1 Minton, T., "Temperature of Internally-Cooled Diamond-Coated Tools for Dry-Cutting Titanium" 75 : 27-35, 2013
2 J. S. Dureja, "Performance Evaluation of Coated Carbide Tool in Machining of Stainless Steel (AISI 202) under Minimum Quantity Lubrication (MQL)" 한국정밀공학회 2 (2): 123-129, 2015
3 Bustillo, A., "New Methodology for the Design of Ultra-Light Structural Components for Machine Tools" 28 (28): 339-352, 2015
4 David Alan Dornfeld, "Moving Towards Green and Sustainable Manufacturing" 한국정밀공학회 1 (1): 63-66, 2014
5 장덕용, "Modeling and Parameter Optimization for Cutting Energy Reduction in MQL Milling Process" 한국정밀공학회 3 (3): 5-12, 2016
6 Sanchez, L. E. D. A., "Machining with Internally Cooled Toolholder Using a Phase Change Fluid" 41 : 847-851, 2016
7 Quan, Y., "Investigation of the Cooling Effect of Heat Pipe-Embedded Cutter in Dry Machining with Different Thermal Conductivities of Cutter/Workpiece Materials and Different Cutting Parameters" 79 (79): 1161-1169, 2015
8 Kramer, A., "Influence of the Lubricoolant Strategy on Thermo-Mechanical Tool Load" 7 (7): 40-47, 2014
9 Kaynak, Y., "Evaluation of Machining Performance in Cryogenic Machining of Inconel 718 and comparison with Dry and MQL Machining" 72 (72): 919-933, 2014
10 Zhang, C., "Effects of Internal Cooling Channel Structures on Cutting Forces and Tool Life in Side Milling of H13 Steel under Cryogenic Minimum Quantity Lubrication Condition" 83 (83): 975-984, 2016
1 Minton, T., "Temperature of Internally-Cooled Diamond-Coated Tools for Dry-Cutting Titanium" 75 : 27-35, 2013
2 J. S. Dureja, "Performance Evaluation of Coated Carbide Tool in Machining of Stainless Steel (AISI 202) under Minimum Quantity Lubrication (MQL)" 한국정밀공학회 2 (2): 123-129, 2015
3 Bustillo, A., "New Methodology for the Design of Ultra-Light Structural Components for Machine Tools" 28 (28): 339-352, 2015
4 David Alan Dornfeld, "Moving Towards Green and Sustainable Manufacturing" 한국정밀공학회 1 (1): 63-66, 2014
5 장덕용, "Modeling and Parameter Optimization for Cutting Energy Reduction in MQL Milling Process" 한국정밀공학회 3 (3): 5-12, 2016
6 Sanchez, L. E. D. A., "Machining with Internally Cooled Toolholder Using a Phase Change Fluid" 41 : 847-851, 2016
7 Quan, Y., "Investigation of the Cooling Effect of Heat Pipe-Embedded Cutter in Dry Machining with Different Thermal Conductivities of Cutter/Workpiece Materials and Different Cutting Parameters" 79 (79): 1161-1169, 2015
8 Kramer, A., "Influence of the Lubricoolant Strategy on Thermo-Mechanical Tool Load" 7 (7): 40-47, 2014
9 Kaynak, Y., "Evaluation of Machining Performance in Cryogenic Machining of Inconel 718 and comparison with Dry and MQL Machining" 72 (72): 919-933, 2014
10 Zhang, C., "Effects of Internal Cooling Channel Structures on Cutting Forces and Tool Life in Side Milling of H13 Steel under Cryogenic Minimum Quantity Lubrication Condition" 83 (83): 975-984, 2016
11 Frank Vollertsen, "Dry Metal Forming: Definition, Chances and Challenges" 한국정밀공학회 1 (1): 59-62, 2014
12 Jang, S. H., "Development of a Reconfigurable Micro Machine Tool for Microfactory" 190-195, 2008
13 Sharma, V. S., "Cooling Techniques for Improved Productivity in Turning" 49 (49): 435-453, 2009
14 Jozic, S., "Application of Compressed Cold Air Cooling: Achieving Multiple Performance Characteristics in End Milling Process" 100 : 325-332, 2015
15 Shu, S., "An Innovative Method to Measure the Cutting Temperature in Process by Using an Internally Cooled Smart Cutting Tool" 135 : 2013
16 Qiang Cheng, "A structure-based approach to evaluation product adaptability in adaptable design" 대한기계학회 25 (25): 1081-1094, 2011
17 Vicentin, G. C., "A Sustainable Alternative for Cooling the Machining Processes Using a Refrigerant Fluid in Recirculation Inside the Toolholder" 13 (13): 831-840, 2011