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A common sense handbook written both in a journalistic and personal format. Not just for the upcoming model, but for anybody who desires to be of model material and gain confidence. Also, a beneficial read for parents and families of those aspiring models who wish to take their step into this forever-changing and vastly-growing modelling world. My aim is to also guide ethnic models to break into mainstream modelling and to push the barriers further than just that of Asian bridal modelling and make-up. With advice and interviews from some of the world's biggest names in the industry – this guide will surely give you first-hand knowledge to make it to the top and to do so wisely. Included also is expert advice on how to get published, pursue a career in becoming a professional and international model, as well as inspiring those of any age, colour and gender who wish to make it mainstream. I have brought together in my book advice from leading celebrities and professionals within the modelling, fashion, media, health and beauty industry to help give weight and specific value. On top of this, I have added chapters to expose the industry for what it really is and bring to light the deep and dark secrets of the modelling world. Visit www.ramilla-sisodia.com for more information.
Model-making: Materials and Methods focuses primarily on the wide variety of materials that can be employed to make models; those which have been favoured for a while and those which are relatively new. The book looks at how these materials behave and how to get the best out of them, then illustrates a range of relatively simple methods of building, shaping, modelling, surfacing and painting with them. Useful features of the book include: the different uses of models in various disciplines; the sequence of making; planning and construction, creating surfaces, painting and finishing; methods of casting, modelling and working with metals; step-by-step accounts of the making of specially selected examples; simple techniques without the need for expensive tools or workshop facilities; a 'Directory' of a full range of materials, together with an extensive list of suppliers. This book is intended for students of theatre production, art & architecture, animation and theatre/television set designers where accurate scale models are necessary, and is also of interest to anyone involved with the process of making forms in 3D and the challenge of making small-scale forms in general. Superbly illustrated with 185 colour photographs.
Constitutive Modeling of Engineering Materials provides an extensive theoretical overview of elastic, plastic, damage, and fracture models, giving readers the foundational knowledge needed to successfully apply them to and solve common engineering material problems. Particular attention is given to inverse analysis, parameter identification, and the numerical implementation of models with the finite element method. Application in practice is discussed in detail, showing examples of working computer programs for simple constitutive behaviors. Examples explore the important components of material modeling which form the building blocks of any complex constitutive behavior. Addresses complex behaviors in a wide range of materials, from polymers, to metals and shape memory alloys Covers constitutive models with both small and large deformations Provides detailed examples of computer implementations for material models
This article aims to create a theoretical evaluation model based on decision support methods for the residential house construction materials and elements selection.
Continuum Mechanics Modeling of Material Behavior offers a uniquely comprehensive introduction to topics like RVE theory, fabric tensor models, micropolar elasticity, elasticity with voids, nonlocal higher gradient elasticity and damage mechanics. Contemporary continuum mechanics research has been moving into areas of complex material microstructural behavior. Graduate students who are expected to do this type of research need a fundamental background beyond classical continuum theories. The book begins with several chapters that carefully and rigorously present mathematical preliminaries: kinematics of motion and deformation; force and stress measures; and general principles of mass, momentum and energy balance. The book then moves beyond other books by dedicating several chapters to constitutive equation development, exploring a wide collection of constitutive relations and developing the corresponding material model formulations. Such material behavior models include classical linear theories of elasticity, fluid mechanics, viscoelasticity and plasticity. Linear multiple field problems of thermoelasticity, poroelasticity and electoelasticity are also presented. Discussion of nonlinear theories of solids and fluids, including finite elasticity, nonlinear/non-Newtonian viscous fluids, and nonlinear viscoelastic materials are also given. Finally, several relatively new continuum theories based on incorporation of material microstructure are presented including: fabric tensor theories, micropolar elasticity, elasticity with voids, nonlocal higher gradient elasticity and damage mechanics. Offers a thorough, concise and organized presentation of continuum mechanics formulation Covers numerous applications in areas of contemporary continuum mechanics modeling, including micromechanical and multi-scale problems Integration and use of MATLAB software gives students more tools to solve, evaluate and plot problems under study Features extensive use of exercises, providing more material for student engagement and instructor presentation
This book describes several novel applications currently under investigation that exploit the unique actuator and sensor capabilities of smart material compounds. In addition to present and projected applications, this book provides comprehensive coverage of both linear and nonlinear modeling techniques necessary to characterize materials in a manner that facilitates transducer design and control development. The author focuses on ferroelectric, magnetic, and shape memory compounds and also addresses applications exploiting amorphous and ionic polymers, magnetorheological compounds, and fiber optic sensors. By providing a unified treatment of both linear and nonlinear characterization frameworks, Smart Material Systems: Model Development encompasses both low to moderate drive levels, which constitute the primary focus of most present texts, and the high drive regimes dictated by present and future applications. This will significantly enhance the design of transducers and control systems which exploit the unique actuator and sensor capabilities provided by smart material compounds.
In Model Cases, Monika Krause asks about the concrete material research objects behind shared conversations about classes of objects, periods, and regions in the social sciences and humanities. It is well known that biologists focus on particular organisms, such as mice, fruit flies, or particular viruses when they study general questions about life, development, and disease. Krause shows that scholars in the social sciences and humanities also draw on some cases more than others, selecting research objects influenced by a range of ideological but also mundane factors, such as convenience, historicist ideas about development over time, schemas in the general population, and schemas particular to specific scholarly communities. Some research objects are studied repeatedly and shape our understanding of more general ideas in disproportionate ways: The French Revolution has profoundly influenced our concepts of revolution, of citizenship, and of political modernity, just like studies of doctors have set the agenda for research on the professions. Based on an extensive analysis of the role of model cases in different fields, Krause argues that they can be useful for scholarly communities if they are acknowledged and reflected as particular objects; she also highlights the importance of research strategies based on neglected research objects and neglected combinations of research objects and scholarly concerns.
Finite element analysis has been widely applied in mechanical, civil, and biomedical design. This book aims to provide the readers with comprehensive views of various material models through practical examples, which would help readers better understand various materials and build appropriate material models in the finite element analysis. This book consists of four main parts: 1) metals, 2) polymer, 3) soils, and 4) modern materials. Each part starts with the structure and function of different materials and then follows the corresponding material models and the temperature and time effects on the material models. The final part focuses on user subroutines such as UserMat and UserHyper. The book presents some specific problems including the metal forming process, combustion room, Mullins effect of rubber tire, viscoelasticity of liver soft tissues, small punch test, tunnel excavation, slope stability, concrete slump test, orthodontic wire, and piezoelectric microaccelerometer. All modeling files are provided in the appendices of the book. This book would prove beneficial for graduate students and researchers in the mechanical, civil, and biomedical fields who conduct finite element analysis. It provides all readers with a comprehensive understanding of modeling various materials.