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13 PhD Degree-Fully Funded at Brunel University, London, England

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Brunel University, London, England invites online Application for number of  Fully Funded PhD Degree at various Departments. We are providing a list of Fully Funded PhD Programs available at Brunel University, London, England.

Eligible candidate may Apply as soon as possible.

 

(01) PhD Degree – Fully Funded

PhD position summary/title: Mechanisms of Interoception and Stress in Medically Unexplained Symptoms

Throughout history, the interrelatedness of mind and body has been known to physicians and patients for millennia. Despite this, treating conditions that involve complicated iterations of this relationship has proved difficult and continues to constitute a barrier to the effective care of many patients in the medical system. One contributing factor is that many physicians and mental health professionals still have a dichotomous view of medical conditions as belonging to either pathologies of the “body” or of the “mind” .Medically Unexplained Symptoms refers to physical symptoms or conditions that do not have an identifiable organic cause or clear disease classification. Multiple psychological and biomedical theories have been proposed to explain MUS, highlighting dysfunctional stress responses across various physiological axes (such as the hypothalamic-pituitary-adrenal axis, inflammatory responses, and cardiovascular responses) and interoceptive dysregulation. The knowledge regarding the interaction between these mechanisms is still incomplete. Existing research often focuses on a single mechanism, stress test, physiological stress axis, or a specific MUS condition, leading to fragmented understanding.The overall aim of this project is to investigate mechanisms of MUS by means of multimodal data, by combining MRI, EEG and ECG, and behavioural paradigms which will aim to explore Interoceptive mechanisms and attentional biases. We will use an ’emotional stress induction’ procedure, to explore Interoception, central brain networks and attentional bias before and during emotional stress.The PhD student will play a crucial role in conducting in-depth research on the interplay between mind and body in conditions like Medically Unexplained Symptoms. Their responsibilities will include:- Conducting a comprehensive review of existing literature on MUS, related psychological and biomedical theories, and multimodal data research methods.- Assisting in the design and development of experimental protocols, particularly those involving MRI, EEG, and ECG data collection, as well as behavioural paradigms for exploring interoceptive mechanisms and attentional biases.- collecting and analysing multimodal data from study participants. This may involve operating MRI and EEG equipment, processing, and interpreting data- Preparing research papers and reports based on the findings of the study for publication in scientific journals and conferences.The PhD student’s work will be critical in advancing our understanding of MUS and may potentially contribute to the development of more effective treatment approaches for patients with these conditions. The project offers an exciting opportunity for the student to gain valuable research experience and make meaningful contributions to the field of medical science and patient care. Prospective PhD students with a background in Neuroscience, Psychology, or Neuroimaging are strongly encouraged to apply for the project. However, having this specific background is not an absolute requirement for consideration. The selection process will involve an interview with the Supervisor, during which candidates will have the opportunity to showcase their enthusiasm and interest in the topic of the project.

Deadline : 03/08/2025

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(02) PhD Degree – Fully Funded

PhD position summary/title: PhD Studentship in Experimental Particle Physics

The Particle Physics Group within the College of Engineering, Design and Physical Sciences at Brunel University London, Uxbridge, UK is offering a fully funded STFC studentships; to work on the Compact Muon Solenoid experiment (CMS) at the Large Hadron Collider at CERN. The studentship will begin on the 1st of October 2024.

The Particle Physics Group has been performing research in experimental particle physics for over 25 years, with its current focus being the CMS experiment at CERN, the MICE experiment at the Rutherford Appleton Laboratory, and Grid computing for particle physics (GridPP project).

Deadline : 31/05/2024

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(03) PhD Degree – Fully Funded

PhD position summary/title: EDEM Drag Force Model Investigation of Predict Pick-up Efficiency of Gravel

Applications are invited for one full-time PhD Studentship within Brunel Design School research and PhD programmes | Brunel University London funded by Bucher Municipal Ltd. Industrial partner and Brunel University London. The PhD studentship is for a period of three (3) years effective 1 October 2024. The successful applicant will receive an annual stipend (bursary) of £ 20,662 and the annual full-time tuition fee will be charged direct to the College.

The proposed project aims to investigate the experimental and EDEM drag force model in order to accurately predict the pick-up efficiency of gravels. By conducting a series of experiments and analysing the data obtained, it intends to assess the validity and reliability of the EDEM drag force model. This will involve comparing the predicted pick-up efficiency of gravels using the EDEM model with the actual experimental results. Through this investigation, it used to enhance the understanding of the underlying mechanisms governing gravel pick-up and improve the predictive capabilities of the EDEM drag force model.

Deadline : 01/05/2024

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(04) PhD Degree – Fully Funded

PhD position summary/title: Co-design and test an intervention to increase engagement in pulmonary rehabilitation in people with chronic obstructive pulmonary disease.

