Hinoki（Chamaecyparis obtusa）平面模糊颗粒的产生机理及定量评价

IF 0.1 4区农林科学 Q4 MATERIALS SCIENCE, PAPER & WOOD Mokuzai Gakkaishi Pub Date : 2019-04-25 DOI:10.2488/JWRS.65.63

Hayato Furukawa, Y. Fujiwara, Y. Yanase, Y. Sawada, Y. Fujii

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引用次数: 0

摘要

采用正交实验方法对空气干燥的扁柏（Chamaecyparis obtusa）进行了切割实验，并通过数字图像数据处理提取出表面被识别为白色聚类的模糊颗粒。当年轮（φ）的接触角为0°时，模糊颗粒的相对面积取最大值6%至10%，随着接触角的增大而减小，然后当接触角为45°时，其相对面积取最小值3%至4%，最后随着接触角而增大。SEM观察表明，模糊颗粒团由射线周围的细胞组成，这些细胞在切割过程中被刮掉，但没有作为完整的碎屑分离，被移动的切割刃粉碎，并最终在切割后从木材表面升起。团簇的构象随年轮的接触角而变化。研究还表明，在切削过程中检测到的声发射事件的数量与模糊晶粒的相对面积呈正相关。

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Generation Mechanism and Quantitative Evaluation of Fuzzy Grain on Planed Surfaces of Hinoki (Chamaecyparis obtusa)

An orthogonal cutting experiment of air-dried hinoki (Chamaecyparis obtusa) was conducted and the fuzzy grain recognized as a whitish cluster on the finished surface was extracted by digital image data processing. The relative area of fuzzy grain took the maximum values of 6 to 10% for the contact angle of annual rings (φ) of 0°, decreased as the contact angle increased, then took the minimum values of 3 to 4% for the angle of 45°and finally increased in accordance with the contact angle. It was revealed from SEM observation that the cluster of fuzzy grain consists of cells around the ray that were scraped off in the cutting, but not separated as complete chips, were crashed by the travelling cutting edge, and were finally raised up from the wood surface after the cutting. The conformation of the cluster changed characteristically in accordance with the contact angle of annual rings. It was also revealed that the number of AE (Acoustic Emission) events detected in the cutting process correlated positively with the relative area of fuzzy grain.

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来源期刊

Mokuzai Gakkaishi 工程技术-材料科学：纸与木材

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>12 weeks