Minority invisibility has gone unnoticed in the communication discipline. It denies the existence of racial problems by consciously or unconsciously downplaying, ignoring, or over-simplifying the issues. This is evidenced from the claims of color-blindness and reverse discrimination, the belief in model minorities, and exaggerated, negative, or purposeful racial displays that permeate American culture. Using in-depth interviews with Asian-American professionals from various metropolitan areas, this study investigates these professionals' perceptions on minority invisibility and model minority status. It explores Asian Americans' ethnic consciousness on four levels, discussing how the group perceives their individual invisibility, their group members' invisibility, the invisibility of other American co-cultural groups, and finally their expectations in changing minority invisibility in the United States. The work considers diverse viewpoints on minority invisibility, model minority, satisfaction and dissatisfaction with mainstream American culture, and co-cultural ethnic relations. This study is useful to graduate and undergraduate students and researchers with an interest in race relations, Asian-American studies, co-cultural theory, and intercultural communication studies.

High Temperature Miniature Specimen Test Methods, for the first time in book format, focuses on a comprehensive and thorough introduction to a range of high temperature, miniaturized test methods at elevated temperatures which are used to obtain “bulk” creep or fatigue properties from a small volume of material. Complicated mathematics and modelling are not involved. It is intended to be of use to a wide range of audience of engineers (e.g. designers, manufacturers, metallurgists, stress analysts), researchers (e.g. materials scientists) and students (undergraduate and postgraduate) in the field of high-temperature material and structural integrity assessment. Specific novel features of the book include 1] theoretical basis of each test method; 2], data interpretation method of each test method; and 3] specific application of each test method.

Symposium S, 'Nanostructured Metal Oxides for Advanced Applications', was held April 1-5 at the 2013 MRS Spring Meeting in San Francisco, California. Metal oxides represent an appealing and assorted class of materials, whose properties cover the entire range from metals to semiconductors to insulators and almost all aspects of material science, chemistry and physics in a very broad application area. In the past few years, progress has been made on the synthesis, structural, physical, and chemical characterization of self-assembled and hierarchically assembled metal oxide nanostructures that exhibit size-dependent properties. In these proceedings, attention is paid to the synthesis, structural and functional characterization of self-assembled nanostructures and architectures of all metal oxides with application potentials, with particular consideration given to the capability to tailor and control material properties via surface and structural modifications.

"Biofabrication" is a practical guide to the novel, inherently cross-disciplinary scientific field that focuses on biomanufacturing processes and a related range of emerging technologies. These processes and technologies ultimately further the development of products that may involve living (cells and/or tissues) and nonliving (bio-supportive proteins, scaffolds) components. The book introduces readers to cell printing, patterning, assembling, 3D scaffold fabrication, cell/tissue-on-chips as a coherent micro-/nano-fabrication toolkit. Real-world examples illustrate how to apply biofabrication techniques in areas such as regenerative medicine, pharmaceuticals and tissue engineering.

In addition to being a vital reference for scientists, engineers and technicians seeking to apply biofabrication techniques, this book also provides an insight into future developments in the field, and potential new applications.

Discover the multi-disciplinary toolkit provided by biofabrication and apply it to develop new products, techniques and

therapies.

Covers a range of important emerging technologies in a coherent manner: cell printing, patterning, assembling, 3D

scaffold fabrication, cell/tissue-on-chips...

Readers develop the ability to apply biofabrication technologies through practical examples"

This book contains papers on topics in combinatorics (including graph theory) or number theory. The subject areas within correspond to the MSC (Mathematics Subject Classification) codes 05, 11, 20D60, and 52. Some topics included in this compilation are pseudorandom binary functions on rooted plane trees; class number one criteria for real quadratic fields with discriminant k2p2+/-4p; some product-to-sum identities; a zeta function for juggling sequences; divisibility properties of hypergeometric polynomials; the distance between perfect numbers; a new proof of a theorem of Hamidoune avoiding; conjectures on the monotonicity of some arithmetical sequences; complexity of trapezoidal graphs with different triangulations; applications of shuffle products of multiple zeta values in combinatorics; the invariant area formulas and lattice point bounds for the intersection of hyperbolic and elliptic regions; and product-cordial index set for Cartesian products of a graph with a path.

