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- 01GQV6M2Z2WKVV71648HTMNAXG classification A1.
- 01GQV6M2Z2WKVV71648HTMNAXG date "2023".
- 01GQV6M2Z2WKVV71648HTMNAXG language "eng".
- 01GQV6M2Z2WKVV71648HTMNAXG type journalArticle.
- 01GQV6M2Z2WKVV71648HTMNAXG hasPart 01H1A2SFPGP3BG38FXJT9M0DZE.pdf.
- 01GQV6M2Z2WKVV71648HTMNAXG hasPart 01H1A2V11X0NTNFGM4FR0FD2MY.pdf.
- 01GQV6M2Z2WKVV71648HTMNAXG subject "Technology and Engineering".
- 01GQV6M2Z2WKVV71648HTMNAXG doi "10.1016/j.jmmm.2023.170426".
- 01GQV6M2Z2WKVV71648HTMNAXG issn "0304-8853".
- 01GQV6M2Z2WKVV71648HTMNAXG issn "1873-4766".
- 01GQV6M2Z2WKVV71648HTMNAXG volume "569".
- 01GQV6M2Z2WKVV71648HTMNAXG abstract "Nowadays, going beyond the 2D conventionally laminated structures is essential for improving the functionality of an electrical machine during the design process. Additive manufacturing (AM) offers unmatched 3D freedom for processing metal-based materials optimized for weight and cost effectiveness. Using this technology, new families of electrical machines can be manufactured which are difficult to be built using conventional methods. This paper is mainly targeting printing and testing of ferromagnetic material. Using different AM techniques, different parts are built using the silicon steel (Fe-3wt%Si) powder. The magnetic properties of these parts are measured and compared. Accordingly, a proper AM technology is identified as a promising method to manufacture magnetic materials. Additionally, quasi-static measurements are performed at low frequencies to compare the hysteresis losses of the 3D printed samples with those in conventional Fe-Si laminations. Results shows that good magnetic properties can be obtained from the 3D printed samples. Finally, the potential of 3D multi-material printing is highlighted for electrical machines.".
- 01GQV6M2Z2WKVV71648HTMNAXG author 1269d836-ee31-11ea-b3ae-96bae0cdb28a.
- 01GQV6M2Z2WKVV71648HTMNAXG author 5D398E8A-436D-11E4-90D2-E131B5D1D7B1.
- 01GQV6M2Z2WKVV71648HTMNAXG author D676CC12-58D0-11E5-AE1E-A9F7B4D1D7B1.
- 01GQV6M2Z2WKVV71648HTMNAXG author F55DB7E2-F0ED-11E1-A9DE-61C894A0A6B4.
- 01GQV6M2Z2WKVV71648HTMNAXG author F635E4B4-F0ED-11E1-A9DE-61C894A0A6B4.
- 01GQV6M2Z2WKVV71648HTMNAXG author d2741a8a-a15a-11eb-8c83-b5eb0e70e0e9.
- 01GQV6M2Z2WKVV71648HTMNAXG author urn:uuid:0296e026-2135-4f15-8289-ca4e4be53a83.
- 01GQV6M2Z2WKVV71648HTMNAXG author urn:uuid:08e661a9-748e-43f4-9010-bce214c16242.
- 01GQV6M2Z2WKVV71648HTMNAXG author urn:uuid:9acfa22b-8de7-400d-b1e6-f89a31c9ebfd.
- 01GQV6M2Z2WKVV71648HTMNAXG author urn:uuid:a149eebe-9687-40ef-881c-1e0d5f3a0460.
- 01GQV6M2Z2WKVV71648HTMNAXG dateCreated "2023-01-28T03:27:03Z".
- 01GQV6M2Z2WKVV71648HTMNAXG dateModified "2024-12-12T17:59:34Z".
- 01GQV6M2Z2WKVV71648HTMNAXG name "Evaluation of 3D-printed magnetic materials for additively-manufactured electrical machines".
- 01GQV6M2Z2WKVV71648HTMNAXG pagination urn:uuid:33324eda-ef59-4fd6-8e3e-5231fe4e9bdd.
- 01GQV6M2Z2WKVV71648HTMNAXG sameAs LU-01GQV6M2Z2WKVV71648HTMNAXG.
- 01GQV6M2Z2WKVV71648HTMNAXG sourceOrganization urn:uuid:59cc5a7f-ba29-4737-9711-3cb296de31b3.
- 01GQV6M2Z2WKVV71648HTMNAXG type A1.