Non Metallic Materials

Code:

EM0097

Acronym:

MNM

Keywords
Classification	Keyword
OFICIAL	Materials

Instance: 2017/2018 - 1S

Active?	Yes
Responsible unit:	Materials and Technological Processes Group
Course/CS Responsible:	Master in Mechanical Engineering

Cycles of Study/Courses

Acronym	No. of Students	Study Plan	Curricular Years	Credits UCN	Credits ECTS	Contact hours	Total Time
MIEM	150	Syllabus since 2006/2007	3	-	6	39	162

Teaching language

Portuguese

Objectives

1. Background This course is justified after the students acquired basic knowledge in the various types of materials for mechanical engineering applications, because they are going to have a deeper knowledge about these materials. 2. Specific Aims Acquiring specific and technical knowledge about ceramic materials, polymers and polymeric matrix composites, to allow optimised selection of these materials. With this knowledge the students are able to select the most adequate materials for different mechanical projects that they are going to do in other units. 3. Previous Knowledge Generic knowledge about all types of materials (Materials Science and Engineering), namely; chemical bonding (Materials Science and Engineering), equilibrium diagrams (Mechanical Metallurgy), basic characteristics, mechanical tests and properties and materialography (Materials I and Mechanical Metallurgy). 4. Percentual Distribution Scientific component – 50% Technological component – 50% 5.

Learning outcomes and competences

At the end of the semester the students should have acquired basic and advanced engineering knowledge about ceramics, polymers and polymers matrix composites, namely: - Knowledge about the different ceramics, polymers and composites, used in the different brands of engineering, main applications and properties; - Be able to understand the mechanical, optical, thermal and electrical properties of these materials; - Be able to select the most suitable materials considering the desired application; - Capacity to perform different types of experimental work to collect data, interpretation and relations with the learned subjects. Perform small experimental projects using the learned materials, namely materials selection and production processes; - Capacities to collect and organize scientific information, using books, scientific papers, internet, databases, technical visits or interviews, elaboration of technical reports, posters and public oral discussions and presentations; - Capacity to do practical team works, presentation and discussion of the results obtained.

Working method

Presencial

Program

Part 1 - Ceramic Materials 1. General ceramic materials properties. Applications of traditional and technical ceramics. 2. Introduction to sintering. Solid state sintering and liquid phase sintering. 3. Ceramic materials processing. 4. Mechanical, thermal, and optical properties. 5. New materials and new applications. Future challenges. 6. Project and applications of ceramic materials. Infolitheracy session. Part 2 - Polymeric and polymeric matrix composites 1. Introduction to polymers. 2. Structure properties relations 3. Commercial important polymers 4. Polymers transformation processes 5. Polymers rigidity and resistance 6. Mechanical behaviour and transformation processes of composite materials

Mandatory literature

Lucas Filipe Martins da Silva, Fernando Jorge Lino Alves, António Torres Marques; Materiais de Construção, Publindústria - Edições Técnicas, 2013. ISBN: 978-989-723-049-3
Smith, William F.; Principios de ciência e engenharia dos materiais. ISBN: 972-8298-68-4
Crawford, Roy J.; Plastics engineering. ISBN: 0-7506-3764-1
Ehrenstein, Gottfried W.; Polymeric materials. ISBN: 1-56990-310-7(US)
António Torres Marques; Materiais Poliméricos
Gay, Daniel; Matériaux composites. ISBN: 2-86601-268-2
Michael F. Ashby; Materials selection in Mechanical Design, BH, 2011. ISBN: 978-1-85617-663-7
Sabu Thomas, Deepalekshmi Ponnamma, Ajesh K. Zachariah; Advances in Materials Science book series, Volume 1, CRC, 2012. ISBN: 9781926895154

Complementary Bibliography

German, Randall M.; Powder Metallurgy Science. ISBN: 1-878954-42-3
Lawn, B. R.; Fracture of brittle solids. ISBN: 0-521-09952-8
German, Randall M.; Liquid Phase Sintering. ISBN: 0-306-42215-8
Richerson, David W.; Modern ceramic engineering. ISBN: 0-8247-8634-3
Barsoum, Michel W.; Fundamentals of ceramics. ISBN: 0-07-114184-7
Ferreira, José M. G. de Carvalho; Tecnologia da pulverometalurgia. ISBN: 972-31-0974-3
Sabu Thomas, Neethu Ninan, Sneha Mohan, Elizabeth Francis; Advances in Materials Science book series, Volume 2, CRC, 2011. ISBN: 9781926895161

Teaching methods and learning activities

Classes are teached in the materialography and heat treatment laboratories, where after a short presentation of the subjects, the students use the available equipments to solve the presented problems. These classes are intended to promote a contact of the students with the selection process of ceramic and polymeric materials. In the classes of ceramic materials the students have to elaborate reports about simple experimental works of identification and processing ceramic materials. In the polymers part, the students have to identify different sets of polymeric materials, see some videos about transformation processes and visit one or two companies that work with polymeric materials. Some practical work is done regarding injection moulding and the characterization of the mechanical behaviour of the injected products.

Software

CES Edu PACK

keywords

Technological sciences > Engineering > Materials engineering

Evaluation Type

Distributed evaluation without final exam

Assessment Components

Designation	Weight (%)
Participação presencial	10,00
Trabalho escrito	60,00
Trabalho laboratorial	30,00
Total:	100,00

Amount of time allocated to each course unit

Designation	Time (hours)
Elaboração de relatório/dissertação/tese	67,00
Estudo autónomo	56,00
Frequência das aulas	39,00
Total:	162,00

Eligibility for exams

At least of 75% of the classes in each part (ceramics and polymers).

Calculation formula of final grade

Ceramic materials: 8 (8/20) Practical works: groups of 2/3 students TP1 - 30%; TP 2 - 30% (students cannot make the report corresponding to the classes that they missed). Laboratorial work (40%). The group elements are evaluated by the reports, classes' participation and oral presentation and discussion of the reports. Polymeric materials: 12 (12/20)

Examinations or Special Assignments

Not applied

Special assessment (TE, DA, ...)

Not applied

Classification improvement

Students must be submitted again to all the evaluation.