so that danger of yielding or fracture is to be eliminated. Deformations which are recovered after the removal of body forces are called elastic deformations. In this case, a body completely recovers its original configuration. On the other hand, if deformation remains even after body forces have been removed is called plastic deformation. It is one of type of irreversible deformations in which material bodies after stresses have attained a certain threshold value known as the elastic limit or yield stress. If the state of deformation in a body remains constant throughout the whole part of the material body is called homogeneous deformation and the tendency of a solid material to move slowly or deform permanently occur as result of long-term exposure to high level of stress is called creep deformation. Creep deformation does not occur suddenly upon the application of stress. Instead, strain accumulates as a result of long-term stress. Therefore, creep is a "time-dependent" deformation. The ‘theory of elasticity’ has been continuously developed by various investigators for anisotropic bodies and isotropic bodies since 1950. This theory is the solid foundation for the scientists in designing of engineering structures because of its increasing application to engineering problems. In the same manner, the designers are interested in the ‘theory of plasticity. It is helpful in understanding the deformation behaviors for avoiding excessive deflection or distortion in machine parts. In 1868, Tresca considered that there exists a ‘mid-zone’ area between the elastic and plastic regions which is against Saint-Venant’s two-zone theory. Although Tresca’s theory was ignored by later research workers for the sake of convenience. Many authors have not recognized mid zone area as a separate part that of elasticity and plasticity. A many attempts have been made in this direction of intermediate state illustrated by Thomas, Green and Seth. Seth has elaborated the concept of this intermediate region. He has named this region as “Transition region”. He has developed a transition theory of elastic-plastic and creep transitions. Seth has defined the concept of generalized strain measure which when applied to the governing differential equation of the medium eliminates ad-hoc assumptions like incompressibility, creep strain law and yield condition but also employs the same constitutive equations to give elastic-plastic and creep results through some transition functions. The most important contribution to be made by generalized measures is that they do not use of semi-empirical laws and jump conditions unnecessary. Therefore, concept of generalized measure in which two parameters are determined experimentally, give a better idea about creep behaviour. The classical macroscopic treatment of solving the problems in (i) plasticity, (ii) creep and (iii) relaxation has to assume semi-empirical yield conditions like those of Tresca and von Mises and Creep strain laws like those of Norton, Odquist and others. This is a direct consequence of using linear strain measures which neglect the non-linear transition region through which the yield occurs and the fact that creep and relaxation strains are never linear. Therefore classical elastic-plastic model does take into consideration the non linear part through which transition takes place. Here in this current literature, the problems of elastic -plastic and creep transitions are solved by considering non liner part through which the transition takes place. The transition theory of B.R. Seth is helpful to deal these types of problems. The motive of study is finding the solution of transition problems of shells with the different conditions. The study is helpful to know the conditions under which life of material parts in machines get longer, reducing wearing on mating parts, better mechanical dampening (less noise), faster operation of equipment, less power needed to run equipment, chemical and corrosion resistance etc. Therefore, the scope of study deals with the providing guidelines to designers for making products. It deals in developing new ideas to meet changing demands of products in machinery around the world so that innovative, collaborative spirit between people can be developed. This can lead to the production of industry’s broadest range of engineering materials. By study the nature of transition in spherical shells, one can determine the applications and mechanical requirements of body containing shell. The whole part of thesis is divided into eight chapters. The first chapter of thesis consists of brief introduction about shells, theory of elasticity, plasticity and creep. The various terms like stress, strain, generalized strain measures, and concept of transition state given by Seth has been discussed. The basic fundamental governing equations are defined in the thesis. The chapter discusses the brief literature review of problems on spherical shells. The chapter also consists of research methodology used in thesis to find the solution of the problems. Further thesis consists of seven more chapters depicting various research problems and their solutions based on elastic-plastic and creep transition. The second chapter deals with problem of “Elastic-plastic stress analysis in a Spherical shell under internal pressure and steady state temperature”. Curves have been drawn between stresses and radii ratio R = r/b for the initial state and fully plastic state. It has been observed that the circumferential stress is the maximum at the external surface. Thermal effect increases the value of circumferential stresses at the outer surface. The spherical shell made of the incompressible material required the higher value of circumferential stresses to start yielding as compared to compressible materials. The third chapter deals with the “Non-homogeneity effect in the spherical shell by using Seth's transition theory”. The effect of non-homogeneity has been discussed numerically and depicted graphically. It is assumed that non-homogeneity varies along the radius of the spherical shell. It has been observed that the spherical shell made of non-homogeneous material requires high pressure to attain fully plastic state from the elastic state as compared to the spherical shell made of homogeneous material. This indicates that spherical shell made of non-homogeneous material is on the safer side of design. The fourth chapter deals with the “Thermal Creep stress and strain analysis in non-homogeneous Spherical shell”. Seth’s transition theory is applied to the problem of creep stresses and strain rates in non-homogeneous spherical shell under steady-state temperature. Neither the yield criterion nor the associated flow rule is assumed here. With the influence of thermal effect, the values of circumferential stress are decrease at the external surface as well as internal surface of the spherical shell for different values of non-homogeneity. The fifth chapter deals with problem of “Elastic-Plastic transition on rotating Spherical shell in dependence of compressibility”. The purpose of paper is to establish the mathematical treatment of elastic-plastic transitions occurring in the rotating spherical shells and to find angular speed required to start yielding in rotating shells for compressible and incompressible materials. The effect of density variation parameter has been discussed numerically and depicted graphically. With the effect of density variation parameter, rotating spherical shells starts yielding at internal surface with the lower values of the angular speed for incompressible/compressible materials. The sixth chapter deals with problem of “Creep transition in the rotating spherical shell under the effect of density variable by Seth’s transition theory". The creep stresses and strain rates have been evaluated with the effect of variable density in a spherical shell. It has been seen that the values of radial/circumferential stresses must be decreased at the internal surface of the spherical shell with the effect of the density variation. This means that the possibility of fracture at the internal surface of the spherical shell decreases with the effect of density variable. The problem in chapter seventh has been discussed in two sections as (i) Elastic-plastic stress analysis of spherical shell under internal and external pressure and (ii) Transition analysis of spherical shell structures under external pressure. The results have been derived numerically and depicted graphically. The effect of the pressure is seen on the radial and circumferential stresses of the spherical shell. The eighth chapter summarizes the salient conclusions of this study. The end chapter also identifies the scope for future work.Navedeni su: supervisor (contributor advisor), committee members (contributor other) Guarav Verma Regd. No: 1213017 Zapisnik sa sednice NNV, NNV-p12-161

