蚂蚁福利导航

蚂蚁福利导航 University
Leicestershire, UK
LE11 3TU
+44 (0)1509 222222
蚂蚁福利导航 University

Programme Specifications

Programme Specification

MEng (Hons) Mechanical Engineering (Students undertaking Part D in 2020)

Academic Year: 2020/21

This specification provides a concise summary of the main features of the programme and the learning outcomes that a typical student might reasonably be expected to achieve and demonstrate if full advantage is taken of the learning opportunities that are provided.

This specification applies to delivery of the programme in the Academic Year indicated above. Prospective students reviewing this information for a later year of study should be aware that these details are subject to change as outlined in our .

This specification should be read in conjunction with:

  • Summary
  • Aims
  • Learning outcomes
  • Structure
  • Progression & weighting

Programme summary

Awarding body/institution 蚂蚁福利导航 University
Teaching institution (if different)
Owning school/department Wolfson School of Mechanical, Electrical and Manufacturing Engineering
Details of accreditation by a professional/statutory body

Institution of Engineering and Technology (IET)

Institution of Mechanical Engineers (IMechE)

Final award MEng / MEng+DIS / MEng+DPS / MEng+DInts
Programme title Mechanical Engineering
Programme code WSUM03
Length of programme The duration of the programme is either 8 semesters, or 10 semesters if the students undertake the additional period of study normally between Parts B and C for the award of the Diploma of Industrial Studies, the Diploma of International Studies or the Diploma of Professional Studies.
UCAS code H302, H303
Admissions criteria

Date at which the programme specification was published Mon, 21 Sep 2020 17:51:03 BST

1. Programme Aims

Aims:

  • A1.   To prepare highly skilled graduates to pursue careers in Mechanical Engineering across a range of industries and activities including design, development, and analysis of complex systems
  • A2.   To provide as high-quality learning experience across a complete range of core subjects in order to give students the necessary technical skills to understand mechanical systems and solve engineering problems
  • A3.   To promote high-quality engineering practice by applying appropriate knowledge, skills, tools and techniques in the analysis, diagnosis and solution of industry-related problems.
  • A4.   To develop engineers capable of designing systems and managing the development process in order to deliver solutions that meet the requirements of customers
  • A5.   To impart an appreciation of the essential practical and commercial, ethical, business, sustainability and legal constraints of professional engineering
  • A6.   To support personal and professional development and foster creativity, develop design capability and teach the communication skills necessary to put ideas into practice

2. Relevant subject benchmark statements and other external reference points used to inform programme outcomes:

  • UK Quality Assurance Agency for Higher Education (QAA) – ‘Subject Benchmark Statement for Engineering’, (Oct.2019) 
  • Engineering Council (UK). ‘UK-SPEC, UK Standard for Professional Engineering Competence’, 3rd Edition, Jan 2014 

  • Engineering Council (UK). ‘The Accreditation of Higher Education Programmes’, 3rd Edition, May 2014 

3. Programme Learning Outcomes

3.1 Knowledge and Understanding

On successful completion of this programme, students should be able to demonstrate knowledge and understanding of:

  • K1.   The underpinning scientific, mathematical and engineering principles associated with mechanical engineering;
  • K2.   The characteristics of engineering materials, equipment and processes and an awareness of basis mechanical workshop practices;
  • K3.   Engineering principles, quantitative methods, mathematical and computer models;
  • K4.   Relevant codes of practice and regulatory framework and operational practices for safe operation of engineering processes;
  • K5.   Recognise the professional and ethic responsibilities of engineers;
  • K6.   Principles of industrial design, engineering design and manufacturing design;
  • K7.   Management techniques and an understanding of the commercial and economical context of the engineering business.
  • K8.   Developing technologies  in areas of specialization and understanding of concepts from areas peripheral to mechanical engineering, including a thorough appreciation of microprocessors and machine control software.

3.2 Skills and other attributes

a. Subject-specific cognitive skills:

n successful completion of this programme, students should be able to:

  • C1.   Apply the principles of engineering science in developing solutions to practical mechanical engineering problems;
  • C2.   Create new engineering components and processes through the synthesis of ideas from a range of sources using appropriate design principles, techniques and codes of practice;
  • C3.   Integrate, evaluate and make use of information and data from a wide variety of sources including other engineering disciplines;
  • C4.   Generate innovative designs by evaluating and responding to customer needs, including fitness for purpose and cost;
  • C5.   Analyse complex mechanical systems, processes and components;
  • C6.   Investigate and define engineering problems within the framework of economic, social, ethical and environmental issues and show the ability to assess risk;
  • C7.   Investigate new and emerging technologies using fundamental knowledge and learn new theories, concepts and methods in familiar situations.
b. Subject-specific practical skills:

On successful completion of this programme, students should be able to:

