ANFIS prediction modeling of surface roughness and cutting force of titanium alloy ground with carbon nanotube grinding wheel
Author:
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s41939-024-00411-9.pdf
Reference21 articles.
1. Ardabili S, Beszedes B, Nadai L, Szell K, Mosavi A, and Imre F (2020) Comparative analysis of single and hybrid Neuro-Fuzzy-based models for an industrial heating ventilation and air conditioning control system. Proceedings - 2020 RIVF international conference on computing and communication technologies, RIVF 2020., (February)
2. Baseri H, Alinejad G (2011) ANFIS modeling of the surface roughness in grinding process. World Acad Sci Eng Technol 73(1):499–503
3. Dambatta YS, Sayuti M, Sarhan AAD, Ab Shukor HB, Derahman binti NA, Manladan SM (2019) Prediction of specific grinding forces and surface roughness in machining of AL6061-T6 alloy using ANFIS technique. Ind Lubr Tribol 71(2):309–317
4. Dao TP (2016) Multiresponse Optimization of a compliant guiding mechanism using hybrid Taguchi-Grey based fuzzy logic approach. Math Probl Eng 2016:1–17
5. DuyTrinh N, Shaohui Y, Nhat Tan N, Xuan Son P, Duc LA (2019) A new method for online monitoring when grinding Ti-6Al-4V alloy. Mater Manuf Processes 34(1):39–53
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