农机化研究
農機化研究
농궤화연구
Journal of Agricultural Mechanization Research
2016年
7期
220-223
,共4页
甘蔗尾茎%力学特性%抗拉强度%抗压强度
甘蔗尾莖%力學特性%抗拉彊度%抗壓彊度
감자미경%역학특성%항랍강도%항압강도
sugarcane tail stalk%mechanical properties%tensile strength%compression strength
为获取甘蔗尾部茎秆的力学特性参数,利用精密型微控电子万能试验机对蔗尾生长点以下1 ~3 节茎秆的拉伸、压缩力学性能进行试验. 结果表明:蔗尾节位对抗拉、抗压强度的影响极其显著,抗拉、抗压强度由中部向尾部顶端生长点方向显著减小;蔗尾生长点以下1 ~3 节抗拉强度平均值分别为1.44、2.87、4.72MPa,拉伸弹性模量平均值分别为22.02、27.60、37.09MPa. 各节茎秆直径与抗拉强度呈二次函数负相关关系,随着直径的增大,抗拉强度减小. 抗压强度平均值分别为 4.04、5.22、 6.66MPa;压缩弹性模量平均值分别为 23.93 、25.37、24 .12 MPa;各节茎秆直径与最大压缩载荷之间呈幂函数正相关关系,随着直径的增大,最大压缩载荷增大. 试验结果为甘蔗收获断尾机械的设计及建立数学模型进行动力学仿真提供了理论依据.
為穫取甘蔗尾部莖稈的力學特性參數,利用精密型微控電子萬能試驗機對蔗尾生長點以下1 ~3 節莖稈的拉伸、壓縮力學性能進行試驗. 結果錶明:蔗尾節位對抗拉、抗壓彊度的影響極其顯著,抗拉、抗壓彊度由中部嚮尾部頂耑生長點方嚮顯著減小;蔗尾生長點以下1 ~3 節抗拉彊度平均值分彆為1.44、2.87、4.72MPa,拉伸彈性模量平均值分彆為22.02、27.60、37.09MPa. 各節莖稈直徑與抗拉彊度呈二次函數負相關關繫,隨著直徑的增大,抗拉彊度減小. 抗壓彊度平均值分彆為 4.04、5.22、 6.66MPa;壓縮彈性模量平均值分彆為 23.93 、25.37、24 .12 MPa;各節莖稈直徑與最大壓縮載荷之間呈冪函數正相關關繫,隨著直徑的增大,最大壓縮載荷增大. 試驗結果為甘蔗收穫斷尾機械的設計及建立數學模型進行動力學倣真提供瞭理論依據.
위획취감자미부경간적역학특성삼수,이용정밀형미공전자만능시험궤대자미생장점이하1 ~3 절경간적랍신、압축역학성능진행시험. 결과표명:자미절위대항랍、항압강도적영향겁기현저,항랍、항압강도유중부향미부정단생장점방향현저감소;자미생장점이하1 ~3 절항랍강도평균치분별위1.44、2.87、4.72MPa,랍신탄성모량평균치분별위22.02、27.60、37.09MPa. 각절경간직경여항랍강도정이차함수부상관관계,수착직경적증대,항랍강도감소. 항압강도평균치분별위 4.04、5.22、 6.66MPa;압축탄성모량평균치분별위 23.93 、25.37、24 .12 MPa;각절경간직경여최대압축재하지간정멱함수정상관관계,수착직경적증대,최대압축재하증대. 시험결과위감자수획단미궤계적설계급건립수학모형진행동역학방진제공료이론의거.
In order to obtain the mechanical characteristic parameters of sugarcane tail stalk, tensile and compression tests were conducted in the accurate micro-controlled electronic universal testing machine.The results indicated that sug-arcane tail node had extremely significant effects on the tensile strength and the compressive strength which decreased from the middle to the tail apical growing points, the results also showed that the average values of tensile strength of 1~3 nodes below the tail apical growing points were 1.44,2.87,4.72MPa,respectively, and their average values of tensile modulus of elasticity were 22.02,27.60,37.09MPa, respectively;It was quadratic function negative correlation between the diameter and the tensile strength of each nodes in the tail, and the tensile strength decreases with the increase of di-ameter;their average values of compressive strength were 4.04,5.22,6.66MPa, respectively, average values of com-pression modulus of elasticity were 23.93,25.37,24.12MPa, respectively, it was power function positive correlation be-tween the diameter and the maximum compression load of each nodes in the tail,and with the increase of diameter, the maximum compression load increases.The conclusions provide the theoretical foundation to design tail -breaking mecha-nism of sugarcane harvester and establish mathematical model for dynamic simulation.
