Magisetty et al., 2019 - Google Patents
Additive manufacturing technology empowered complex electromechanical energy conversion devices and transformersMagisetty et al., 2019
- Document ID
- 3172521379552890535
- Author
- Magisetty R
- Cheekuramelli N
- Publication year
- Publication venue
- Applied Materials Today
External Links
Snippet
Additive manufacturing technology (AMT) is popularly known as 3-dimensional (3D) printing has emerged as a reliable, efficient, and cost-effective method for the production of complex 3D-physical models. Effectively coordinated advanced 3D printing technological …
- 238000004519 manufacturing process 0 title abstract description 210
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Magisetty et al. | Additive manufacturing technology empowered complex electromechanical energy conversion devices and transformers | |
| Pham et al. | Additive manufacturing and topology optimization of magnetic materials for electrical machines—A review | |
| Lamichhane et al. | Additive manufacturing of soft magnets for electrical machines—A review | |
| Naseer et al. | A review on additive manufacturing possibilities for electrical machines | |
| Selema et al. | Metal additive manufacturing for electrical machines: Technology review and latest advancements | |
| Wrobel et al. | A comprehensive review of additive manufacturing in construction of electrical machines | |
| Ghahfarokhi et al. | Opportunities and challenges of utilizing additive manufacturing approaches in thermal management of electrical machines | |
| Henke et al. | Challenges and opportunities of very light high-performance electric drives for aviation | |
| Selema et al. | Electrical machines winding technology: Latest advancements for transportation Electrification | |
| CN103480843A (en) | 3D printing method of composite parts based on three-cylinder former | |
| Szabó et al. | The key role of 3D printing technologies in the further development of electrical machines | |
| Tiismus et al. | Additive manufacturing of prototype axial flux switched reluctance electrical machine | |
| Wu et al. | Towards fully additively-manufactured permanent magnet synchronous machines: Opportunities and challenges | |
| Tiismus et al. | Design and performance of laser additively manufactured core induction motor | |
| Tiismus et al. | Technologies for additive manufacturing of electrical machines | |
| Selema et al. | Advanced Manufacturability of Electrical Machine Architecture through 3D Printing Technology | |
| Daniyan et al. | An interactive approach towards the development of an additive manufacturing technology for railcar manufacturing | |
| Urban et al. | Additive manufacturing of an electric drive a feasability study | |
| Hussain et al. | Recent Trends in Additive Manufacturing and Topology Optimization of Reluctance Machines | |
| Kulkarni et al. | Comparative life cycle assessment of injection molded and big area additive manufactured NdFeB bonded permanent magnets | |
| Sarap et al. | Utilization of additive manufacturing in the thermal design of electrical machines: A review | |
| Selema et al. | Material Engineering of 3D-Printed Silicon Steel Alloys for the Next Generation of Electrical Machines and Sustainable Electromobility | |
| Kareem et al. | An investigation on applications of additive manufacturing of electrical machines | |
| Podmiljšak et al. | The Future of Permanent-Magnet-Based Electric Motors: How Will Rare Earths Affect Electrification? | |
| Giannotta et al. | A review of additive manufacturing of soft magnetic materials in electrical machines |