@article{oai:gunma-u.repo.nii.ac.jp:00003448,
 author = {山口, 誉夫 and 黒沢, 良夫 and 松村, 修二},
 issue = {665},
 journal = {日本機械学會論文集. C編},
 month = {Jan},
 note = {application/pdf, Journal Article, This paper deals with analysis for acoustic properties of three-dimensional closed sound fields having sound absorbing materials. In this analysis, the sound absorbers can have arbitrary shapes and can be located anywhere in the fields. The fields involve gas and sound absorbers which are modeled using Finite Element Method. A new three-dimensional element are developed for the absorbers. This element has two damping parameters which are complex density and complex volume elasticity. The elements are constructed, and then the corresponding simultaneously coupled equations are solved to obtain the frequency response. Further, a new expression is also derived to get distribution of contribution to modal damping for each element. These approachs are applied to three-dimensional rooms where the absorbers exist in different positions. The results are compared with the experiments carried out by Utsuno and are discussed.},
 pages = {1--7},
 title = {閉空間領域内に吸音体を有する三次元音場の減衰特性の有限要素解析},
 volume = {68},
 year = {2002}
}