• EMAGISTER CUM LAUDE
University of Southampton

MEng Mechanical Engineering / Advanced Materials (4 years)

University of Southampton
In Southampton

Price on request
Prefer to call the centre directly?

Important information

Typology Master
Location Southampton
Start September
  • Master
  • Southampton
  • Start:
    September
Description

Introducing your degree
Materials play an important role in the modern world from transport to medicine. This integrated masters course in Mechanical Engineering / Advanced Materials will provide you with a solid skill set to design materials and surfaces from atoms to applications. The four-year Mechanical Engineering degree course could see you working alongside companies like Rolls-Royce, NCC and the MOD.

Facilities (1)
Where and when

Location

Starts

Southampton (Hampshire)
See map
University Road, SO17 1BJ

Starts

SeptemberNow taking bookings

Questions & Answers

Ask a question and other users will answer you

Who do you want to respond to your question/enquiry?

We will only publish your name and question

Achievements for this centre

2019

How do you get the CUM LAUDE seal?

All courses are up to date

The average rating is higher than 3.7

More than 50 reviews in the last 12 months

This centre has featured on Emagister for 3 years

What you'll learn on the course

Options
Credit
Mechanical Engineering
Design
Materials
Project
systems
Engineering

Course programme

Year 1

The first year provides a background in engineering science, emphasising mechanical engineering aspects. We have an award winning induction programme during which teams of new students work together to design and build projects. This exciting introduction provides the opportunity to get to know fellow students and gain hands-on experience. You will have the opportunity to take apart and put back together a 4 stroke engine and also test your skills in bioengineering through stabilising fractures in bones.

Semester One

All modules below are compulsory. No optional modules to be undertaken in Year 1

Core [?]

A core module is a module which must be taken and passed.

MATH1054Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mathematics for Engineering and the Environment

FEEG1001Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Design and Computing

FEEG1003Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

ThermoFluids

FEEG1004Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Electrical and Electronics Systems

SESM1016Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mechanical Systems Analysis

FEEG1002Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Mechanics, Structures and Materials

Semester Two

All modules below are compulsory. No optional modules to be undertaken in Year 1

Core [?]

A core module is a module which must be taken and passed.

MATH1054Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mathematics for Engineering and the Environment

FEEG1001Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Design and Computing

FEEG1003Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

ThermoFluids

FEEG1004Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Electrical and Electronics Systems

SESM1016Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mechanical Systems Analysis

FEEG1002Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Mechanics, Structures and Materials

Year 2

The second year covers the main mechanical engineering subjects with modules tailored to the mechanical engineering discipline. A total of 120 credits across two semesters. At the end of year two you have the opportunity to select from the wide list of options available for this theme.

Semester One

All modules below are compulsory. No optional modules to be undertaken in Year 2

Compulsory

FEEG2001Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Systems Design and Computing

FEEG2004Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Electronics, Drives and Control

FEEG2006Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Engineering Management and Law

MATH2048Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mathematics for Engineering and the Environment Part II

SESM2017Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Thermodynamics

Semester Two

All modules below are compulsory. No optional modules to be undertaken in Year 2

Compulsory

FEEG2001Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Systems Design and Computing

FEEG2002Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Mechanics, Machines & Vibration

FEEG2003Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Fluid Mechanics

FEEG2005Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Materials and Structures

FEEG2006Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Engineering Management and Law

Year 3

In the third year the course includes a Individual Project, which is compulsory for this theme. In addition to the modules below, students can choose further optional modules to be undertaken between Semester 1 and Semester 2 from the wide list of options available for the advanced materials theme. Follow the link for a generic list of optional modules available for year 3 of Mechanical Engineering courses

Semester OneCore [?]

A core module is a module which must be taken and passed.

FEEG3003Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Individual Project

Compulsory

SESG3024Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Manufacturing and Materials

Optional

SESM3031Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Automobile Systems

SESM3033Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Orthopaedic Biomechanics

FEEG3001Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Finite Element Analysis in Solid Mechanics

SESM3030Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Control and Instrumentation

FEEG3004Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Human Factors in Engineering

Semester TwoCore [?]

A core module is a module which must be taken and passed.

FEEG3003Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 30

Individual Project

Compulsory

SESM3032Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Heat Transfer and Applications

SESM3029Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Engineering Design with Management

SESM3028Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Biomaterials

Year 4

In the fourth year the course includes a Group Design Project, which is compulsory for this theme. In addition to the modules below, students can choose further optional modules to be undertaken between Semester 1 and Semester 2 from the wide list of options available for the advanced materials theme. Follow the link for a list of the optional modules available for year 4 of the Mechanical Engineering courses.

Semester OneOptional

SESG6042Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Microstructural Engineering for Transport Applications

SESG6044Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Microstructural and Surface Characterisation

SESG6034Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Surface Engineering

SESG6039Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Composites Engineering Design and Mechanics

SESA6075Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Aircraft Propulsion

SESM6040Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Thermofluid Engineering for Low Carbon Energy

SESM6032Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Sustainable energy systems, resources and usage

Core [?]

A core module is a module which must be taken and passed.

FEEG6013Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 45

Group Design Project

Semester TwoCompulsory

MANG6318Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Advanced Management

Optional

SESG6040Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Failure of Materials and Components

SESA6064Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 15

Aircraft Structures

Core [?]

A core module is a module which must be taken and passed.

FEEG6013Credit[?]

Credits are based on the Credit Accumulation and Transfer Scheme (CATS).

: 45

Group Design Project

Additional information

Study Locations: and Highfield Campus

Compare to choose better:
See all