Download Free The Evolution Of The Property Relation Book in PDF and EPUB Free Download. You can read online The Evolution Of The Property Relation and write the review.

Evolution of the Property Relation defines an approach to economics which is centered around the concept of property and explores the historical evolution of the relationship of the individual, private property, and the state, and the distinctive changes wrought by the emergence of the market.
Ten diverse ethnographic case studies renew the anthropological perspective on property.
Before the late 1960s, Japan historians characterized the Early Modern Japanese economy in waht are typical feudal terms. Considered backward and stagnant, it was argued that the economy eventually collapsed under the weight of its own internal limitations. This narrative has given way in the past two decades to a new interpretation in which Japan's pre-industrial economy is protrayed as one of substantive growth and qualitative change, the setting stage for modern development during the Meiji era.
This book is a printed edition of the Special Issue "Process-Structure-Property Relationships in Metals" that was published in Metals
In the industrial manufacturing of metals, the achievement of products featuring desired characteristics always requires the control of process parameters in order to obtain a suitable microstructure. The strict relationship among process parameters, microstructure, and mechanical properties is a matter of interest in different areas, such as foundry, plastic forming, sintering, welding, etc., and regards both well-established and innovative processes. Nowadays, circular economy and sustainable technological development are dominant paradigms and impose an optimized use of resources, a lower energetic impact of industrial processes and new tasks for materials and products. In this frame, this Special Issue covers a broad range of research works and contains research and review papers.
The inelastic response and residual mechanical properties acquired from most shock compressed solids are quite different from those acquired from quasi-static or moderate strain rates. For instance, the residual hardness of many shock compressed metals has been found to be considerably lower than those loaded under quasi-static conditions to the same maximum stress. However, the residual hardness of shock compressed metals is much higher than those loaded quasi-statically to the same total strain. These observations suggest that the deformation mechanisms active during inelastic deformation under shock compression and quasi-static or moderate rates may be quite different. Therefore, the primary objective of this short book is to offer the reader a concise introduction on the Structure-Property Relationships concerning shock compressed metals and metallic alloys via shock recovery experiments. The first phase of the book, chapters 1 through 3 provides a brief historical perspective on the structure-property relationships as it pertains to shock compression science, then plastic deformation in shock compressed metals and metallic alloys is described in terms of deformation slip, deformation twinning, and their consequences to spall failure. Existing knowledge gaps and limitations on shock recovery experiments are also discussed. The fundamentals of shock wave propagation in condensed media are presented through the formation and stability of shock waves, then how they are treated using the Rankine-Hugoniot jump relations derived from the conservation of mass, momentum, and energy. The equation of states which govern the thermodynamic transition of a material from the unshock state to the shock state is briefly described and the elastic-plastic behavior of shock compressed solids is presented at the back end of the first phase of this book. The second phase of the book describes the geometry and design of shock recovery experiments using explosives, gas and powder guns. Then results derived from the residual mechanical properties, microstructure changes, and spall failure mechanisms in shock compressed metals and metallic alloys with FCC, BCC, and HCP crystal lattice structures are presented. Also, results on the residual microstructure of explosively compacted powders and powder mixtures are presented. Lastly, the book closes with the new frontiers in shock recovery experiments based on novel materials, novel microscopes, novel mechanical processing techniques, and novel time-resolved in-situ XRD shock experiments.
One of the major works of twentieth-century anthropological theory, written by one of the discipline’s most important, complex, and controversial figures, has not been in print for several years. Now Evolution of Culture is again available in paperback, allowing today’s generation of anthropologists new access to Leslie White’s crucial contribution to the theory of cultural evolution. A new, substantial introduction by Robert Carneiro and Burton J. Brown assess White’s historical importance and continuing influence in the discipline. White is credited with reintroducing evolution in a way that had a profound impact on our understanding of the relationship between technology, ecology, and culture in the development of civilizations. A materialist, he was particularly concerned with societies’ ability to harness energy as an indicator of progress, and his empirical analysis of this equation covers a vast historical span. Fearlessly tackling the most fundamental questions of culture and society during the cold war, White was frequently a lightning rod both inside and outside the academy. His book will provoke equally potent debates today, and is a key component of any course or reading list in anthropological or archaeological theory and cultural ecology.
The interrelation among composition, microstructure, and properties of stoichiometric and nonstoichiometric compounds is a major field of research for both scientific and technological reasons. As such, this book focuses on metal oxides, which present a large diversity of electrical, magnetic, optical, optoelectronic, thermal, electrochemical, and catalytic properties, making them suitable for a wide range of applications. By bringing together scientific contributions with special emphasis on the interrelations between materials chemistry, processing, microstructures, and properties of stoichiometric and nonstoichiometric metal oxides, this book highlights the importance of tightly integrating high-throughput experiments (including both synthesis and characterization) and efficient and robust theory for the design of advanced materials.
Comparative Property Law provides a comprehensive treatment of property law from a comparative and global perspective. The contributors, who are leading experts in their fields, cover both classical and new subjects, including the transfer of property, the public-private divide in property law, water and forest laws, and the property rights of aboriginal peoples. This Handbook maps the structure and the dynamics of property law in the contemporary world and will be an invaluable reference for researchers working in all domains of property law.
Computational Methods for Microstructure-Property Relationships introduces state-of-the-art advances in computational modeling approaches for materials structure-property relations. Written with an approach that recognizes the necessity of the engineering computational mechanics framework, this volume provides balanced treatment of heterogeneous materials structures within the microstructural and component scales. Encompassing both computational mechanics and computational materials science disciplines, this volume offers an analysis of the current techniques and selected topics important to industry researchers, such as deformation, creep and fatigue of primarily metallic materials. Researchers, engineers and professionals involved with predicting performance and failure of materials will find Computational Methods for Microstructure-Property Relationships a valuable reference.