Industry, Space and Competition rediscovers the contributions of the past on industrial organization and spatial economics and analyses these within the context of current movements towards globalization, regionalization and localization.It re-examines the work of von Thunen, Marshall, Weber and Perroux as well as re-assessing less well-known authors including Quesnay, George and Hearn whose contributions have previously been largely disregarded. The book analyses their contributions to spatial economics, industrial organization and economic geography within an historical context. The authors then go on to discuss related issues which are not strictly from the discipline of economics. Finally the authors propose that there should be more interaction with other disciplines including history and geography in order to gain a greater understanding of the subject. This book will be welcomed by historians of economic thought, regional economists, industrial economists, especially those interested in industrial organisation and competition, and scholars of international economics and economic geography.

This impressive volume centres on the relationship between Austrian and Swedish economics. Exploring themes such as capital theory, expectations, policy, market theory and the history of economic thought, this book makes for an interesting read. It will appeal across a wide range of disciplines within economics as well as the philosophy of social science.

This impressive volume centres on the relationship between Austrian and Swedish economics. Exploring themes such as capital theory, expectations, policy, market theory and the history of economic thought, this book makes for an interesting read. It will appeal across a wide range of disciplines within economics as well as the philosophy of social science.

This book introduces the concepts and methodologies related to the modelling of the complex phenomena occurring in materials processing. After a short reminder of conservation laws and constitutive relationships, the authors introduce the main numerical methods: finite differences, finite volumes and finite elements. These techniques are developed in three main chapters of the book that tackle more specific problems: phase transformation, solid mechanics and fluid flow. The two last chapters treat inverse methods to obtain the boundary conditions or the material properties and stochastic methods for microstructural simulation. This book is intended for undergraduate and graduate students in materials science and engineering, mechanical engineering and physics and for engineering professionals or researchers who want to get acquainted with numerical simulation to model and compute materials processing.

Computing application to materials science is one of the fastest-growing research areas. This book introduces the concepts and methodologies related to the modeling of the complex phenomena occurring in materials processing. It is intended for undergraduate and graduate students in materials science and engineering, mechanical engineering and physics, and for engineering professionals or researchers.