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采用电热红远外线干燥木材万米以上立方米的试验,提供了比较有价期的数据。测定了木材物理力学性能,分析了材质细胞组组的显微放大检测了。并结合远红外线的辐射特性,对木材吸收远红外线辐射性能问题作了研究;在生产试验的基础上确定了木材干燥的电力消耗,并将电力消耗与蒸汽消耗作了比较。作者认为:对木材干燥作多点红外辐射能有效地使材心温度迅速升高;并且,促使木材心部温度高于其表面温度。木材远红外线的辐射量达到90%,实现了木材内外同步干透的目的。
The use of electric heating far-infrared drying wood meters more than three meters of the test, provides a more valuable period of data. The physical and mechanical properties of wood were measured, and the microscopic examination of the material cell group was analyzed. Combining the radiation characteristics of far-infrared radiation, the research on the radiation of far-infrared radiation to wood was studied. Based on the production test, the electricity consumption of wood drying was determined and the power consumption and steam consumption were compared. The author believes that: for wood drying for more infrared radiation can effectively make the core temperature rose rapidly; and, to promote wood core temperature is higher than the surface temperature. Far-infrared radiation of wood reaches 90%, to achieve the purpose of drying wood inside and outside the same time.