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automotive PhD Projects, Programmes & Scholarships
We have 120 automotive PhD Projects, Programmes & Scholarships
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Development of a novel material model for machining prediction
Machining is arguably one of the most complex manufacturing and metal forming operations wherein the material experiences a severe deformation condition at very high temperature. Read more
Machining induced surface integrity in aerospace components
Machining and mechanical material removal is one of the key manufacturing operations in the automotive and aerospace industries to generate functional surfaces. Read more
Novel VO2 based memristor for neuromorphic computing and AI
Research Group:
Sustainable Electronic Technologies
Vanadium dioxide (VO. 2. ) is a unique material as it has a temperature driven insulator to metal transition just above room temperature resulting in more than 3 orders of magnitude change in resistivity. Read more
Development of Self-repairing metallic coatings
Research Group:
Mechanical and Process Engineering
This project aims to develop a novel metallic materials endowed with multimodal adaptive damage repairing capabilities that can be rapidly printed/deposited. Read more
Integrated computational materials engineering methodology development for customization of bone cement
Supervisors. Principal supervisor. Dr Engui Liu (XJTLU). Co-supervisor. Dr Weijian Han (JITRI). Co-supervisor. Dr Shiyao Huang (JITRI). Read more
Doctoral / Post-Doctoral Position in Computer Science
Doctoral / Post-Doctoral Position in Computer Science. (full-time, E 13 TV-L). Reference Number 2022/078. The start date is July 1st, 2022, or by mutual agreement. Read more
PhD opportunities in Intelligent Digital Economy and Society
Learn about industrial issues in need of innovative thinking, and propose industry focussed solutions routed in excellent cutting-edge research. Read more
Computing With Words – Modelling and Optimisation of Industrial Processes
Computing With Words (CWW) is inspired by the human ability to perform a wide variety of physical and mental tasks as well as make perception-based rational decisions. Read more
Modelling the formation and recycling of plastic composites
Polymer composites are used in a wide variety of applications including electronic devices, aerospace and automotive components, wind turbines and plastic packaging. Read more
Modelling and characterisation of chip formation and machining induced defects of nano-particle toughened Carbon Fibre Polymer Composites
Fibre reinforced composites with thermoset polymer matrix are replacing metallic engineering alloys due to their strength/weight ratio specially in the aerospace and automotive industries. Read more
Testing Robotics and Autonomous Systems Using Search-based Techniques
Research Group:
Applied Computing
Robotics and Autonomous Systems (RAS) are becoming indispensable for human productivity and it is estimated that there will be a £13 billion global market for RAS by 2025. Read more
Modelling and characterisation of chip formation and machining induced defects of nano-particle toughened Carbon Fibre Polymer Composites
Fibre reinforced composites with thermoset polymer matrix are replacing metallic engineering alloys due to their strength/weight ratio specially in the aerospace and automotive industries. Read more
Centre for Doctoral Training in Composites Science, Engineering and Manufacturing (CoSEM CDT)
Imagine structures that can morph their shape or have self-repair functionality embedded within their materials. Smart biomaterials that can be designed to adapt their chemical and mechanical properties in response to changes in physiological parameters. Read more
Efficient PEM fuel cells for portable applications
Proton exchange membrane (PEM) fuel cells are an efficient technology which can be used in a wide portable, automotive and stationary applications. Read more
Nanoscale imaging of the cathode electrodes used in PEM fuel cells
Proton exchange membrane (PEM) fuel cells are a promising clean power conversion technology as they are efficient and can operate at low temperatures. Read more