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ScienceONIn this study, it was studied whether a new measurement factor “frictional vibration” that occurs due to the material flow of the die and sheet metal in the flange area during deep drawing process, could be measured using an vibration sensor. The ...
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RISS 인기검색어
프레스 딥 드로잉 가공 시 플랜지부의 마찰진동 측정에 관한 기초연구 = A study on measuring friction vibration in flange area during deep drawing process
한글로보기부가정보
다국어 초록 (Multilingual Abstract)
In this study, it was studied whether a new measurement factor “frictional vibration” that occurs due to the material flow of the die and sheet metal in the flange area during deep drawing process, could be measured using an vibration sensor. The blank holder force acting on the flange area during drawing processing acts as a friction force in the opposite direction into which the sheet material flows and causes friction vibration. As the blank holder force increases, the friction force increases, and as the blank holder force decreases, the friction force also decreases. Because of this, friction vibration also increases and decreases in proportion to the size of the blank holder force. According to this theory, whether frictional vibration occurs was measured using a flange simulator and a vibration sensor. The initial pressure was created using a torque wrench, and it was confirmed that the amplitude increased by about 4 times when torque 6 Nm was increased. When the forming velocity was rapidly changed to 300 mm/min, the amplitude increased approximately 4 times. It was confirmed that the amplitude of frictional vibration according to the measurement location was greater the further away from the specimen. It was verified that a new measurement factor “friction vibration” in the flange area can be measured and used for online monitoring.
In this study, it was studied whether a new measurement factor “frictional vibration” that occurs due to the material flow of the die and sheet metal in the flange area during deep drawing process, could be measured using an vibration sensor. The blank holder force acting on the flange area during drawing processing acts as a friction force in the opposite direction into which the sheet material flows and causes friction vibration. As the blank holder force increases, the friction force increases, and as the blank holder force decreases, the friction force also decreases. Because of this, friction vibration also increases and decreases in proportion to the size of the blank holder force. According to this theory, whether frictional vibration occurs was measured using a flange simulator and a vibration sensor. The initial pressure was created using a torque wrench, and it was confirmed that the amplitude increased by about 4 times when torque 6 Nm was increased. When the forming velocity was rapidly changed to 300 mm/min, the amplitude increased approximately 4 times. It was confirmed that the amplitude of frictional vibration according to the measurement location was greater the further away from the specimen. It was verified that a new measurement factor “friction vibration” in the flange area can be measured and used for online monitoring.
참고문헌 (Reference)
1 김동훈 ; 이원규, "음향방출 신호를 이용한 프레스 불량품 자동 판단 알고리즘" 한국기계가공학회 9 (9): 76-82, 2010
2 윤재웅 ; 조상희 ; 이춘규, "각통드로잉 제품의 모서리 재료두께 변화에 영향을 미치는 인자에 대한 해석 연구" 한국금형공학회 14 (14): 22-29, 2020
3 Yun, J. W., "Stoffflussregelung beim Tiefziehen mittels eines optischen Sensors und eines Fuzzy-Reglers" University Hanover 2005
4 Kim, S. H., "Press Die Design Engineering" Daekwang Surim 2013
5 Lange, K., "Lehrbuch der Umformtechnik, Volume 3 Sheet metal forming" Springer 1975
6 Forstmann, U., "Induktive Wegsensoren zur Ueberwachung und Regelung des Blecheinzugs beim Tiefziehen" Technical University Berlin 2000
7 Strackerjahn, W., "Die Voraussage des Versagensfalls beim Tiefziehen rechteckiger Teile" University Hanover 1982
8 Bräunlich, H., "Blecheinzugsregelung beim Tiefziehen mit Niederhalter – ein Beitrag zur Erhoehung der Prozessstabilitaet" Technical University Chemnitz 2001
9 Behrens, B. A., "Acoustic emission—A promising and challenging technique for process monitoring in sheet metal forming" 29 : 281-288, 2017
10 Hao, S., "Acoustic Emission Monitoring of Sheet Metal Forming: Characterization of the Transducer, the Work Material and the Process" 101 (101): 124-136, 2000
1 김동훈 ; 이원규, "음향방출 신호를 이용한 프레스 불량품 자동 판단 알고리즘" 한국기계가공학회 9 (9): 76-82, 2010
2 윤재웅 ; 조상희 ; 이춘규, "각통드로잉 제품의 모서리 재료두께 변화에 영향을 미치는 인자에 대한 해석 연구" 한국금형공학회 14 (14): 22-29, 2020
3 Yun, J. W., "Stoffflussregelung beim Tiefziehen mittels eines optischen Sensors und eines Fuzzy-Reglers" University Hanover 2005
4 Kim, S. H., "Press Die Design Engineering" Daekwang Surim 2013
5 Lange, K., "Lehrbuch der Umformtechnik, Volume 3 Sheet metal forming" Springer 1975
6 Forstmann, U., "Induktive Wegsensoren zur Ueberwachung und Regelung des Blecheinzugs beim Tiefziehen" Technical University Berlin 2000
7 Strackerjahn, W., "Die Voraussage des Versagensfalls beim Tiefziehen rechteckiger Teile" University Hanover 1982
8 Bräunlich, H., "Blecheinzugsregelung beim Tiefziehen mit Niederhalter – ein Beitrag zur Erhoehung der Prozessstabilitaet" Technical University Chemnitz 2001
9 Behrens, B. A., "Acoustic emission—A promising and challenging technique for process monitoring in sheet metal forming" 29 : 281-288, 2017
10 Hao, S., "Acoustic Emission Monitoring of Sheet Metal Forming: Characterization of the Transducer, the Work Material and the Process" 101 (101): 124-136, 2000
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