共查询到17条相似文献,搜索用时 125 毫秒
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以榆木、杨木和松木为试验材料,采用不同的测试模式、木材切面、放大倍数和切削加工方式对切削表面粗糙度进行测定评价,比较分析上述因素的影响。结果表明:测定模式对于粗糙度值有一定影响;同一树种、同一切面时,磨削表面粗糙度明显低于锯切和旋切,表面粗糙度值为锯切>旋切>磨削;榆木磨削加工中,显微构造明显部位的三切面粗糙度值为径切面>弦切面>横切面;放大倍数与木材显微构造有关,对表面粗糙度值有影响。基于试验结果提出,木材切削表面粗糙度测定评价宜采用先选定被测试件的评价部位,再确定满足精度等级的测试模式的两步法进行。 相似文献
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红松,水曲柳木材切削性质的研究 总被引:2,自引:4,他引:2
本文以线性模型方法,在红松、水曲柳二树种内,对影响切削阻力和表面粗糙度各因素进行了综合分析,并对木材的密度与切削阻力的关系做了初步的研讨。 相似文献
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激光切削在木材加工中的应用 总被引:3,自引:0,他引:3
本文综述了激光切削木材及木质材料的设备、切削机理.激光加工木材的优点及存在的问题,论述了影响激光切削的非设备方面的因素,列举了激光切削木材和木质材料的部分实例,以期为激光在木材加工中的研究及应用提供参考。 相似文献
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浅谈国内外木材表面粗糙度的研究现状及发展趋势 总被引:7,自引:0,他引:7
从国内外木材表面粗糙度研究内容、研究方向、测量方法和手段等方面论述了木材表面粗糙度研究现状与最新成果,并对木材表面粗糙度研究的未来发展方向提出了一些建议。 相似文献
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不同树种木材切削阻力变动模型 总被引:4,自引:1,他引:4
根据11种针叶树材和15种阔叶树材切削阻力的研究结果,推出不同树种木材主切削力变动模型,描述不同树种木材切削阻力在不同切削条件下变动的规律,并可对此种变动进行估计。模型由三部分组成:不同条件下切削阻力的平均水平;不同树种中切削厚度、刀具前角和木材含水率对切削阻力的影响;不同条件下木材密度与切削阻力的关系。 相似文献
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红松水曲柳木材密度与切削阻力关系的研究 总被引:3,自引:1,他引:2
本文继前一报告之后,对红松、水曲柳木材密度与切削阻力的关系做了进一步的研究。主要的结果是:(1)木材密度与切削阻力的关系因树种、切削方向、切削厚度、刀具前角和木材含水率之不同而有差异;(2)切削厚度、刀具前角和木材含水率对密度与切削阻力关系的影响有统一的趋势,而且此趋势可用简单的线性关系表述;(3)木材中密度以外的影响切削阻力因素的分布状况,从株内较大范围看,半径和树高方向不同部位间均未表现出显著差异。 相似文献
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木材切削阻力测定中刀具锋利程度的控制 总被引:1,自引:0,他引:1
本文从木材试样内切削阻力的变异和不同条件下代表一定刀具锋利程度差异的切削祖力差异的变异两个方面,论证了在直角自由切削主切削测定中,通过对木材试样的试切削进行刀具锋利度控制的有效性,并为此种方法的合理运用提供了依据。 相似文献
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15种阔叶树材中切削厚度、刀具前角和木材含水率对切削阻力的影响 总被引:4,自引:0,他引:4
15种阔叶树材切削厚度、刀具前角和木材含水率对切削阻力的影响进行了研究。针叶树材不同树种中此三因素对切削阻力影响的规律,在阔叶树材中有相似表现。在气干到充分吸湿阶段中,含水率对切削阻力影响的趋势在针叶材和阔叶材中有所不同。 相似文献
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为探究不同刀具前角与切削厚度对木塑复合材料直角自由切削加工时切削力、切削温度及表面粗糙度的影响,采用直角自由切削方式,以3种不同因素水平设计12组试验,使用高速摄像机、压电测力仪、红外热成像仪分别进行切屑形态拍摄、切削力和切削区域温度的测定。结果表明:刀具前角与切削厚度会直接影响切削力、切削温度及表面粗糙度,且随着切削厚度的不同会产生不同形态的切屑。切削力、切削温度越大,表面粗糙度值也越大,即加工表面质量越差;切削力与切削温度越小,则加工表面质量越好。使用较小前角刀具加工较大切削厚度时,产生连续型切屑时的切削力、切削温度及表面粗糙度均大于使用较大前角刀具进行较小切削厚度加工时产生不连续型切屑时的值。因此,在木塑复合材料实际生产加工过程中,粗加工时可选择大切削厚度快速切除多余材料,精加工时则采用较大刀具前角和较小切削厚度以获得更好的加工表面质量,提升生产效率。 相似文献
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为优化木竹材超高压水射流切割加工工艺参数,以红橡木和竹地板为对象,采用正交试验法,研究磨料流速、切割压力、进给速度、靶距对水射流加工试件表面粗糙度的影响,探索优化工艺参数。利用扫描探针式三维表面形貌测定法测量试件切割面的表面粗糙度值,分析三维表面形貌图。结果表明:红橡木磨料射流的试验影响因素排序为CADB;竹地板磨料射流的试验影响因素排序为BCAD。红橡木和竹地板优化工艺参数为:进给速度为250 mm/s,磨料流速为35 kg/h,靶距3 mm,切割压力为310 MPa。在此加工工艺条件下切割材料表面粗糙度相对较小,加工所得材料品质较好。 相似文献
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Zhao XuezengNortheast Forestry University 《林业研究》1992,3(1):75-81
The working processes,machining devices and tools,cutting amount,consumptionof materials,productivity and quality of products are directly affected wood surface roughness.This paper gives an extensive review of methods used previously to measure wood surfaceroughness,and concludes that computer vision is the most suitable.The preliminarystudy shows that computer vinon method has the advantages of a noncontact,three--dimensionalmeasurement,high speed and well correlates with stylus tracing method.The method can be usedin classification and in-time measurement of wood surface roughness after being improved. 相似文献
