谢菲尔德大学PhD Position in Investigation of supercritical CO2 usage to enhance productivity in milling operations for titanium alloys (sponsored by GKN Aerospace)申请条件要求-申请方
主办方
谢菲尔德大学
PhD直招介绍
About the Project
Are you looking to make a real impact in precision manufacturing? This EngD project offers an exciting opportunity to explore how Supercritical CO₂ (scCO₂) cooling can revolutionize machining processes for advanced materials, including titanium and additively manufactured components. By comparing scCO₂ with traditional cooling methods (MQL and flood cooling), this research will develop cutting-edge models to predict material behaviour, optimize cooling strategies, and drive innovation in aerospace manufacturing.
The Challenge
In aerospace and high-performance industries, machining plays a crucial role in surface integrity, tool performance, and part durability. However, to remain competitive, manufacturers must:
Increase Material Removal Rates (MRR) when machining titanium forgings.
Enhance surface quality and structural integrity of machined parts.
Reduce tool wear and improve overall machining efficiency.
Provide data-driven insights to guide the future of titanium machining.
Research Objectives
Conduct controlled experiments to measure thermal effects during machining under different cooling conditions.
Develop high-accuracy simulations to analyze material deformation, stress distribution, and microstructure evolution.
Create and validate a new material model tailored for cryogenic and cooled machining.
Optimize cooling process parameters to achieve the best balance of tool life and surface quality.
Compare the machining response of condition of supply via testing of additively manufactured (AM) vs. forged materials, helping industry partners make informed production decisions.
Evaluate the functional performance of machined parts, including fatigue life testing.
Industry Impact
This research will directly support GKN Aerospace, providing essential data to guide their next-generation titanium machining strategies. The findings will contribute to the development of new titanium machining processes, with plans for industrial implementation by 2029.
What You’ll Gain
Hands-on research experience with advanced material characterisation techniques and metallurgy of aerospace alloys.
Collaboration with leading aerospace manufacturers on real-world engineering challenges.
Expertise in cryogenic machining, materials science, and digital engineering.
A direct role in advancing sustainable, high-performance manufacturing technologies.
Be Part of the Future
This EngD is more than just research—it is an opportunity to pioneer the next generation of machining technologies. The work will play a key role in shaping future aerospace manufacturing strategies, improving efficiency, and ensuring high-quality production for years to come.
Benefits:
Earn While You Learn: Get a fully funded four-year postgraduate research degree (EngD or PhD) with an annual tax-free stipend of £28,000 (that’s equivalent to a £34,000 salary!). We’ve got your back so you can focus on your research.
Serious Funding: You’ll have access to a £35,000 research training support grant over four years. Whether it’s for experimental work, conference travel, or the latest computing gear, we’ll make sure you have the resources to succeed.
Work with the Best: Team up with industry giants in both the aerospace and manufacturing sectors. You’ll work on real-world projects that make a difference, gaining experience that sets you apart.
Launch Your Career: Our graduates have landed senior roles in top industries, thanks to the hands-on experience and industry connections you’ll build here.
World-Class Facilities: You’ll be working at the cutting edge, alongside experts in machining, assembly, and digital engineering. The tools and knowledge you’ll gain are second to none.
Tailored Training: Benefit from both group-based and personalised training activities. We’ll help you craft an individual training plan that aligns with your career goals.
Live in Sheffield: Enjoy life in one of the UK’s friendliest cities. With a vibrant social scene and supportive community, Sheffield is the perfect place to live and learn.
Go Pro: We’ll support you in gaining Chartered Engineer (CEng) status, ensuring you’re recognised for your professional expertise.
Learn More
MADE4Manufacturing CDT: www.sheffield.ac.uk/made4manufacturing
GKN Aerospace: https://www.gknaerospace.com/ .
谢菲尔德大学 PhD Position in Investigation of supercritical CO2 usage to enhance productivity in milling operations for titanium alloys (sponsored by GKN Aerospace)项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
Our students all receive an annual tax-free stipend of £28,000 (equivalent to a £34,000 taxable salary), their tuition fees covered, and access to a £35,000 training support grant over four years to use to support their research.
谢菲尔德大学Phd申请条件和要求都有哪些?PhD Position in Investigation of supercritical CO2 usage to enhance productivity in milling operations for titanium alloys (sponsored by GKN Aerospace)项目是不是全奖?有没有奖学金?下面我们一起看一下谢菲尔德大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
Requirements
A first-class or strong 2:1 degree in a relevant science or engineering subject such as Mechanical Engineering, Aerospace Engineering, Materials Science, Physics or Computer Science
If English isn’t your first language, you’ll need an overall IELTS score of 6.5 with at least 6.0 in each section
报名方式
申请链接
招生人信息
Pete Crawforth
邮箱:p.crawforth@amrc.co.uk
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