2017
DOI: 10.2172/1376487
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Additive Manufacturing of Wind Turbine Molds

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Cited by 28 publications
(25 citation statements)
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“…Nuttall et al (2016) in their research, digitally scanned a canoe plug and then 3D printed using BAAM. Post et al (2020) fabricated a 13 m long wind turbine mold with heating channels within it. Post fabrication, the assembly was mounted onto a steel frame.…”
Section: Possible Ways Of Joining Three-dimensional Printed Partsmentioning
confidence: 99%
“…Nuttall et al (2016) in their research, digitally scanned a canoe plug and then 3D printed using BAAM. Post et al (2020) fabricated a 13 m long wind turbine mold with heating channels within it. Post fabrication, the assembly was mounted onto a steel frame.…”
Section: Possible Ways Of Joining Three-dimensional Printed Partsmentioning
confidence: 99%
“…For the BAAM-printed casting pattern approach, the near-term future scenario assumes an average deposition rate of 45.36kg/hr (100lb/hr) [8], CF-ABS20 feedstock cost of $5.51/kg ($2.5/lb), operational cost of $75/hr, and interlaminar z-direction strength deficiencies are solved. The far-term future scenario further assumes an average deposition rate of 453.59kg/hr (1000lb/hr) [12], and no labor costs. The BAAM near-term future costs are thus estimated to be $5,468.44 for prototype and $808.41 for serial production, and the far-term future costs are estimated to be $4,031.87 for prototype and $799.79 for serial production.…”
Section: Future Scenariosmentioning
confidence: 99%
“…The Department of Energy's Oak Ridge National Laboratory (ORNL) worked with TPI Composites to use the BAAM (Big Area Additive Manufacturing) system to fabricate a wind turbine blade mold [72]. The fabricated wind turbine blade mold was produced in 16 additively manufactured sections, was 13 meters long, had heating channels integrated into the design, and was post fabrication mounted into a steel frame.…”
Section: Molds For Large Wind Turbine Airfoilsmentioning
confidence: 99%