The PhD project will involve co-design and investigation of the feasibility and acceptability of conducting a full-scale cluster-randomised controlled trial of a very brief behaviour change approach, for healthcare professionals to assist conversations on pulmonary rehabilitation with people with COPD. The doctoral researcher will undertake both qualitative and quantitative research, including focus groups, co-design workshops, and mixed-method feasibility cohort study. With the support of Dr Nolan, they will lead on patient and public involvement activities and be a member of the study’s independent advisory group and trial steering committee.

Deadline : 05/04/2024

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(05) PhD Degree – Fully Funded

PhD position summary/title: Funded PhD Studentship in the Origins and Spread of Spiritual Beliefs

The Centre for Culture and Evolution at Brunel University London is offering 1 funded PhD studentship to study the origins and spread of spiritual beliefs. Human cultural capacities are uniquely expressed in spiritual belief, practice, and community. Our project applies cultural evolutionary theory (e.g., The Secret of Our Success, Henrich, 2017) to study how spiritual but not religious (SBNR) practitioners seek and build spiritual community, and how those communities shape the learning of new beliefs. Our project combines robust quantitative methods with context-rich observations and interviews, while engaging with participants and community groups to hear what our findings mean to them. We will test predictions derived from cultural evolutionary theory via a case study in the town of Glastonbury, England–a nexus of spirituality, home to diverse SBNR communities, and a destination for thousands of spiritual pilgrims annually.

Deadline : 31/03/2024

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(06) PhD Degree – Fully Funded

PhD position summary/title: Precipitation hardening by Fe-containing phases in recycled aluminium alloys

In this project you will develop a framework for the design of Al alloys with Fe-containing hardening phases, which may potentially open the route for the new class of Al alloys made with recycled feedstock. The research will include thermodynamic modelling, making the alloys, their testing and characterisation using most advanced facilities available at BCAST (TEM, HRTEM/HAADF, APM etc.). You will receive a multi-faceted training and should demonstrate the ability to learn, take initiative, adapt, and interact with the team members.

Deadline : 15/03/2024

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(07) PhD Degree – Fully Funded

PhD position summary/title: Development of high performance and highly impurity-tolerant recycled Al alloys

Aluminium recycling saves up to 95% energy and reduce 95% greenhouse gas emission compared to the primary aluminium production, therefore plays an important role in delivering Net Zero. The traditional Al recycling process requires large investment on the scrap Al sorting, and the extra cost in adding alloying elements and removing unwanted alloying elements to meet the customers specifications. Impurities is one of the biggest challenges for Al recycling. This project is aiming to develop the high impurity-tolerance and high-performance recycled Al alloys. This project includes both fundamental understanding and the technique development. The research work involves using different types of casting ways, mechanical properties test (such as tensile test, etc.) and some highly advanced microstructural characterization such as SEM (Scanning electron microscope), XRD (X-ray diffraction) and TEM (Transmission electron microscope) etc. After this 4-years training, the future career prospects will be very promising which is not just limited in metallurgy.

Deadline : 15/03/2024

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(08) PhD Degree – Fully Funded

PhD position summary/title: Advancing Aluminium Extrusion for Side Sill Structures: Integration, Digitalisation, and Sustainable Innovations

This research project will be in the area of production and manufacturing engineering, with a focus on digitalisation of aluminium extrusion. The aim is to bridge the gap in digitalisation of the extrusion process of 6xxx series aluminium alloys for targeted automotive applications. This will be pursued by developing and implementing integrated process modelling techniques and digital process control, while considering energy efficiency and economic analysis of digitalisation. The project will be part of the activities of the Constellium University Technology Centre (UTC) at Brunel and will be aligned with the objectives of the Materials Made Smarter Research Centre (MMSRC) in delivering multidisciplinary research in the area of Digital Manufacturing.

Deadline : 15/03/2024

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(09) PhD Degree – Fully Funded

PhD position summary/title: Understanding the role of alloying additions in the development of high-performance strain-induced precipitation hardenable AA6xxx series aluminium alloys,

The project is sponsored by Constellium, a global leading manufacturer of high-quality technically advanced aluminium products and systems. Utilizing innovative thermomechanical processing routes and alloying additions, Constellium achieves optimal combinations of strength, ductility, and crack resistance to further reduce vehicle weight. The project aim is to establish a greater understanding of the impact of alloying additions (e.g. Cu, Sn, In etc.) on the natural ageing retardation and precipitation kinetics of AA6xxx Al-alloys and, also, to understand, step-by-step the entire thermomechanical processing through advanced high – resolution TEM investigations.

