The effects of ripple amplitude on heat transfer and fluid flow of X-lattice corrugated honeycombs
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Engineering,General Materials Science
Link
https://link.springer.com/content/pdf/10.1007/s11431-022-2378-2.pdf
Reference32 articles.
1. Hegab H A. Design for additive manufacturing of composite materials and potential alloys: A review. Manufact Rev, 2016, 3: 11
2. Ferrari L, Barbato M, Esser B, et al. Sandwich structured ceramic matrix composites with periodic cellular ceramic cores: An active cooled thermal protection for space vehicles. Composite Struct, 2016, 154: 61–68
3. Song J, Sun B. Coupled numerical simulation of combustion and regenerative cooling in LOX/Methane rocket engines. Appl Thermal Eng, 2016, 106: 762–773
4. Yan H B, Mew T, Lee M G, et al. Thermofluidic characteristics of a porous ventilated brake disk. J Heat Transfer, 2015, 137: 022601
5. Yan H B, Zhang Q C, Lu T J. An X-type lattice cored ventilated brake disc with enhanced cooling performance. Int J Heat Mass Transfer, 2015, 80: 458–468
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