  • P1.   Apply computer-based and mathematical methods to the modelling and analysis of engineering system, components and products;
  • P2.   Define and solve practical engineering problems;
  • P3.   Use laboratory and basis workshop equipment in an appropriate and safe manner;
  • P4.   Generate ideas for new products and develop and evaluate a range of new solutions;
  • P5.   Gather and interpret information and evaluate designs;
  • P6.   Demonstrate the ability to manage the design process and apply appropriate techniques and codes of practice to the design of components and systems;
  • P7.   Prepare mechanical engineering drawings, computer-graphics and technical reports and give technically competent oral presentations;
  • P8.   Apply relevant codes of practice and industry standards;
  • P9.   Demonstrate the ability to work with technical uncertainty;
  • P10.  Demonstrate high levels of organizational and project management skills.
c. Key transferable skills:

On successful completion of this programme, students should be able to:

  • T1.   Demonstrate a high level of numeracy;
  • T2.   Search and retrieve information, ideas and data from a variety of sources;
  • T3.   Adopt systematic approach to the solution of unfamiliar problems;
  • T4.   Select and analyse appropriate evidence and data to solve problems;
  • T5.   Solve problems applying engineering techniques and tools;
  • T6.   Communicate effectively by means of technical reports, papers, graphical aids, interpersonal and presentational skills;
  • T7.   Design and implement basic computer based information systems;
  • T8.   Organise and manage time and resources effectively: develop work plans, take responsibility for their execution;
  • T9.   Undertake most of the technical roles within a team and exercise leadership;
  • T10.  Plan self-learning and improve performance, as the foundation for lifelong learning.

4. Programme structure

4.1    Part A - Introductory Modules

Semester 1 and 2 

Compulsory modules (100 credits)

Code Title Credits
MAA310 Mathematics for Mechanical Engineering (Sem 1: 10 credits; Sem 2: 10 credits) 20
MMA101 Statics and Dynamics (Sem 1: 10 credits; Sem 2: 10 credits) 20
MMA508 Engineering Principles & Professional Skills (Sem 1: 10 credits; Sem 2: 10 credits) 20
MMA604 Materials & Manufacturing Processes (Sem 1: 10 credits; Sem 2: 10 credits) 20
MMA800 Thermodynamics and Fluid Mechanics (Sem 1: 10 credits; Sem 2: 10 credits) 20

 Semester 1

Compulsory Modules (10 credits)

Code Title Credits
MMA901 Electronic Systems for Mechanical Processes 10

Semester 2

Compulsory Modules (10 credits)

Code Title Credits
MMA100 Mechanics of Materials 10

 

4.2 Part B  - Degree Modules

 Semester 1 and 2

Compulsory Modules (20 credits)

Code Title Credits
MMB300 Engineering Computation (Sem 1: 5 credits; Sem 2: 5 credits) 10
MMB500 Application of Engineering Design: Industry Based Project (Sem 1: 5 credits; Sem 2: 5 credits) 10

Semester 1

Compulsory Modules (50 credits)

Code Title Credits
MAB110 Mathematics for Mechanical Engineering 10
MMB100 Mechanics of Materials 2 10 
MMB101 Engineering Dynamics 2 

10 

MMB104  Control Engineering  10 
MMB800  Thermodynamics 2  10 

Semester 2

Compulsory modules (50 credits)

 

Code Title Credits
ELB045 Electrical Power & Machines 10
MMB403 Design of Machine Elements 10
MMB404 Computer Aided Design, Manufacture and Test (CADMAT) 10
MMB801 Heat Transfer 10
MMB802 Fluid Mechanics 10

 

4.3    Part I – Optional Placement Year

 

 

Code Title
WSI010 DIS Industrial Placement (non-credit bearing)
WSI020 DPS Industrial Placement (non-credit bearing)
WSI035 DIntS Industrial Placement (non-credit bearing)

 

For candidates who are registered for the Diploma in Industrial Studies (DIS), Diploma in Professional Studies (DPS) or Diploma in International Studies (DintS), Part I will be followed between Parts B and C or Part C and D and will be in accordance with the provisions of Regulation XI and Regulation XX.

 

4.4 Part C - Degree Modules  


Students MUST choose 20 credits of options (O) in Semester One and 30 credits in Semester Two.

TWO modules (20 credits) must be selected from Group A or Group B (both from the same group), OR ONE module from Group A or B and ONE module from Group C.

ONE module (10 credits) must be selected from each of Group D, E, F and G.  Modules in Group D and E are paired with modules in Part D.

Semester 1 and 2


Compulsory Modules (50 credtis)

Code Title Credits
WSD550 Individual Project (Sem 1: 20 credits; Sem 2: 30 credits) 50

 Semester 1


Compulsory Modules (20 credits)

Code Title Credits
WSC200 Engineering Management: Finance, Law and Quality 10
WSC900 Computer Control and Instrumentation 10

Optional Modules (students should select modules totalling 20 credits)

 

Code Title Credits Group
WSC801 Advanced Heat Transfer 10 OA
WSC804 Energy Systems Analysis 10 OA
WSC910 Laser Materials Processing 10 OA
WSC104 Robotics and Control 10 OB
WSC107 Contacts Mechanics: Tribology 10 OB
WSC911 Industrial Machine Vision 10 OB
LAN*** University Wide Language 10 OC

 

Semester 2

 

Optional Modules (Students should select modules totalling 30 credits)

 

Code Title Credits Group
WSC101 Vibration and Noise 10 OD (1a)
WSC105 Kinematics and Dynamics of Machinery 10 OD (1b)
WSC106 Finite Element Analysis 10 OD (1c)
WSC802 Computation Fluid Dynamics 1 10 OD (1d)
MPC012 Polymer Engineering - Processing and Manufacture 10 OD (1e)
WSC301 Computer Aided Engineering 10 OF
WSC803 Ballistics and Rocket propulsion 10 OF
MPC014 Materials in Service 10 OF
MPC012 Fracture and Failure 10 OF
LAN*** University wide Language 10 OF

 

All optional module choice is subject to availability, timetabling, student number restrictions and students having taken appropriate pre-requisite modules.

