CAJ | 학술논문

采用盐模烧结工艺制备多孔玻璃材料，研究了孔隙率、孔径大小、厚度和后空腔深度等因素对吸声性能的影响。结果表明，提高孔隙率和增加厚度都有利于提高材料的吸声性能；孔径不易过大和过小，存在最佳值；后空腔深度对薄板的影响显著，而对厚板的影响较小。制备了孔径为0?18 mm，孔隙率为77?8％，厚度为30 mm的多孔玻璃，测试时无后空腔深度，材料的平均吸声系数为0?8，吸声系数大于0?5的起始频率为488 Hz，吸声系数曲线为平坦的高吸声曲线，这种多孔玻璃具有卓越的吸声性能。
채용염모소결공예제비다공파리재료，연구료공극솔、공경대소、후도화후공강심도등인소대흡성성능적영향。결과표명，제고공극솔화증가후도도유리우제고재료적흡성성능；공경불역과대화과소，존재최가치；후공강심도대박판적영향현저，이대후판적영향교소。제비료공경위0?18 mm，공극솔위77?8％，후도위30 mm적다공파리，측시시무후공강심도，재료적평균흡성계수위0?8，흡성계수대우0?5적기시빈솔위488 Hz，흡성계수곡선위평탄적고흡성곡선，저충다공파리구유탁월적흡성성능。
Porous glass material is prepared by burning glass powder and soluble salt. The effects of its porosity, pore diameter, thickness and cavity depth on sound absorption properties are experimentally studied. The study re-sults, given in Figs. 1 through 5, and their analysis show preliminarily that:the sound absorption properties of por-ous glass material are enhanced with its increasing thickness and porosity;its pore diameter should not be too large or too small and has its own optimal value;the effect of cavity depth of its thin panel on sound absorption properties is more significant than that of its thick panel. The porous glass sample whose pore diameter is around 0?18 mm, whose porosity ratio is 77?8% and whose thickness is 30 mm is prepared;it has no cavity depth during the experi-ment;its average sound absorption coefficient is 0?8;the porous glass material whose sound absorption coefficient curve is high and flat, whose sound absorption coefficient is more than 0?5 and whose initial frequency is 488 Hz has excellent sound absorption properties.