METALLIC MATERIALS: PROPERTIES AND APPLICATIONS

Teaching in italian
METALLIC MATERIALS: PROPERTIES AND APPLICATIONS
Teaching
METALLIC MATERIALS: PROPERTIES AND APPLICATIONS
Subject area
ING-IND/21
Reference degree course
MATERIALS ENGINEERING AND NANOTECHNOLOGY
Course type
Master's Degree
Credits
6.0
Teaching hours
Frontal Hours: 54.0
Academic year
2024/2025
Year taught
2025/2026
Course year
2
Language
ENGLISH
Curriculum
Percorso comune

Teaching description

Teaching program is provisional and may be subject to changes

Metallurgy basics

The  course clarifies the microstructure, properties and  engineering applications of metallic alloys in the most significant fields ( for example aerospace, automotive, civil, structural,  biomedical).

 

After the course the students:

1)  will know the various types of major engineering alloys in term of microstructure, properties and applications

2) will be able to make decision for material selections for engineering design

3) will know the strengthening method, heat treatments and surface hardening/ modifications to apply with regard the required service properties   

Lectures, laboratory practice, individual project

The exam consists of two parts:

  1. first written part: the student is asked to illustrate theoretical topics
  2. second part: the student is asked to discuss the laboratory topics and  individual project with the lecturer.

 

Lectures:
1) Metallic alloys application in aerospace, automotive, civil, structural and biomedical fields. 3h

2) Aluminum Alloys: designation, compositions, typical applications, mechanical properties, strengthening methods, corrosion resistance. 5h

2_a  Case studies analysis to familiarize with the different Al alloys.

3) Magnesium Alloys: designation, compositions, typical applications, mechanical properties, strengthening methods, corrosion resistance. 4h

3_a Case studies analysis to familiarize with the different Mg alloys.

4) Titanium alloys: designation, compositions, typical applications, mechanical properties, strengthening methods, corrosion resistance. 5h

4_a Case studies analysis to familiarize with the different Ti alloys.

5) Nichel alloys and superalloys: designation, compositions, typical applications, mechanical properties, strengthening methods, corrosion resistance. 4h

5_a Case studies analysis to familiarize with the different Ni alloys.

6) Plain Carbon Steel: designation, non-heat treatable low carbon sheet steel, microalloyed steels, dual phase steels. Properties and Applications 4h

6_a Case studies analysis to familiarize with the different Plain carbon Steel .

7) Alloy Steels: classification, alloying element in Steel, Hardenability. Chemical compositions  Properties and applications 5h

7_a Case studies analysis to familiarize with the different alloy steel 

8) Stainless Steel: Chemical composition properties and applications 5h

7_a Case studies analysis to familiarize with the different stainless Steel 

9) Hardening Method and surface modification 3h

10) Shape memory and superplastic alloys. Applications 3h

 

Laboratory:

Analysis of microstructural features and properties of the alloys.

Students will be asked to apply the laboratory practice for solving specific questions related to the above topics.

 

Project:

In depth study of a component for aerospace/automotive/civil/structural/biomedical fields by using scientific literature.

 

[1] W.F.Smith, Structure and Properties of Engineering Alloys,McGraw-Hill

[2] M.Tisza, Physical Metallurgy for Engineers, ASM,

[3] I.J.Polmear, Light Alloys, BH

[4] G. Lutjering, J. C. Williams,'Titanium', Springer 2nd edition, New York

 

Semester

Exam type
Compulsory

Type of assessment
Oral - Final grade

Course timetable
https://easyroom.unisalento.it/Orario

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