Public University of Navarre



Academic year: 2023/2024 | Previous academic years:  2022/2023  |  2021/2022  |  2020/2021  |  2019/2020 
Bachelor's degree in Industrial Engineering at the Universidad Pública de Navarra
Course code: 252303 Subject title: MATERIALS SCIENCE
Credits: 6 Type of subject: Mandatory Year: 2 Period: 1º S
Department: Ingeniería
Lecturers:
GARCIA LORENTE, JOSÉ ANTONIO (Resp)   [Mentoring ] GARCIA FUENTES, GONZALO   [Mentoring ]

Partes de este texto:

 

Module/Subject matter

Module: Industrial branch common training
Matter: M23 Fundamentals of Materials and Manufacturing

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Contents

Unit 1. Introduction to materials science.

Unit 2. Chemical bonding and types of materials.

Unit 3. Crystal structure. Defects. Amorphous materials.

Unit 4. Mechanical properties. Relationship, structure / properties. Brittle fracture, impact fracture, fatigue.

Unit 5. Behavior in service: brittle fracture, impact fracture, fatigue.

Unit 6. Binary systems. Balance diagrams.

Unit 7. Metallic materials.

Unit 8. Ceramic materials and glasses.

Unit 9. Polymeric materials.

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General proficiencies

  • CG3: Knowledge in basic materials and technology that will enable them to learn new methods and theories, and equip them with versatility to adapt to new situations
  • CG4: Ability to solve problems with initiative, decision making, creativity, critical thinking and to communicate and transmit knowledge, skills and abilities in the field of industrial engineering.
  • CG5: Knowledge to perform measurements, calculations, assessments, appraisals, surveys, studies, reports, work plans and similar work

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Specific proficiencies

  • CC3: Understand the fundamentals of science, technology and materials chemistry. Understand the relationship between the microstructure, synthesis or processing and materials properties.

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Learning outcomes

When finish training, the student is able to:

  • R1.- Planning systems and carry out projects on mechanical installations, structures and manufacturing systems.
  • R2.- Acquire knowledge in mechanical materials, structures, manufacturing systems and materials that enable you to earn new methods and theories, and equip itself with versatility to adapt to new situations.
  • R3.- Expressing and communicating ideas and related mechanical machine elements systems, stresses in structures and parts, manufacturing systems and materials.
  • R4. - Understand and develop professional technical documentation, in the context of activities related to mechanical machine elements, stresses in structures and parts, manufacturing systems and materials.
  • R5.- Assesment the results.
  • R6.- Master the basic manufacturing processes used in engineering.
  • R7.- Master the basics of materials and their relationship with related aspects of engineering

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Methodology

Methodology - Activity Classroom hours No attendance hours
A-1. Lectures 45 0
A-2.  Classroom and laboratory practices 5 3
A-3. Cooperative learning activities.    
A-4. Projects in group 5 15
A-5. Study and independent work of student   72
A-6. Tutoring and assessment tests 5  
     
Total 60 90  

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Evaluation

 

Learning
outcome		 Assessment
activity		 Weight (%) It allows
test resit 		Minimum
required grade
RA1, RA2, RA3, RA4, RA5, RA6, RA7 Final exam 70 Yes 5/10
RA1, RA2, RA3, RA4, RA5, RA6, RA7 Practical and lab  work Experimental work reports Classroom continuous assesment 10 No -
RA1, RA2, RA3, RA4, RA5, RA6, RA7 Group tasks 15 No -
RA1, RA2, RA3, RA4, RA5, RA6, RA7 Teacher registry 5 No -

 

At the final exam the student must get a minimum score of 5.
The lab work is compulsory. In case of not carrying out lab work, the maximum grade will be 3

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Experimental practice program

Experimental work:

  • Metalographic Analysis.
  • Mechanical Testing.

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Bibliography

Access the bibliography that your professor has requested from the Library.


BASIC BIBLIOGRAPHY:

  • W. Smith. Fundamentos de la Ciencia e Ingeniería de los Materiales. Ed McGraw-Hill. (1998)
  • W.D. Callister Jr. Introducción a la Ciencia e Ingeniería de los Materiales. Tomos I y II. Editorial Reverté (2003).
  • D.R. Askeland. Ciencia e Ingeniería de los Materiales.International Thomson Editores. (2001)

SUPPLEMENTARY BIBLIOGRAPHY:

  • J.M. Montes, F.G. Cuevas, J. Cintas. Ciencia e Ingeniería de los Materiales. Paraninfo. (2014).
  • J.F. Shackelford. Introduction to Materials Science for Engineers. Pearson
  • Ashby Mikel. Materiales para la Ingeniería 1 y 2. Prentice Hall (2005).

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Languages

English

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Location

Arrosadia Campus: Classroom at Aulario and Testing Lab at Ingenieria Mecánica, Energetica y Materiales Department

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