The 3ME Faculty trains committed engineering students and PhD candidates in groundbreaking scientific research in the fields of mechanical, maritime and materials engineering. The research within the Precision and Microsystems Engineering (PME) department is focused on developing the knowledge and technology for the realization of small devices and systems, including microsystems and microelectronics. This is a domain which has strong international industrial players in the Netherlands. The systems and products realized by the precision technology industry are driven by fast and focused performance advancement in terms of miniaturization and function density, improved precision and speed, and improved reliability. We believe that microsystems and their use in and integration with larger scale systems play an essential role in this performance driven domain. Within the Mechatronic System Design section, three main research areas are being developed: high precision positioning systems, micro- and opto-mechatronics and metrology. We aim to combine high quality research and
education, in order to provide both innovative design solutions and high quality engineers to the world-leading Dutch precision and mechatronic industry. The research within the programme is performed in close cooperation with partners within PME, DCMM and industry.
education, in order to provide both innovative design solutions and high quality engineers to the world-leading Dutch precision and mechatronic industry. The research within the programme is performed in close cooperation with partners within PME, DCMM and industry.
JOB DESCRIPTION
Funded by the Dutch government and industry partners, the HiPrins research project will push high-precision inkjet printing to new application fields and to new levels of accuracy.
We are looking for a PhD student to work on one of the work packages in this project: The study of thermal effects on the accuracy of inkjet printing of electronic circuits.
Initially, you will be studying etch-resistant printing on printed circuit boards of 0.5 x 0.5 metres. The ink used in this process is a hot-melt. The use of high temperature drops in a high-precision environment poses some interesting design challenges: How does one account for the thermal strain in the substrate? How does one maximize printing accuracy taking this thermal strain into account? What is the most efficient method to transport the heat from the printing area? In order to answer these questions, a combination of experimental research and multiphysics modelling will be required.
The carrier for your research will be Lunaris, an inkjet printing test-bed constructed by printer manufacturer OCE together with precision machine designer NTS. You will spend most of your time at the inkjet application centre of the High Tech Campus in Eindhoven, where Lunaris is located.
We are looking for a PhD student to work on one of the work packages in this project: The study of thermal effects on the accuracy of inkjet printing of electronic circuits.
Initially, you will be studying etch-resistant printing on printed circuit boards of 0.5 x 0.5 metres. The ink used in this process is a hot-melt. The use of high temperature drops in a high-precision environment poses some interesting design challenges: How does one account for the thermal strain in the substrate? How does one maximize printing accuracy taking this thermal strain into account? What is the most efficient method to transport the heat from the printing area? In order to answer these questions, a combination of experimental research and multiphysics modelling will be required.
The carrier for your research will be Lunaris, an inkjet printing test-bed constructed by printer manufacturer OCE together with precision machine designer NTS. You will spend most of your time at the inkjet application centre of the High Tech Campus in Eindhoven, where Lunaris is located.
REQUIREMENTS
This research combines experimental and theoretical/numerical aspects; we are therefore looking for a mechanical engineering PhD student who has a proven affinity for both.
Candidates for this project should have a Master’s degree in Mechanical Engineering as well as good analytical and communication skills.
Delft University of Technology is a bilingual organization; a good command of English (written and spoken) is essential; a good command of Dutch as well is preferred.
Keywords: mechatronics, engineering dynamics, multi-physics modelling, experimental research, mechanical design.
Candidates for this project should have a Master’s degree in Mechanical Engineering as well as good analytical and communication skills.
Delft University of Technology is a bilingual organization; a good command of English (written and spoken) is essential; a good command of Dutch as well is preferred.
Keywords: mechatronics, engineering dynamics, multi-physics modelling, experimental research, mechanical design.
CONDITIONS OF EMPLOYMENT
TU Delft offers an attractive benefits package, including a flexible work week, free high-speed Internet access from home, and the option of assembling a customized compensation and benefits package (the 'IKA'). Salary and benefits are in accordance with the Collective Labour Agreement for Dutch Universities.
APPLICATION
To apply, please send a detailed CV, references and a publication list along with a letter of application by 1 April, 2009 to Prof. Ir. R.H. Munnig Schmidt at: Application-3mE@tudelft.nl.
FURTHER INFORMATION
http://www.vacaturesindelft.nl/vacature.php?id=1379&lang=eng
Tidak ada komentar:
Posting Komentar