4.5 Part D - Degree Modules

Semester 1 and 2


Compulsory Modules (30 Credits)

Code Title Credits
WSD503 Product Engineering - Total Product Design (Sem 1: 10 credits; Sem 2: 20 credits) 30

Semester 1

Compulsory Modules (10 credits)

Code Title Credits
WSD403 Engineering Design Management 10

 

Optional Modules

Students need to select TWO deepening modules from Group B, these should followon from modules taken in Part C.

Students MUST select ONE module from Group A (either Semester 1 or Semester 2).

Language options can ONLY be taken in Semester 1 OR Semester 2, not both.

No more than ONE module may be taken from each group, with a total of 40 credits to be selected in Semester 2.

NOTE Students who elect to study WSD900 in Semester 1 only need to select 30 credits as this module runs over both semesters..

Students cannot register for modules already studied in Part C.

 

Semester 1 & 2

Group C

Code Title Credits
WSD900 Intelligent Automation Using Machine Learning (Sem 1: 10 credits; Sem 2: 10 credits) 20

 

Semester 1

Group A

Code Title Credits
WSD500 Project Leadership 10

Group B

Code Title Credits
WSD100 Structural Integrity (2c) 10
WSD101 Drive Train Dynamics (2b) 10
WSD102 Nonlinear Dynamics (2a) 10
 WSD802 Computational Fluid Dynamics 2 (2d)  10 
MPD014  Polymer Engineering 2 - Properties and Design (2e)  10 

 Group C

Code Title Credits
WSC606 Additive Manufacturing for Product Development 10
WS602 Sustainable Engineering 10
LAN*** University Wide Language 10

Semester 2

Group A

Code Title Credits
WSD407 Sustainable Product Design 10

Group C

Code Title Credits
WSD902 Laser and Optical Measurement 10

Group D

Code Title Credits
WSC301 Computer Aided Engineering 10
WSC800 Internal Combustion Engines 20
WSC803 Ballistics and Rocket Propulsion 10

Group E

Code Title Credits
WSC610 Healthcare Engineering 10
WSC700 Sports Engineering 10

Group F

Code Title Credits
WSD602 Industial Sustainability 10
WSD606 Additive Manufacturing and Reverse Engineering 10

Group G

Code Title Credits
LAN*** University Wide Language 10

All optional module choice is subject to availability, timetabling, student number restrictions and students having taken appropriate pre-requisite modules.

  

4.7  Studies Overseas

Students may choose to study Semester 1 (only) during their Part D, at an approved Overseas Higher Education Institution.  The mix of subjects of the learning programme must first be approved by the programme director for their course.  An acceptable learning programme should, where possible, include a group project and studies at an advanced/masters level. 

5. Criteria for Progression and Degree Award

5.1 Criteria for Progression and Degree Award 

Progression from Part A to Part B, from Part B to Part C and from Part C to Part D will be subject to the provisions set out in Regulation XX and in addition candidates must accumulate 120 credits and achieve an overall average of 55% in each part.

To qualify for the award of the Degree of Master of Engineering, candidates must accumulate 100 credits from Part D, and achieve an overall average of 55%.

 

5.2 Criteria for candidates who do not meet the requirements for Progression or the award of a Degree.

Any candidate who fails to achieve the criteria for progression from Part A to Part B, Part B to Part C and from Part C to Part D shall have the opportunity to repeat Module Assessments in accordance with the provisions of Regulation XX.  Alternatively, the candidate may elect to enter the BEng degree programme in Mechanical Engineering, before commencing Part C, provided that the candidate has satisfied the criteria for progression for that programme at the appropriate point.

In exceptional circumstances, any candidate who, having successfully completed Part C, is unable to commence or complete Part D or fails to achieve the criteria necessary for the award of the degree of MEng may, at the discretion of the Programme Board, be awarded the degree of BEng in Mechanical Engineering with a classification corresponding to the candidate’s achievements in the Part B and Part C assessments and determined on the basis of the weightings given for the BEng programme. 

 

 

              

6. Relative Weighting of Parts of the Programme for the Purposes of Final Degree Classification

Candidates’ final degree classification will be determined on the basis of their performance in degree level modules assessments in Parts B, C and D in accordance with the scheme set out in Regulation XX. The average percentage marks will be combined in the ratio Part B - 20, Part C - 40, Part D – 40 to determine the overall average percentage mark for the programme (the programme mark).

 

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