The successful applicant will utilise a state-of-the-art Transmission Electron Microscope (TEM), to study, at atomic resolution, the secondary phases (precipitate) formed inside the Al matrix as a result of alloying additions, as well as dislocations and interaction between the precipitates and dislocations in different thermomechanical treatments conditions.

Deadline : 15/03/2024

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(10) PhD Degree – Fully Funded

PhD position summary/title: Nanoscale chemical characterisation of high strength Al-6XXX produced with recycled aluminium

The use of recycled aluminium is important for reducing CO2 emissions and moving towards a circular economy. It also presents challenges and opportunities arising from the distribution of other elements contained in the recycled aluminium. This project will focus on characterising the distribution of elements arising from using recycled aluminium. The successful applicant will utilise the newly installed LEAPTM 5000 to collect atom probe tomography data to reveal the 3D nano-scale chemical distribution in matrix and secondary phases, as well as at interfaces between these phases. The project will also provide the opportunity to use complementary techniques, including transmission electron microscopy and focussed ion-beam techniques.

Deadline : 15/03/2024

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(11) PhD Degree – Fully Funded

PhD position summary/title: Ignition chemistry of hydrogen fueled engines

The hydrogen powered internal combustion engines are vital to mitigate greenhouse gas emissions but they face several challenges with respect to abnormal knocking combustion. No dedicated hydrogen autoignition correlation that accounts for the chemical effects associated with equivalence ratio variations as well as the residual burnt gas fraction exists. This project aims at developing an autoignition correlation for hydrogen that will account explicitly for the chemical and residual gas effects under a wide range of pressures and temperatures.

Deadline : 15/03/2024

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(12) PhD Degree – Fully Funded

PhD position summary/title: Study of alloying additions on the extrusion of high-performance automotive aluminium alloys using advanced physical thermomechanical simulation

The automotive industry is shifting towards reducing fuel consumption and emissions. Constellium’s 6XXX series aluminium alloys, play a vital role in creating lighter, safer, and more fuel-efficient vehicles, especially for structural and safety components in battery electric vehicles (BEVs). To meet the requirements of these applications, Aluminium alloys must also ensure high strength and crashworthiness. The main objective of this research project is to utilize the Gleeble thermomechanical simulation system to optimize processing parameters for controlling the microstructure and texture of aluminium alloys, with the goal of achieving both enhanced crash performance and high strength. The research project entails utilizing the newly acquired GLEEBLE 3800-GTC Thermal-Mechanical Physical Simulation system to simulate extrusion processing. This aims to comprehend the evolution of microstructure and texture, which can be analysed using the state-of-the-art electron microscopy facilities available at the centre. These findings are expected to contribute significantly to the advancement of next-generation aluminium alloys.

Deadline : 15/03/2024

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(13) PhD Degree – Fully Funded

PhD position summary/title: BCAST/ Investigation of deformation modes in the development of manufacturing-induced property enhanced AA6xxx series Aluminium Alloys

This project is in partnership with Constellium who are leading the way in lightweighting the future generations of sustainable vehicles by the development of high strength AA6xxx series aluminium extrusion alloys, with tensile yield strength (Rp0.2) above 400MPa and >10% elongation. Innovative thermomechanical processing routes have been developed to achieve the best combinations of strength, ductility and crack resistance and further reduce weight. The process involves a pre-aging step carried out after extrusion and quenching followed by a plastic deformation processing step and subsequently a post-deformation artificial ageing. The deformation process increases dislocation density by interaction with the precipitates formed during pre-ageing.

We are looking for someone to drive forward the development of the thermomechanical processing technique by investigating the affect different deformation modes (e.g. stretching, electromagnetic pulse forming, cycle deformation, etc.) have on the final mechanical properties. In particular how forming processes used in the manufacturing of complex components can be utilized to induce beneficial mechanical property increases.

Deadline : 29/02/2024

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About Brunel University, London, England- Official Website

Brunel University London (BUL, and often known simply as Brunel) is a public research university located in the Uxbridge area of London, England. It was founded in 1966 and named after Isambard Kingdom Brunel, the Victorian engineer and pioneer of the Industrial Revolution. In June 1966, Brunel College of Advanced Technology was awarded a royal charter and became Brunel University; in 2014 the university formally adopted the name Brunel University London (BUL). The university is considered a British plate glass university.

Brunel is organised into three colleges, a structure adopted in August 2014. Brunel’s three constituent Academic Colleges include the College of Business, Arts and Social Sciences; the College of Engineering, Design and Physical Sciences; and the College of Health, Medicine and Life Sciences.

Brunel has over 16,150 students and 2,500 staff, and an annual income of £271.3 million (2021–22), of which £22.4 million was from research grants and contracts, with an expenditure of £311.9 million. The university won the Queen’s Anniversary Prize in 2011. BUL is a member of the Association of Commonwealth Universities, the European University Association, and Universities UK.

 

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