MSE 301: Materials Science II: Materials Science and Engineering is a broad field, linking mathematics, chemistry and physics to build an understanding of the "Materials Paradigm": the inter-relationship of processing, properties, structure and performance. In MSE 201, Materials Science I, the basic classification of materials is introduced, along with mechanical properties and the language of and basic mathematical relationships governing mechanical properties. MSE 301 continues this introduction, branching to electrical, thermal and magnetic properties, introducing fatigue and failure and their mechanisms, examining techniques of materials selection and materials processing, and concluding with a deeper exploration of nucleation, growth and phase transformations.
Previously Offered: None.
MSE 351: Thermodynamics: Thermodynamics is a critical study of truth in the world. Every subject touched upon in science will have some aspect to deal with thermodynamics. You can be a biologist and never need to know cosmic theory. You can be a material scientist and never need to know biology. BUT, you can't be a scientist or an engineer and not know thermodynamics. For this reason we will focus the first part of this course on the basics of the field and then go into subtopics of unique interest to the materials scientist. These include; Solution thermodynamics, partial molar quantitites; ideal and nonideal solutions; application of thermodynamics to phase equilibria, heterogeneous equilibria, free energy-composition diagrams, temperature-pressure relationships.
Previously Offered: Spring 2010. Spring 2011, Spring 2012
MSE 101: Introduction to Materials Science and Engineering: This course for first-year engineers who have declared or are considering declaring in Materials Engineering is an introduction to the field and profession. The course will impart an understanding of the work and importance of materials engineering in technology and society at large. Students will be introduced to a range of basic tools and techniques that will be used throughout their undergraduate education and beyond. A significant portion of the course will be devoted to presentations by practicing materials engineers working in diverse areas.
Previously Offered: Fall 2011, Fall 2010, Fall 2009
MSE 202: Materials Engineering Laboratory I: The materials laboratory course will provide experience with a variety of topics, experimental techniques and analysis of materials. This lab introduces students to basic materials characterization laboratory techniques, such as metallography and tensile testing. Provides hands-on experience and includes instruction and practice in use of numerous instruments and equipment typical of the materials engineering discipline. Data reduction, analysis and interpretation are covered, as well as report writing.
Previously Offered: Fall 2011, Fall 2010
MSE/CME 599: Applied Computational Methods: Mathematical models allow scientific results to be assimilated and transmitted as knowledge and understanding that is useful in the engineering of practical products. This course will teach students to develop, implement and apply mathematical models relevant in science and engineering. Students will gain an understanding of what modeling and simulation is, and what role such techniques play in applied science and engineering. Students will learn to translate experimental and theoretical results into tractable mathematical models. They will be introduced to the process of implementing useful simulation tools based on these models in MS Excel, MATLAB, Maple, and COMSOL. They will learn to evaluate and apply the results of simulations to practical engineering problems. Students will also build skills in: data analysis, use of MS Excel and MATLAB, Maple and COMSOL, as well as technical writing and presentation.
Previously Offered: Fall 2009
Above: Map of symmetrically distinct Si Frenkel pairs. Click here for details.