Sanli, T. V. Et Al. 2017. DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD. ASME International Mechanical Engineering Congress and Exposition , (Tama, Japan).

Sanli, T. V., Gürses, E., Çöker, D., & Kayran, A., (2017). DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD . ASME International Mechanical Engineering Congress and Exposition, Tama, Japan

Sanli, T. Et Al. "DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD," ASME International Mechanical Engineering Congress and Exposition, Tama, Japan, 2017

Sanli, T. V. Et Al. "DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD." ASME International Mechanical Engineering Congress and Exposition , Tama, Japan, 2017

Sanli, T. V. Et Al. (2017) . "DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD." ASME International Mechanical Engineering Congress and Exposition , Tama, Japan.

@conferencepaper{conferencepaper, author={T. Volkan Sanli Et Al. }, title={DEVELOPMENT OF ARTIFICIAL NEURAL NETWORK BASED DESIGN TOOL FOR AIRCRAFT ENGINE BOLTED FLANGE CONNECTION SUBJECT TO COMBINED AXIAL AND MOMENT LOAD}, congress name={ASME International Mechanical Engineering Congress and Exposition}, city={Tama}, country={Japan}, year={2017}}