广西大学学报(自然科学版)
廣西大學學報(自然科學版)
엄서대학학보(자연과학판)
JOURNAL OF GUANGXI UNIVERSITY (NATURAL SCIENCE EDITION)
2014年
5期
979-984
,共6页
王小纯%魏倩%蒋连琼%王俊阳
王小純%魏倩%蔣連瓊%王俊暘
왕소순%위천%장련경%왕준양
LS-DYNA%圆锯片%锯切%枝条%模拟
LS-DYNA%圓鋸片%鋸切%枝條%模擬
LS-DYNA%원거편%거절%지조%모의
LS-DYNA%circular blades%cawing hedge%branch%simulation
圆锯片在锯切绿篱枝条的过程中,需要保持高速旋转且会发生复杂变形,常规方法很难对锯切过程中圆锯片和绿篱枝条之间的相互作用进行观察和分析。为了能够安全获得锯切过程中圆锯片瞬态变形和受力,更加细致地研究其锯切机理,尝试采用有限元法进行研究。在ANSYS/LS-DYNA模块中对锯切过程进行显式动力学模拟,可以清晰观察整个锯切过程并得到圆锯片受力大小随时间的变化图像,与实验数据对比的误差未超过5%。对圆锯片齿尖上一点的位移进行测量,x、y方向的位移变化规律符合圆锯片的运动情况,z方向的最大振幅不足1 mm,说明在锯切过程中圆锯片的动态稳定性较好。对整个过程的研究表明,利用LS-DYNA对圆锯片锯切枝条过程进行显式动力学模拟,可以克服常规方法的不足,清晰地展现整个锯切过程,并得到每个时刻的圆锯片受力及变形情况,对今后的相关研究提供了一种有效途径。
圓鋸片在鋸切綠籬枝條的過程中,需要保持高速鏇轉且會髮生複雜變形,常規方法很難對鋸切過程中圓鋸片和綠籬枝條之間的相互作用進行觀察和分析。為瞭能夠安全穫得鋸切過程中圓鋸片瞬態變形和受力,更加細緻地研究其鋸切機理,嘗試採用有限元法進行研究。在ANSYS/LS-DYNA模塊中對鋸切過程進行顯式動力學模擬,可以清晰觀察整箇鋸切過程併得到圓鋸片受力大小隨時間的變化圖像,與實驗數據對比的誤差未超過5%。對圓鋸片齒尖上一點的位移進行測量,x、y方嚮的位移變化規律符閤圓鋸片的運動情況,z方嚮的最大振幅不足1 mm,說明在鋸切過程中圓鋸片的動態穩定性較好。對整箇過程的研究錶明,利用LS-DYNA對圓鋸片鋸切枝條過程進行顯式動力學模擬,可以剋服常規方法的不足,清晰地展現整箇鋸切過程,併得到每箇時刻的圓鋸片受力及變形情況,對今後的相關研究提供瞭一種有效途徑。
원거편재거절록리지조적과정중,수요보지고속선전차회발생복잡변형,상규방법흔난대거절과정중원거편화록리지조지간적상호작용진행관찰화분석。위료능구안전획득거절과정중원거편순태변형화수력,경가세치지연구기거절궤리,상시채용유한원법진행연구。재ANSYS/LS-DYNA모괴중대거절과정진행현식동역학모의,가이청석관찰정개거절과정병득도원거편수력대소수시간적변화도상,여실험수거대비적오차미초과5%。대원거편치첨상일점적위이진행측량,x、y방향적위이변화규률부합원거편적운동정황,z방향적최대진폭불족1 mm,설명재거절과정중원거편적동태은정성교호。대정개과정적연구표명,이용LS-DYNA대원거편거절지조과정진행현식동역학모의,가이극복상규방법적불족,청석지전현정개거절과정,병득도매개시각적원거편수력급변형정황,대금후적상관연구제공료일충유효도경。
In the process of cutting branches of a hedge, the circular saw blades rotate at a high speed and will deform.It is difficult to observe and analyze interactions between circular saw blade and hedge branches in the cutting process by conventional methods.The finite element method was chosen to study the details of the sawing mechanism and to the transient deformation and stress of the saw blade safely.By dynamics simulations of the cutting process in the ANSYS/LS-DYNA module, the cutting process was clearly observed and the force of the circular saw blades change over time was showed.Error of the force compared with the experimental data does not exceed 5%.By meas-uring the displacement of a point on the circular saw blade sharp it was showed that the displacement variations of x, y direction complies with the movement of circular saw.The maximum amplitude of z direction is less than 1 mm, suggesting that the dynamic stability of the sawing process is good. This research shows that the dynamic simulation of cutting process by using LS-DYNA could over-come the deficiencies of conventional methods, the whole cutting process can be revealed showed, and the force and deformation of the circular saw blades of each time can be obtained.This work can serve as a reference for the related research in the future.