    Book Review: "Mystic Echoes: Stories Rooted in Sikh Spiritual Realms" (Book Author: Dr. Devinder Pal Singh; Book Reviewer: Prof. Hardev Singh Virk)

    No full text
    Dr. Devinder Pal (DP) Singh joined the Physics Department in 1983 as an Ad-hoc Lecturer to teach Physics and complete his doctorate degree in Physics (Acoustics). I found him as a dedicated teacher and researcher. Upon moving to Canada as an immigrant, he initiated a new venture, the “Center for Understanding Sikhism”. A similar organization, the “Institute for Understanding Sikhism,” was established in 1999 by Dr. D. S. Chahal in Montreal. I was perplexed as to why a hardcore physicist was meddling in Sikhism. My curiosity was satisfied after reviewing his book, “Science and Sikhism: Conflict or Coherence.” I started rating him as one of the greatest exponents of Sikhism (Sikhi) in the modern age. The Foreword “A Sacred Mirror: Seeing Ourselves Through Sikh Narratives” is by Bhai Harbans Lal, Ph.D., D. Litt (Hons). Bhai Lal appreciates the technique used by D. P. Singh: “It brings the living essence of Gurbani into our day-to-day existence. These are not abstract theological exercises, nor are they simply nostalgic tales of rural life. Instead, they are powerful spiritual parables, immersive narratives that reveal how the universal truths embedded in Sikh teachings manifest in the hearts, struggles, and transformations of everyday people”. The author introduces his UNIQUE work in the Preface “Bridging the Temporal and the Timeless” as follows: “The stories in Mystic Echoes: Stories Rooted in Sikh Spiritual Realms emerge from the convergence of profound spiritual reflection, lived experience, and the enduring resonance of Sikh philosophy. They are not merely works of fiction, but narrative expressions of spiritual truths rooted in the teachings of the Sikh Gurus”. Further, D. P. Singh explains the relevance and importance of chosen topics: “Each story in Mystic Echoes is an attempt to explore a specific spiritual theme from within the Sikh tradition: Naam (Divine Name), Hukam (Divine Order), Haumai (Ego), Maya (Worldly Illusion), Raza (Divine Will), Sunn (Primal Void), Sahaj (Equilibrium), Bhaau and Bhae (Devotional Love and Reverent Fear), Nadar (Grace), Wismad (Wondrous Bliss), Anhad Naad (Unstruck Melody), Chautha Pad (Fourth State), Dasam Duar (Tenth Gate), Panj Tat (Five classical elements), and Daya (Compassion) among others

    Book Review: "Mystic Echoes: Stories Rooted in Sikh Spiritual Realms" (Book Author: Dr. Devinder Pal Singh; Book Reviewer: Prof. Hardev Singh Virk)

