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3D Hubs and Rolls Royce Work with Students on JetX 3D Printed Functional Jet Engine Model

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3D Hubs Student Grant finalist JetX are a team of aerospace engineering students working with Rolls Royce to create the world’s first functional 3D printed jet engine model to provide instant design feedback. The project started back in 2013 at the University of Glasgow when Chris Triantafyllou the President and Founder of JetX spotted the need for more hands-on learning to get people engaged with the subject. He also saw the need for future engineers to familiarize with concepts such as design for assembly and simulation analysis.

By building such an ambitious project and working with Rolls Royce, JetX hopes to show that engineering isn’t just writing down theorems and mathematical equations but about making a real impact on the work you do.

A side view of the X-plorer 1 project by JetX

The functional X-plorer 1 model is 75 cm long, with span diameter of 27 cm and weighs in at 8.1 kg. Over 50 young engineers have been tirelessly working on the project developing over 965 3D printed parts, 300 fasteners and 10 integrated sensors into one high-bypass turbofan model.

The entire design has been done from scratch with every single piece modeled in line with current aero-propulsion theories. The process of design, consultation, analysis, and execution is giving this team of young engineers hands-on training to become the next generation of innovators in the aerospace industry. Multiple considerations where taken into account when building the Xplorer-1.

“The first step in optimizing the design is to perform computational analyses to investigate how the flow changes throughout the engine, as well as the effect that specific forces and loading conditions have on the parts. When several designs are available for one part, CFD analyses are performed with tools that include Solidworks Flow Simulation, ANSYS Fluent & Star CCM+ on single stators, rotors or multi-stage segments to assess which one performs the best.” Chris Triantafyllou, President and Founder of JetX.

On top of this, the JetX team also carries out Finite Element Analyses to identify high-stress concentrations and assess whether a failure is likely under different loading conditions. The centrifugal forces generated can be significant even on a model of this size and failure scenarios are also modeled to assess whether an impact would be contained. Once designs are completed the parts are produced on a 3D printer, JetX currently use a desktop FDM printer utilizing materials such as PLA, ABS, Nylon, PETG and more for testing. The model was made exclusively from FDM printed parts, with the shortest print lasting just 7 minutes and longest being over 58 hours for the main PCU casing.

The original CAD model of the Xplorer-1 next to its 3D printed counterpart.

A key advantage to using an affordable manufacturing method was JetX’s ability to rapidly change parts when new they found new optimizations with their testing. An example was when a connection to the shaft was technically too weak as a 3D printed part but, they needed a quick solution to prove it could sustain the load.

It took 21 prototypes and only 7 days to get to the part needed. Chris is certain tha using another manufacturing method would have meant months and the cost would have been significantly higher The internal parts of the Xplorer-1 feature a custom built Engine Monitoring System (EMS) in which everything was developed in-house including the PCB designs, purpose-built software and user interface. The EMS consists of wireless transceivers, 2 mbed micro-controllers, temperature sensors, differential pressure sensor, LED rotational speed sensors, a vibration sensor and an airspeed sensor.

All of this culminates in the creation of a fireless engine in which students can pass compressed air through the engine to then take measurements with the wide array of sensors. You can then see the performance of the engine in front of you and electronically, making it easier to analyze each stage of the flow. This leads to more iterations and parts to be created, and through this process, the team continues to develop their skills for future career paths in engineering.

The EMS in action whilst the Xplorer-1 is set up for testing

The next step for the project will be to firstly continue to iterate and improve the engine, not only in its performance but, in the way it provides data on its performance. Rolls Royce has joined the project to help with the technical side of things including advising on industry practices to try to get the engines iterations as close to the real process as possible.

The project will look to further its engagement in STEM fields, encouraging students to get outside of the lecture environment and to apply their learning. Eventually, Chris would love to see the project turned into a competition where universities compete to build the most efficient engine to inspire others and to build on the success they have had in Glasgow.

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