The purpose of using coolant in machining is both to increase a tool life and also to prevent product deformation and thus, stabilize the surface quality by lubricating and cooling the tool and the machining surface. However, a very small amount of cutting mist should be used because chlorine-based extreme pressure additives are used to generate environmental pollutants in the production process and cause occupational diseases of workers. In this study, medical titanium alloy (Ti-6Al-7Nb) was subjected to a processing experiment by selecting factors and levels affecting cutting power in the processing of the Aerosol Dry Lubrication (ADL) method using vegetable oil. The machining shape was a slot to sufficiently reflect the effect of the cutting depth. As for the measurement of cutting force, the trend of cutting characteristics was identified through complete factor analysis. The factors affecting the cutting force of ADL slot processing were identified using the reaction surface analysis method, and the characteristics of the cutting force according to the change in factor level were analyzed. As the cutting speed increased, the cutting force decreased and then increased again. The cutting force continued to increase as the feed speed increased. The increase in the cutting depth increased the cutting force more significantly than the increase in the cutting speed and the feed speed. Through the reaction surface analysis method, the regression equation for predicting cutting force was identified, and the optimal processing conditions were proposed. The cutting force was predicted from the secondary regression equation and compared with the experimental value.

1. 서 론
    1.1 연구 배경
    1.2 연구 필요성 및 연구 목적
2. 실험 설계 및 데이터
    2.1 실험 설계
    2.2 실험 데이터 수집
    2.3 절삭력
    2.4 실험 데이터 분석
3. 분산분석
4. 중심합성법 분석
5. 절삭력 예측
6. 결 론
Acknowledgement
References

• Jeong Sik Han(창원대학교 산업시스템공학과) | 한정식
• Jong Yun Jung(창원대학교 산업시스템공학과) | 정종윤 Corresponding author