    No full text
    Dr. Devinder Pal (DP) Singh joined the Physics Department in 1983 as an Ad-hoc Lecturer to teach Physics and complete his doctorate degree in Physics (Acoustics). I found him as a dedicated teacher and researcher. Upon moving to Canada as an immigrant, he initiated a new venture, the “Center for Understanding Sikhism”. A similar organization, the “Institute for Understanding Sikhism,” was established in 1999 by Dr. D. S. Chahal in Montreal. I was perplexed as to why a hardcore physicist was meddling in Sikhism. My curiosity was satisfied after reviewing his book, “Science and Sikhism: Conflict or Coherence.” I started rating him as one of the greatest exponents of Sikhism (Sikhi) in the modern age. The Foreword “A Sacred Mirror: Seeing Ourselves Through Sikh Narratives” is by Bhai Harbans Lal, Ph.D., D. Litt (Hons). Bhai Lal appreciates the technique used by D. P. Singh: “It brings the living essence of Gurbani into our day-to-day existence. These are not abstract theological exercises, nor are they simply nostalgic tales of rural life. Instead, they are powerful spiritual parables, immersive narratives that reveal how the universal truths embedded in Sikh teachings manifest in the hearts, struggles, and transformations of everyday people”. The author introduces his UNIQUE work in the Preface “Bridging the Temporal and the Timeless” as follows: “The stories in Mystic Echoes: Stories Rooted in Sikh Spiritual Realms emerge from the convergence of profound spiritual reflection, lived experience, and the enduring resonance of Sikh philosophy. They are not merely works of fiction, but narrative expressions of spiritual truths rooted in the teachings of the Sikh Gurus”. Further, D. P. Singh explains the relevance and importance of chosen topics: “Each story in Mystic Echoes is an attempt to explore a specific spiritual theme from within the Sikh tradition: Naam (Divine Name), Hukam (Divine Order), Haumai (Ego), Maya (Worldly Illusion), Raza (Divine Will), Sunn (Primal Void), Sahaj (Equilibrium), Bhaau and Bhae (Devotional Love and Reverent Fear), Nadar (Grace), Wismad (Wondrous Bliss), Anhad Naad (Unstruck Melody), Chautha Pad (Fourth State), Dasam Duar (Tenth Gate), Panj Tat (Five classical elements), and Daya (Compassion) among others

    Elisabeth Meru – A Prolific Author and a Devoted Sikh Proponent

    No full text
    Elisabeth Meru, born in Hamburg, is a poetess by heart, a storyteller by nature, a forwarding merchant / financial accountant by training, and a Sikh by choice. She is currently settled in Munich, Germany. During the past three decades, she has authored numerous short stories, articles, and poetic compositions for various newspapers, journals, and radio broadcasts. With over a dozen books, both in English and German languages, to her credit to date, she is a prolific author who specializes in writing on Sikh history, tradition, and culture. Her 24-year-long spiritual quest brought her to the Gurdwara in Munich, wherein she heard Gurbani Kirtan for the first time. Therein she felt as if she had reached home. After continuous devotion and dedication to Sikhi for about seven years, she converted to Sikhism. Due to her love for Sikhi, Punjabi and Punjabiat, she learned Gurmukhi. Her first book in German, “Aus dem Herzen des Sikhismus - Guru Nanak Dev Ji - In deinem stillen Rosengarten” was published in 2009. The English version of the book "From the Heart of Sikhism - Guru Nanak Dev Ji - In your quiet rose garden" was published in 2010. These books describe the legends about the ten Gurus, their wisdom and teachings, and her poems, fables and a fairytale in German style. Elisabeth’s second set of books “Sikhism - Wellspring of Love” (in English) and “Sikhismus - Quell der Liebe” (in German), were published in 2010. This book contains her poems and stories about Sikhism. The stories are rooted in the spirit of fairy tales. Her next book, in German, “Sikhs und Sikhismus: Religion, Riten und der Goldene Tempel ” was published in 2011. In Feb. 2012,she with her team published the German edition of “Guru Granth Sahib Ji Essenz und Sikh Terminologie von A - Z.” It is a must-book for German-speaking Sikhs and all those who want a quick overview of basic terms in Sikhism. Another of her book, in German, “Sikhs ... der Bart ist ab,” was published in 2017

    Plane strain problem in a rotating microstretch thermoelastic solid with microtemperatures

    No full text
    A two-dimensional problem in an infinite microstretch thermoelastic solid with microtemperatures subjected to a mechanical source is studied. The medium is rotating with a uniform angular velocity ??. The normal mode analysis is used to obtain the exact expressions for the component of normal displacement, microtemperature, normal force stress, microstress tensor, temperature distribution, heat flux moment tensor and tangential couple stress. The effect of microrotation and stretch on the considered variables are illustrated graphically.</jats:p

