Dr Andreas Reimer
Remake Theme Lead
Digital Factory
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Publications
- Robotic machining : status, challenges and future trends
- Kiefer Drew, Luo Xichun, Reimer Andreas, Evans Dorothy
- ICAC 2023: 28th IEEE International Conference on Automation and Computing (2023)
- Prediction of residual stress in precision milling of AISI H13 steel
- Reimer Andreas, Luo Xichun
- Procedia CIRP Vol 71, pp. 329-334 (2018)
- https://doi.org/10.1016/j.procir.2018.05.036
- Numerical investigation of mechanical induced stress during precision end milling hardened tool steel
- Reimer Andreas, Fitzpatrick Stephen, Luo Xichun, Zhao Jie
- Precision Machining IX 9th International Congress on Precision Machining, ICPM 2017 Solid State Phenomena Vol 261 SSP, pp. 362-369 (2017)
- https://doi.org/10.4028/www.scientific.net/SSP.261.362
- A full factorial numerical investigation and validation of precision end milling process for hardened tool steel
- Reimer Andreas, Fitzpatrick Stephen, Luo Xichun
- 17th euspen International Conference & Exhibition (2017)
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Projects
- AFRC_CATP_1778_REMAKE TestBed_LMD PROCESS CONTROL DEVELOPMENT
- Zeng, Quanren (Principal Investigator) Reimer, Andreas (Researcher) Foster, Jim (Co-investigator) Devine, Ryan (Co-investigator) MacFadden, Conor (Co-investigator) Payne, Grant (Co-investigator)
- The existing LMD Hybrid machine at AFRC has the capability of producing or remaking various components with low material usage for complex geometries. We hope to exploit both experimental and modelling based strategies in order to FURTHER develop the AFRC’s capability in using LMD, with a particular focus on manufacturing process monitor and control.
The aim of this project is to develop both the control and understanding of the LMD-p process for the AFRC’s LMD Hybrid Machine by equipping it with different hardware/software integration. This would allow for improved functionality & reliability of the LMD process for future R&D projects.
The funding source for this project is from the government-funded High Value Manufacturing Catapult (HVM Catapult), which is a group of 7 manufacturing research centres in the United Kingdom and run & funded by Innovate UK since 2011. - 16-Jan-2020 - 15-Jan-2021
- AFRC_CORE_1439_Tooling Remanufacturing using LMD
- Zeng, Quanren (Principal Investigator) Reimer, Andreas (Co-investigator) Fitzpatrick, Stephen (Principal Investigator)
- 03-Jan-2020 - 30-Jan-2021
- Numerical modelling of laser metal deposition (LMD) process for melt pool temperatu re distribution and deposited tracks’ geometry prediction(Route-to-Impact project)
- Zeng, Quanren (CoPI) Qin, Yi (Principal Investigator) Tian, Yankang (Co-investigator) Reimer, Andreas (Administrator) Fitzpatrick, Stephen (Administrator)
- The project was focused on the development and validation of an integrated approach for the modelling of Laser Metal Deposition (LMD) for melt pool temperature distribution and deposited tracks’ geometry prediction for the fabrication of metal components by this additive manufacturing process.
The project was funded by the "Route to Impact" call from the Advanced Forming Research Centre, a High Value Manufacturing Catapult Centre which is funded and managed by Innovate UK. - 01-Jan-2019 - 15-Jan-2020
- INDUSTRIAL DOCTORATE CENTRE IN ADVANCED FORMING AND MANUFACTURE| Andreas Reimer (Industrial Supervisor)
- Fitzpatrick, Stephen (Co-investigator) Reimer, Andreas (Post Grad Student)
- Machining strategy improvement for forming dies
- 01-Jan-2015 - 01-Jan-2018
- INDUSTRIAL DOCTORATE CENTRE IN ADVANCED FORMING AND MANUFACTURE | Reimer, Andreas
- Luo, Xichun (Principal Investigator) Ion, William (Co-investigator) Reimer, Andreas (Research Co-investigator)
- 01-Jan-2014 - 17-Jan-2019
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Contact
Dr
Andreas
Reimer
Remake Theme Lead
Digital Factory
Email: andreas.reimer@strath.ac.uk
Tel: 444 7843