Tissue engineering has been redefined as "the use of physical, chemical, biological and engineering processes to control and direct the aggregate behaviors of cells." This offers tremendous opportunities for designing in vitro physiological models to study disease pathogenesis, inventing cell-based therapeutics in clinical applications and developing novel pharmaceutical methods for reducing the use of animals in drug testing. However, while using biomanufacturing processes, cells are subjected to an array of mechanical forces which may injure it. While experimental studies have been conducted for specific bio-fabrication systems to understand cell responses, an engineering model is also needed that can be used to predict the effect of mechanical forces on cells. A multi scale modeling approach for the analysis of cell damage in bioprinted tissue constructs is presented here. The approach includes analysis of the tissue constructs at a macro scale model, developing a multi-cellular scale model and a single cell model wherein the microstructures of the cell like the nucleus and the cytoplasm have been incorporated.

This book contains papers on topics in combinatorics (including graph theory) or number theory. The subject areas within correspond to the MSC (Mathematics Subject Classification) codes 05, 11, 20D60, and 52. Some topics discussed in this compilation include restricted Eisenstein series and certain convolution sums; zeroes of the Hurwitz zeta function in the interval (O,1); prime factorization conditions providing multiplicities in coset partitions of groups; mean value formulas for twisted Edwards curves; binary matrices as morphisms of a triangular category; some diophantine triples and quadruples for quadratic polynomials; codes associated with orthogonal groups; combinatorial sums and series involving inverses of the Gaussian binomial co-effecients; full friendly index sets and full product-cordial index sets of twisted cylinders; and properly charged coloring of two-dimensional arrays.

This book is a collection of articles in the second volume of the Journal of Combinatorics and Number Theory. As scheduled this volume consists of three issues and it contains nineteen contributed papers from eminent experts or active young mathematicians which cover various important topics in number theory and combinatorics.

The creation of the science on stem cells and development of its theoretical bases is a prevalent topic today, taking into account comparative evolutionary cell biology and the cardinal problem of the developmental biology. This allows revealing correlations and studying correlative dependencies of various structures at different levels of biohierarchy. The creation of every science is impossible without the application of methodology. This book examines the system of non-traditional ideas about the nature and role of stem cells in ontogenesis, reproduction and evolution of plants. The main properties of plant stem cells have been developed, which has shown the integrity of morphogenous and reproductive processes at all stages of plant's life cycle.

As a platform for nanoscience and nanotechnology, nanorods have witnessed an explosion of interest in recent years because of the various types, advances in synthesis, and the novel thermal, optoelectronic, chemical and mechanical properties due to their unique one-dimensional geometry. Given many new functions and/or greatly enhanced performance promisingly offered by the semiconductor nanorods, as well as the demand for ever more compact and powerful systems, nanorods surpass the traditional films and emerge as a significant class of materials. This book reviews the main strategies to fabricate nanorod building blocks which are available to researchers, the unique properties offered by nanorods, and potential exciting applications in electrical and optoelectronic devices with our focus on light emitters.

Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product.Complete coverage of design and life assessment methods for high-temperature componentsApplied Creep Mechanics fully discusses the time-dependent deformation which occurs in a metal when subjected to stress at an elevated temperature. This book explains how to perform detailed analyses of welded components; assess the conditions under which cracks may initiate and grow; and extract valuable information about the current state of the material, which may have been in service for many years. This practical guide provides tested techniques for improving the design and life assessment methods for high-temperature components in power plants, chemical plants, and aero engines. The information presented in this book will help you optimize maintenance and repair, save time, reduce costs, and improve operational efficiency. Provides real-world industrial perspective on how to apply techniques to practical problems Case studies with linear and non-linear material behavior models Solution methods based on equilibrium compatibility and stress-strain and energy concepts Discusses high-temperature creep of engineering components; high-temperature structural analysis; high-temperature fracture mechanics; and damage mechanics Covers welded, notched, and cracked components State-of-the-art coverage of thermo-mechanical fatigue (TMF)