|Qualification Type:||Professional Doctorate|
|Funding for:||UK Students, EU Students|
|Funding amount:||Not Specified|
|Placed On:||5th August 2022|
|Closes:||7th October 2022|
The project will investigate the formulation and action of dryer sheet coatings that is a major P&G business with sales in the region of $12 Billion Pa. Dryer sheets both assist the drying process and impart attractive texture and aromas to fabrics by transferring a formulated solid material from sheet to clothes within a tumble dryer.
The governing relationship between formulation design and transfer efficiency is not however well understood; better understanding would lead to less waste and more efficient drying, saving both material and energy.
Previous work between Birmingham and P&G studied drying both by measuring flows in working dryers [Drying Technology, 2021 doi.org/10.1080/07373937.2021.1918706] and by studying the transfer process at meso- and nano- scales, using AFM and micromanipulation probes, but was constrained to the current formulation to establish the basis of product action.
The new project will capitalize on the established measurement capabilities, fundamental knowledge, and possible Mode of Actions to investigate the relationship between product formulation, product manufacturing processes, and transfer efficiency between sheet and clothes. Different formulations will be studied to better understand the role of each component in the mixture.
The aim is to identify the relationship between manufacturing processes and product performance, leading for example to better understanding of how to control product tackiness, adhesion, and transfer profile. The fundamental engineering science that underpins product performance will be identified using leading-edge interfacial equipment, including AFM, DVS, nanoidentation, micromanipulation, and hyperspectral SWIR imaging system.
For informal enquiries please contact firstname.lastname@example.org , together with a CV. Candidates must have Home student status and have at least a 2.1 in a relevant degree discipline or a 2.2 plus an MSc. For details on the Engineering Doctorate scheme visit the homepage. Deadline October 7th.
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