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    基于抚育整枝目标的毛白杨枝条冲击切割性能适应性分析

    Adaptability analysis of impact-cutting performance of Populus tomentosa branches based on the goal of nurturing and pruning

    • 摘要:
      目的 为了提高毛白杨枝条冲击切割效率并改善切割效果,通过研究枝条内部因素对切割性能的影响,对毛白杨枝条的冲击切割性能进行适应性分析。
      方法 以我国华北地区林场广泛种植的速生林品种毛白杨的枝条为研究对象,使用自制的枝条切割平台进行枝条切割试验。在单因素试验的基础上采用Box-Benhnken中心组合试验方法,通过试验和理论研究枝条直径、含水率和分枝角度3个内部因素对峰值切割力和断裂效果的影响规律。
      结果 (1)建立了毛白杨枝条冲击切割性能的切割机理模型;(2)通过对模型进行优化分析,得到最优参数组合为枝条直径14.7 mm、含水率14.0%、分枝角度90°,该组合下的峰值切割力为370.48 N,断裂效果评分为4.6分,峰值切割力和断裂效果分数的预测值与实测值的相对偏差均小于5%;(3)峰值切割力与枝条直径呈线性增长关系,随枝条含水率的增大呈先增大后减小的趋势,随着分枝角度的增大而小幅增大。
      结论 选择树龄为7年时进行修枝作业,作业的季节选择秋冬季,可以获得较优的修枝质量,该研究可为速生林修枝装备的研发与林木抚育方式的优化结合提供数据支撑。

       

      Abstract:
      Objective In order to increase the impact-cutting efficiency and improve the pruning quality of Populus tomentosa branches, the adaptability of impact-cutting performance of P. tomentosa branches was analyzed by studying the influence of internal factors of the branches on the cutting performance.
      Method In this research, the branches of the fast-growing forest species P. tomentosa, which were widely planted in forest farms in northern China, were taken as the research object, and a self-developed branch cutting platform was used to carry out branch cutting tests. On the basis of single factor test, based on the Box-Benhnken central combination test method, experimental and theoretical studies were conducted to investigate the influence patterns of three internal factors, namely branch diameter, moisture content and branching angle, on the peak cutting force and fracture effect.
      Result (1) Cutting mechanism model of impact-cutting performance of P. tomentosa branches was established. (2) Through the optimization analysis of the model, the optimal parameter combination was obtained as branch diameter of 14.7 mm, moisture content of 14.0%, and branching angle of 90°. The peak cutting force under this combination was 370.48 N, and the fracture quality score was 4.6, and the relative deviation between predicted and measured values of peak cutting force and fracture quality score was both less than 5%. (3) Peak cutting force increased linearly with branch diameter, tended to increase and then decrease with increasing branch moisture content, and increased slightly with increasing branching angle.
      Conclusion Selecting the tree age of 7 years for pruning operation, and choosing the season of operation in autumn and winter can obtain better pruning quality. This study can provide data support for the research and development of pruning equipment for fast-growing forests in combination with the optimization of forest nursery methods.

       

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