Machinability Investigations Based on Tool Wear, Surface Roughness, Cutting Temperature, Chip Morphology and Material Removal Rate during Dry and MQL-Assisted Milling of Nimax Mold Steel.

MLA

Binali, Rüstem, et al. “Machinability Investigations Based on Tool Wear, Surface Roughness, Cutting Temperature, Chip Morphology and Material Removal Rate during Dry and MQL-Assisted Milling of Nimax Mold Steel.” Lubricants (2075-4442), vol. 11, no. 3, Mar. 2023, p. 101. EBSCOhost, https://doi.org/10.3390/lubricants11030101.

APA

Binali, R., Demirpolat, H., Kuntoğlu, M., & Sağlam, H. (2023). Machinability Investigations Based on Tool Wear, Surface Roughness, Cutting Temperature, Chip Morphology and Material Removal Rate during Dry and MQL-Assisted Milling of Nimax Mold Steel. Lubricants (2075-4442), 11(3), 101. https://doi.org/10.3390/lubricants11030101

Chicago

Binali, Rüstem, Havva Demirpolat, Mustafa Kuntoğlu, and Hacı Sağlam. 2023. “Machinability Investigations Based on Tool Wear, Surface Roughness, Cutting Temperature, Chip Morphology and Material Removal Rate during Dry and MQL-Assisted Milling of Nimax Mold Steel.” Lubricants (2075-4442) 11 (3): 101. doi:10.3390/lubricants11030101.