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Woodsurfaceroughnessisthemicrogeometrypropertycomposedbyalittlespacingandpeak-tovalley.Generallythesurfaceroughnesswascomposedbytheworkingmethodandotherfactorst123.Woodsurfaceroughnesswasnotonlyanimportantindexwhichmeasuredthesur-facesmoothextentofwoodproductandtheworkingqualitybutalsothewoodsur-fitceroughnessaffectedwoodsurfacefeel--lngandpsychologicalfeeling[3'4,lo,ll:.Th,'quantitativesurftlceproPertyparametersweretheimportantpartwhichmarkedthewoodsurfacevisualpsycho1ogicalmagni-tude,whichha… 相似文献
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The best methods for determining surface roughness in an industrial environment are of the noncontact variety, with reproduction of the profile. The objective of this work was to compare the roughness profile obtained by a contact stylus with a commercial laser displacement sensor (LDS). Measurements were done using 15 wood species with different densities and colors, based on which special triangle profiles were prepared. The accuracy of the laser sensor was examined by statistical analysis of roughness parameters measured from the profiles. Experimental results show that LDS profiles were imitated correctly. However, LDS accuracy depends on the scanned wood properties (density and color), installation position of the sensor, and profile shape. It was found that evaluation of dark and high-density wooden surfaces was imperfect.Part of this work was presented at the 50th Annual Meeting of the Japan Wood Research Society, Kyoto, April 2000; and at the 51st Annual Meeting of the Japan Wood Research Society, Tokyo, April 2001 相似文献
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15种阔叶树木材密度与切削阻力关系的研究 总被引:4,自引:2,他引:2
继11种针叶树材之后,对15种阔叶树木材密度与切削阻力的关系进行了研究。针叶树材试验中发现的主要规律在此得到进一步证实。 相似文献
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The measurement of wood surface roughness is performed once the machining process is completed. It requires considerable time since the measurement is performed at slow speed. The objective of this study was to develop a method to evaluate the surface roughness of paper birch wood while routing. For this purpose, a number of transducers were mounted on the router spindle and also in the proximity of the workpiece and cutting zone. Signals were acquired during a wide range of cutting conditions and analyzed. Statistical regression and artificial neural networks were employed to establish relationships between the signals and the actual cutting depth and surface roughness. The sensor selection and the feasibility of the sensor placement were determined. The models were subjected to a validation procedure to confirm their performance. The placement of the microphone at constant distance from the cutting zone was determined to be the most useful one. A model able to predict the surface roughness of routed paper birch wood regardless of the depth of cut was produced. The performance of the model was valid independently of the length of the workpiece. 相似文献