Meral, G. Et Al. 2019. Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY , vol.101 , 1595-1610.

Meral, G., Sarıkaya, M., Mia, M., Dilipak, H., Şeker, U., & Gupta, M. K., (2019). Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA. INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY , vol.101, 1595-1610.

Meral, Guven Et Al. "Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA," INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY , vol.101, 1595-1610, 2019

Meral, Guven Et Al. "Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA." INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY , vol.101, pp.1595-1610, 2019

Meral, G. Et Al. (2019) . "Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA." INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY , vol.101, pp.1595-1610.

@article{article, author={Guven Meral Et Al. }, title={Multi-objective optimization of surface roughness, thrust force, and torque produced by novel drill geometries using Taguchi-based GRA}, journal={INTERNATIONAL JOURNAL OF ADVANCED MANUFACTURING TECHNOLOGY}, year=2019, pages={1595-1610} }