Biomaterials Engineering MEng (Hons)
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Master
In Loughborough
Description
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Type
Master
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Location
Loughborough
Overview
Biomaterials Engineering (MEng) is an exciting course delivered within the family of materials courses here at Loughborough.
It builds on our strengths in Materials and Bio-related disciplines across campus and offers students with a leaning towards bioscience and biotechnology a route into the important and growing area of materials that are bio-compatible and/or bio-derived and those that are designed for use in the biomedical sector. Particular application areas are in the health, sport and lifestyle sectors, in regenerative medicine, and in the context of a world-wide ageing population, biomaterials and medical device technology are developing fields that are set to continue to grow for many years.
By its nature this course is very interdisciplinary and also benefits from the expertise of our School of Sports, Exercise and Health Sciences and Chemical Engineering department (Regenerative Medicine).
Facilities
Location
Start date
Start date
Reviews
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I have got a great academic support from this university. I will like to invite you all to this university and enjoy the facilities.
← | →
Course rating
Recommended
Centre rating
Student
This centre's achievements
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 13 years
Subjects
- GCSE Mathematics
- Biomedical
- Engineering
- Technology
- Project
- University
- Materials
- Innovation
- Mechanics
- Mathematics
- Design
- Entrepreneurship
Course programme
What you'll study
Excited to learn more? For a taster of what you can expect to study on this course, take a sneak preview of some of the modules you may have the opportunity to study below.
The information below reflects the currently intended course structure and module details. Updates may be made on an annual basis and revised details will be published through Programme Specifications ahead of each academic year. Please see Terms and Conditions of Study for more information.
- Year 1
- Year 2
- Year 3
- Final year
Year 1
Semester 1
Anatomy and Physiology Core
Anatomy and Physiology
Structure and Properties of Materials Core
Structure and Properties of Materials
Thermodynamics and Phase Equilibria Core
Thermodynamics and Phase Equilibria
Introduction to Product Design and Materials Selection Core
Introduction to Product Design and Materials Selection
Semester 2
Introduction to Metal processing Core
Introduction to Metal processing
Mechanics for Materials 1 Core
Mechanics for Materials 1
Semester 1 & 2
Computer Aided Design (CAD) and Engineering Drawing Core
Computer Aided Design (CAD) and Engineering Drawing
Engineering Analysis and Modelling Core
Engineering Analysis and Modelling
Experimentation Core
Experimentation
Mathematics 1 & 2 Core
Mathematics 1 & 2
Year 2
Semester 1
Chemical & Biochemical Processes Core
Chemical & Biochemical Processes
Polymers : Structure and properties Core
Polymers : Structure and properties
Engineering Alloys Core
Engineering Alloys
Fracture Mechanics of Materials Core
Fracture Mechanics of Materials
Mathematics for Materials 3 Core
Mathematics for Materials 3
Principles of Marketing Core
Principles of Marketing
Semester 2
Polymers : Processing Core
Polymers : Processing
Biomaterials 1 Core
Biomaterials 1
Ceramics: Processing and Properties Core
Ceramics: Processing and Properties
Statistics Core
Statistics
Semester 1 & 2
Mechanics for Materials 2 Core
Mechanics for Materials 2
Experimental Skills Core
Experimental Skills
Year 3
Semester 1
Biochemical Engineering Core
Biochemical Engineering
Composite Materials Core
Composite Materials
Inclusive Design: Aging, Disability, and Vulnerability Core
Inclusive Design: Aging, Disability, and Vulnerability
Surface Engineering Core
Surface Engineering
Masters Individual Biomaterials Project Core
Masters Individual Biomaterials Project
Semester 2
Biomaterials 2 Core
Biomaterials 2
Electrochemical Technology Optional
Electrochemical Technology
Project Management Optional
Project Management
Semester 1 & 2
Biomedical Component Design Core
Biomedical Component Design
Language Studies Optional
Language Studies
With the approval of the Programme Director
Entrepreneurship and Innovation Optional
Entrepreneurship and Innovation
Other level 6 module from the University module catalogue with agreement of the Programme Director Optional
Other level 6 module from the University module catalogue with agreement of the Programme Director
Final year
Semester 1
Advanced Biochemical Engineering Core
Advanced Biochemical Engineering
Advanced Characterisation Techniques Core
Advanced Characterisation Techniques
Advanced Materials Dissertation Core
Advanced Materials Dissertation
Entrepreneurship and Innovation Optional
Entrepreneurship and Innovation
Semester 2
Materials Modelling Core
Materials Modelling
Advanced Biomaterials Core
Advanced Biomaterials
New Product Development Optional
New Product Development
Semester 1 & 2
Language Studies Optional
Language Studies
With the approval of the Programme Director
Advanced Materials Dissertation Optional
Advanced Materials Dissertation
Industrial Case Studies Optional
Industrial Case Studies
Level 7 module(s) from the University module catalogue Optional
Level 7 module(s) from the University module catalogue
Polymer Engineering - Properties and Design Optional
Polymer Engineering - Properties and Design
Product Innovation Management Optional
Product Innovation Management
Programme specification
Module specification
Biomaterials Engineering MEng (Hons)