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丹麥技術大學土木與機械工程系2024年招聘博士后

來 源:科學人才網
發(fā)布時間:2024-03-21

丹麥技術大學土木與機械工程系2024年招聘博士后

丹麥技術大學(丹麥文:Danmarks Tekniske Universitet;英文:Technical University of Denmark;簡稱:丹麥技術大學)坐落于北歐丹麥王國哥本哈根大區(qū),由著名物理學家奧斯特于1829年創(chuàng)建。

丹麥技術大學 是世界上最古老的科技大學之一,是丹麥培養(yǎng)高級工程技術人員的最主要學府。丹麥技術大學以其高水平的國際研究和廣受歡迎的畢業(yè)生在世界范圍內享有盛譽。作為歐洲卓越理工大學聯盟戰(zhàn)略成員與北歐五校聯盟成員,丹麥技術大學以豐富的人均教育資源(師生比1:4)、悠久的歷史、雄厚的科研實力著稱。

在2020年軟科世界學術排名中,工學排名為世界第33名,其中細分學科全球排名:生物技術(3)、環(huán)境科學與技術(8)、土木工程(12)、機械工程(17)、海洋工程(27)、交通科學與技術(33)、化學工程(47)。

Postdoc in Determining the Thermo-Fluid-Mechanical Effects of Non-Standard Laser Beam Profiles in Multi-Material Metal Additive Manufacturing via Numerical Dimulation

Technical University of Denmark - Department of Civil and Mechanical Engineering

Postdoc in Determining the Thermo-Fluid-Mechanical Effects of Non-Standard Laser Beam Profiles in Multi-Material Metal Additive Manufacturing via Numerical Dimulation

Applications are invited for a 2-year Post Doc position starting in Spring 2024 within the field of advanced numerical simulation of the impact of laser beam shaping in multi-material metal additive manufacturing processes. The position is part of the EU Horizon 2023 project titled “Enabling Laser Powder Bed Fusion for Large Scale Production of Multi-Material Components” – GlobalAM financed by EU carried out at the Department of Civil and Mechanical Engineering at Technical University of Denmark and coordinated by Robert Bosch, Germany.

The project considers the application of multiphysics and mechanical simulation of melt pool conditions during metal additive manufacturing of multi-material feedstocks using different beam shapes and profiles. This, among others, includes analyzing the impact of such beam profiles on the surface characteristics of printed powder layers with different powder sizes and arrangements in addition to the residual stress field.

The developed models will be validated against experiments designed by the consortium behind the project.

The candidate will be closely collaborating with another postdoctoral candidate who is responsible for developing part-scale and reduced order models of the process.

Responsibilities and qualifications

The objective is simulating the melt pool’s thermo-fluid-mechanical behavior under various processing conditions such as varying laser beam shapes and scanning patterns.

You will be responsible for the development of an advanced and calibrated multi-phase and multi-physics computational fluid dynamics model (CFD) plus a thermo-mechanical model with proper laser-material interaction modules to incorporate the non-standard beam profiles. Both two models will be in the deposition-scale.

Candidates should document experience within several of the fields: computational fluid mechanics, computational heat transfer, two-phase flow, flow in porous media as well as the finite volume method.

In addition to the direct project related research, you will conduct teaching related activities, disseminate your research through publication of papers in high-ranking journals and attending conferences and internationalize by a research stay abroad.

We envision that:

You have an open mind and can think creatively in a thermo-fluid-mechanical, computational, and programming context.

You are eager to elaborate on the newest research results, improve the ideas and test them by implementation.

You have experience within computational fluid dynamics as well as computational heat transfer from either developing your own codes and/or the use of commercial software packages such as OpenFOAM, ANSYS Fluent or Flow-3D.

As a formal qualification, you must hold a PhD degree (or equivalent).

Application procedure

To apply, please read the full job advertisement by clicking the 'Apply' button

Technology for people

DTU develops technology for people. With our international elite research and study programmes, we are helping to create a better world and to solve the global challenges formulated in the UN’s 17 Sustainable Development Goals. Hans Christian Ørsted founded DTU in 1829 with a clear mission to develop and create value using science and engineering to benefit society. That mission lives on today. DTU has 13,500 students and 6,000 employees. We work in an international atmosphere and have an inclusive, evolving, and informal working environment. DTU has campuses in all parts of Denmark and in Greenland, and we collaborate with the best universities around the world.

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