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Mode 합성법을 이용한 머시닝 센터의 모델링에 관한연구
노승훈,조희재 國立金烏工科大學校附設生産技術硏究所 1997 産業技術開發硏究 Vol.13 No.-
This paper describes a new approach to the analysis of the dynamic response of a machining center. This approach, refered to as the mode synthesis or component mode sysnthesis, has many advantages compared with the conventional approaches. These terms are employed to sysnthesize the individual modes to analyze the vibration mode of the complicated structures. In this study a machining center is considered to present the basic ideas of the method, and its utility is investigated. The proposed idea is proved to be a very accurate estimate of the natural frequencies of the combined structures as well as the modes of vibrations.
실외 여름철 온난화 및 가뭄 처리가 소나무 묘목의 이상생장 반응에 미치는 영향
조희재,박지은,김진서,김광중,김가은,김형섭,손요환 한국환경생물학회 2023 환경생물 : 환경생물학회지 Vol.41 No.4
Pinus densiflora is a fixed-growth coniferous species that elongates its shoot once a year and finishes growing in early summer. However, it may produce additional shoots in the same year in response to external stimuli, called abnormal shoot growth. This study investigated the effects of open-field summer warming and drought on the abnormal shoot growth of P. densiflora seedlings. In March 2022, two factorial combinations were constructed, including two temperature treatments (control and 4°C increase) and two precipitation treatments (control and drought), with five replicates for each combination. The temperature treatment was performed for 87 days from May 14 to August 8, 2022, and the precipitation treatment was performed for 33 days from May 14 to June 15, blocking 100% of the ambient rainfall. The abnormal shoot occurrence rate and leaf unfolding stages were measured in November, and the shoot and root collar diameter growth rates were calculated by comparing the seedling height and root collar diameter measured in August (after the cessation of treatment) and October (after the end of growing period) with the initial values (i.e., May 2022). The abnormal shoot occurrence rate significantly increased under the warming treatment, showing a 410.6% increase in the warming plots (38.4%) compared to the control plots (7.5%). There was no significant difference in the shoot and root collar diameter growth rate regarding warming and drought treatments. Abnormal shoots may have been affected by high temperatures by inducing early transition to the next ontogenetic stage. 소나무의 생장은 전년도에 형성된 겨울눈에서 가지가 한마디 발생하고 초여름에 생장을 종료하는 것이 일반적이다. 그러나 외부 자극을 받은 소나무는 이상생장 반응을 통해 추가로 새 가지를 신장시키기도 한다. 본 연구는 여름철 온난화 및 가뭄 처리가 소나무 묘목의 이상생장에 미치는 영향을 파악하는 것을 목표로 하였다. 2022년 3월, 2개 온도 조절 (대조, 4℃ 증가)×2개 강수 조절 (대조, 가뭄)×5개 반복의 실험구 (1.5 m×1.0 m) 총 20개를 조성하고 5월 14일부터 8월 8일까지 87일간 온난화 처리를, 2022년 5월 14일부터 6월 15일까지 33일간 강수를 100% 차단하는 강수 처리를 진행하였다. 실험이 종료된 2022년 11월에 이상생장여부 및 잎 발생 단계를 확인하였고, 처리가 끝난 8월과 묘목 생장이 종료되는 10월에 각각 묘고와 근원경을 측정하여 초기값 (5월) 대비 생장률을 계산하였다. 소나무 묘목의 이상생장 발생률은 온난화 처리에 따라 유의하게 증가하여 온난화 처리구 (38.4%)에서 대조구 (7.5%) 대비 410.6% 증가된 발생률을 보였으나, 묘고 및 근원경 생장률은 8월과 10월 모두에서 온난화 및 가뭄 처리에 따라 유의한 차이가 없었다. 따라서, 여름철 3개월 간 지속된 고온은 이상생장 발생률을 증가시키지만, 이상생장은 생장률에는 영향을 주지 않는 것으로 나타났다. 본 연구 결과 이상생장 가지의 발생은 고온에 따라 증가된 식물의 발달 속도와 다음 발생 단계로의 조기 전환에 의하여 유도된 것으로 보인다.
조희재,장한나,안지애,조민석,손요환 한국산림과학회 2019 Forest Science And Technology Vol.15 No.1
Physiological responses of 1-year-old Pinus densiflora and Larix kaempferi seedlings were measured under open-field warming and precipitation manipulation. Air temperature of warming plots was 3C higher, while precipitation manipulation plots received ±40% of the precipitation than control plots. Seedlings were planted in May, and temperature and precipitation were manipulated from June 2017. Total chlorophyll content (Chlt), net photosynthetic rate (Pn), transpiration rate (E), and stomatal conductance (gs) were measured between July and September 2017. For P. densiflora and L. kaempferi, Chl t increased by 11.75% and 11.64%, and Pn decreased by 9.14% and 2.17% under warming, respectively. E and g s were lower under warming in P. densiflora, but higher in L. kaempferi. The lower Pn in P. densiflora resulted from stomatal closure, while that of L. kaempferi resulted from reduced vitality. Lower precipitation increased Chlt and Pn by 11.64% and 2.66% for P. densiflora, and by 6.40% and 4.32% for L. kaempferi, respectively. Conversely, higher precipitation decreased Pn of P. densiflora by 5.72%, and decreased Chlt and Pn of L. kaempferi by 8.24% and 4.55%, respectively. These results can be attributed to concentrated precipitation. In this study, two species responded differently even when they were exposed to the same environmental conditions, and this was due to the species-specific mechanisms to water stress derived from the high temperature.