@inproceedings{oai:kyutech.repo.nii.ac.jp:00005815,
 author = {Noda, Nao-Aki and 野田, 尚昭 and Sakai,  H and Huang,  Y P and Sano, Yoshikazu and 佐野, 義一 and Takase, Yasushi and 高瀬, 康},
 book = {IOP Conference Series: Materials Science and Engineering},
 issue = {1},
 month = {Jun},
 note = {Greenhouses are capable of producing a variety of high-value crops year-round. A novel Japanese greenhouse design is gaining popularity because of its automated rolled-up ventilation system that is integrated into the roof. However, due to the frequent movement of the roll-up system, the plastic film deteriorates rapidly and typically lasts for only three or four months. In order to better understand the film deterioration, we studied the mechanics involved at the point of contact between the film and the metal greenhouse frame. We found that film deformation and failure were closely related to stretching and creasing, and these processes were observed at the microscope level. In this paper, the plastic film damage was investigated through the rolling contact analysis focusing on the pipe surface roughness. We found that at the inside film surface the larger strain is caused by the pipe surface roughness. This larger strain generates the wave deformation of the film, crease and line scar whose number increases with increasing the roughness of the arch pipe. The effects of pipe coating and perforated film are discussed to prevent the film damage., 2018 5th Global Conference on Polymer and Composite Materials (PCM 2018), April 10th - 13th, 2018, in Kitakyushu City, Kokura region, Japan},
 publisher = {IOP Publishing},
 title = {Rolled plastic film damage simulation considering surface roughness useful for greenhouse roof automatic ventilation},
 volume = {369},
 year = {2018},
 yomi = {ノダ, ナオアキ and サノ, ヨシカズ and タカセ, ヤスシ}
}