    A two dimensional fibre reinforced micropolar thermoelastic problem for a half-space subjected to mechanical force

    No full text
    The purpose of this paper is to study the two dimensional deformation of fibre reinforced micropolar thermoelastic medium in the context of Green-Lindsay theory of thermoelasticity. A mechanical force is applied along the interface of fluid half space and fibre reinforced micropolar thermoelastic half space. The normal mode analysis has been applied to obtain the exact expressions for displacement component, force stress, temperature distribution and tangential couple stress. The effect of anisotropy and micropolarity on the displacement component, force stress, temperature distribution and tangential couple stress has been depicted graphically

    Understanding Anand - A Book Review (Book Author: Dr. Karminder Singh Dhillon)

    No full text
    Dr. Karminder Singh Dhillon is a much-acclaimed theologian, a renowned civil servant, a prolific writer and a profound scholar of comparative religious studies. Born in 1960 at Teluk Anson, Perak, Malaysia, he retired after 32 years long professional career in the Malaysian Civil Service. His incisive articles on Sikh theology have been regularly published in various international journals. Currently serving as Joint Editor for the Sikh Bulletin, USA, he, with his exceptional writing style, has established himself as an eminent exponent of the Sikh doctrines. In addition, he has published about one dozen books on various aspects of Sikhi. Dr. Dhillon’s book 'Understanding Anand' explores the Spirituality of Bliss as outlined in 'Anand,' a composition by Guru Amar Das, the third Sikh Guru, and enshrined in Sri Guru Granth Sahib (SGGS) on pages 917-922, in Ramkali Raag. He emphasizes that Gurbani advocates a spirituality of Fearlessness and Contentment leading to Anand (bliss and Joy). He laments that our clergy is intent on promoting the Spirituality of Fear and the Spirituality of Asking, which is the antithesis of what Gurbani stands for. He enunciates that Gurbani's spiritually brilliant and divinely genius messages lead to Vigaas, the Spirituality of Bliss and Joy (Anand). In 'Foreword' of the book, Gyani Jarnail Singh Arshi points out that the translation methodology adopted by the author makes the messages of Anand hymns free from literal translation trends as well as snatan, vedic and yogic slants. The book includes three 'Introductory Essays,' i.e. (i)The Spirituality of Anand, (ii) The Methodology of This Book, and (iii) How to Read This Book. The book's last section elaborates on the Anand composition

    Understanding Anand - A Book Review (Book Author: Dr. Karminder Singh Dhillon)

    No full text
    Dr. Karminder Singh Dhillon is a much-acclaimed theologian, a renowned civil servant, a prolific writer and a profound scholar of comparative religious studies. Born in 1960 at Teluk Anson, Perak, Malaysia, he retired after 32 years long professional career in the Malaysian Civil Service. His incisive articles on Sikh theology have been regularly published in various international journals. Currently serving as Joint Editor for the Sikh Bulletin, USA, he, with his exceptional writing style, has established himself as an eminent exponent of the Sikh doctrines. In addition, he has published about one dozen books on various aspects of Sikhi. Dr. Dhillon’s book 'Understanding Anand' explores the Spirituality of Bliss as outlined in 'Anand,' a composition by Guru Amar Das, the third Sikh Guru, and enshrined in Sri Guru Granth Sahib (SGGS) on pages 917-922, in Ramkali Raag. He emphasizes that Gurbani advocates a spirituality of Fearlessness and Contentment leading to Anand (bliss and Joy). He laments that our clergy is intent on promoting the Spirituality of Fear and the Spirituality of Asking, which is the antithesis of what Gurbani stands for. He enunciates that Gurbani's spiritually brilliant and divinely genius messages lead to Vigaas, the Spirituality of Bliss and Joy (Anand). In 'Foreword' of the book, Gyani Jarnail Singh Arshi points out that the translation methodology adopted by the author makes the messages of Anand hymns free from literal translation trends as well as snatan, vedic and yogic slants. The book includes three 'Introductory Essays,' i.e. (i)The Spirituality of Anand, (ii) The Methodology of This Book, and (iii) How to Read This Book. The book's last section elaborates on the Anand composition

    Non-homogeneity effect in the spherical shell by using seth's theory

    No full text
    This paper presents nonlinear deformation behaviour of non-homogeneous spherical shell examined under pressure by using Seth's transition theory. It has been seen that for increased material compressibility in thickness direction, the circumferential stress in the spherical shell reaches maximum at the external surface, but is reverse in the case of a deceasing compressibility in the thickness direction. The spherical shell of non-homogeneous material (non-homogeneity increases radially) is on the safer side of design. Hence, the more use of non-homogeneous material (non-homogeneity increases radially) may be beneficial for manufacturing spherical shells as they provide longer service life than shells of homogeneous material under identical conditions
    corecore