About this paper

Appears in:
Pages: 1038-1044
Publication year: 2010
ISBN: 978-84-613-5538-9
ISSN: 2340-1079

Conference name: 4th International Technology, Education and Development Conference
Dates: 8-10 March, 2010
Location: Valencia, Spain

A SIMULATION SOFTWARE FOR MATERIALS ENGINEERING BASED LEARNING

In order to improve teaching quality of practical classes (laboratory) we have developed several sotfware tools that can be used as virtual laboratories (VLs). A virtual laboratory is a programmed multimedia tool that represents some physical, mechanical, thermal, chemical… process. The main restriction of these virtual laboratories is that they have to be programmed in accordance to the process that it represents. In this case, the software can be accessed by the student via on-line platforms (or off-line versions) to work with the simulation tool. The student can change parameters and evaluate the effect of these changes. This allows a remarkable change in the student role in the teaching-learning process. Traditional methods based on observation of material tests involve a passive role while these new multimedia methods based on the use of virtual laboratories allows an active role so the overall results of the teaching-learning process are better. These virtual laboratories are not only useful as substitutes of expensive equipment; they can also be useful to study complex processes with many variables. So, with this purpose, we have developed a virtual laboratory which is focused on the study of phase diagrams. The student can interact with the VL by changing all possible parameters; after a calculation process, the student can evaluate the effects of their changes and it can use this tool to optimize problems at industrial level. Another use of the virtual laboratories is to serve the students as guides or tutorials for teaching-learning tasks. Materials science is characterized by high technological content and some concepts are difficult to understand, so the use of virtual laboratories could have a positive effect on the learning process. Regarding this use of the VLs, we have developed a simulation tool named Building Assistant of Phase Diagrams for Engineering (BAPDE) for phase diagrams construction and representation. The student can define and change the parameters regarding different isothermal transformations (eutectic, peritectic, solid solution…) and the VL guides the student in the complex process of construction; so that, the virtual laboratory allows an active role for the student and this has a positive effect on the overall teaching-learning process.
@InProceedings{GARCIASANOGUERA2010ASI,
author = {Garcia Sanoguera, D. and Balart Gimeno, R. and Sanchez Nacher, L. and Fenollar Gimeno, O.},
title = {A SIMULATION SOFTWARE FOR MATERIALS ENGINEERING BASED LEARNING},
series = {4th International Technology, Education and Development Conference},
booktitle = {INTED2010 Proceedings},
isbn = {978-84-613-5538-9},
issn = {2340-1079},
publisher = {IATED},
location = {Valencia, Spain},
month = {8-10 March, 2010},
year = {2010},
pages = {1038-1044}}
TY - CONF
AU - D. Garcia Sanoguera AU - R. Balart Gimeno AU - L. Sanchez Nacher AU - O. Fenollar Gimeno
TI - A SIMULATION SOFTWARE FOR MATERIALS ENGINEERING BASED LEARNING
SN - 978-84-613-5538-9/2340-1079
PY - 2010
Y1 - 8-10 March, 2010
CI - Valencia, Spain
JO - 4th International Technology, Education and Development Conference
JA - INTED2010 Proceedings
SP - 1038
EP - 1044
ER -
D. Garcia Sanoguera, R. Balart Gimeno, L. Sanchez Nacher, O. Fenollar Gimeno (2010) A SIMULATION SOFTWARE FOR MATERIALS ENGINEERING BASED LEARNING, INTED2010 Proceedings, pp. 1038-1044.
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