{"title":"不同研磨工艺对米粉粉末性质影响的研究","authors":"Daitaro Ishikawa, Ikumi Sawa, Yasuyo Sekiyama, Akemi K Horigane, Tomoya Okunishi, Keiko Fujii, Tomoyuki Fujii","doi":"10.5458/jag.jag.JAG-2016_016","DOIUrl":null,"url":null,"abstract":"<p><p>The aim of this study was to clarify the change in the powder properties of rice flour depending on the milling process. Rice flour samples, which have gradual mechanical shock properties, were prepared using different milling methods. Furthermore, the correlation between the starch damage, owing to mechanical shock, and powder properties of rice flour was investigated. The particle size was changed gradually through each milling process; however, the change did not clearly correlate with starch damage. The results of the X-ray diffraction (XRD) pattern of nongelatinized samples showed the typical A-type structure of starch. The crystal structure of starch in rice flour may change to a disorder state with the progress of milling; thus, in this study, instead of crystallinity, we considered the disorder index (DI) calculated from the XRD intensity of samples. Relationship between DI and starch damage was confirmed with <i>R</i> <sup>2</sup> = 0.923. Therefore, the mechanical shock caused by the milling process contributes to the crystal state of starch. The parameter <i>q</i> <sub>m</sub> calculated from the Guggenheim-Anderson-de Boer (GAB) equation of each sample corresponded to the DI. This result suggested that the sorption site of rice flour decreased, and a positive correlation was observed between the parameter <i>K</i> and DI. Thus, the interaction between the rice flour and water molecules weakened because of the mechanical shock. In addition, the use of a SEM image supports the insight that the change in parameter <i>K</i> may reflect the structural change in the solid phase. These results demonstrated that the change in powder properties of rice flour caused by mechanical shock of the milling could evaluate quantitatively.</p>","PeriodicalId":14999,"journal":{"name":"Journal of applied glycoscience","volume":null,"pages":null},"PeriodicalIF":1.2000,"publicationDate":"2017-11-20","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://ftp.ncbi.nlm.nih.gov/pub/pmc/oa_pdf/f6/fc/JAG-64-109.PMC8056928.pdf","citationCount":"0","resultStr":"{\"title\":\"Study on the Change in Powder Properties of Rice Flour by Different Milling Processes.\",\"authors\":\"Daitaro Ishikawa, Ikumi Sawa, Yasuyo Sekiyama, Akemi K Horigane, Tomoya Okunishi, Keiko Fujii, Tomoyuki Fujii\",\"doi\":\"10.5458/jag.jag.JAG-2016_016\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><p>The aim of this study was to clarify the change in the powder properties of rice flour depending on the milling process. Rice flour samples, which have gradual mechanical shock properties, were prepared using different milling methods. Furthermore, the correlation between the starch damage, owing to mechanical shock, and powder properties of rice flour was investigated. The particle size was changed gradually through each milling process; however, the change did not clearly correlate with starch damage. The results of the X-ray diffraction (XRD) pattern of nongelatinized samples showed the typical A-type structure of starch. The crystal structure of starch in rice flour may change to a disorder state with the progress of milling; thus, in this study, instead of crystallinity, we considered the disorder index (DI) calculated from the XRD intensity of samples. Relationship between DI and starch damage was confirmed with <i>R</i> <sup>2</sup> = 0.923. Therefore, the mechanical shock caused by the milling process contributes to the crystal state of starch. The parameter <i>q</i> <sub>m</sub> calculated from the Guggenheim-Anderson-de Boer (GAB) equation of each sample corresponded to the DI. This result suggested that the sorption site of rice flour decreased, and a positive correlation was observed between the parameter <i>K</i> and DI. Thus, the interaction between the rice flour and water molecules weakened because of the mechanical shock. In addition, the use of a SEM image supports the insight that the change in parameter <i>K</i> may reflect the structural change in the solid phase. 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引用次数: 0
摘要
本研究旨在阐明碾磨过程对米粉性质的影响。采用不同的碾磨方法制备了具有渐变机械冲击特性的米粉样品。此外,还研究了机械冲击造成的淀粉损伤与米粉粉末特性之间的相关性。在每个碾磨过程中,粒度都会逐渐发生变化,但这种变化与淀粉损伤并无明显关联。非糊化样品的 X 射线衍射(XRD)图谱结果显示淀粉具有典型的 A 型结构。米粉中淀粉的晶体结构可能会随着碾磨的进行而变为无序状态,因此,在本研究中,我们考虑的不是结晶度,而是根据样品的 X 射线衍射强度计算出的无序指数(DI)。DI 与淀粉损伤之间的关系得到了证实,R 2 = 0.923。因此,研磨过程造成的机械冲击会影响淀粉的晶体状态。根据古根海姆-安德森-德布尔(GAB)方程计算出的各样品参数 q m 与 DI 相符。这一结果表明,米粉的吸附位点减少,参数 K 与 DI 之间呈正相关。因此,由于机械冲击,米粉与水分子之间的相互作用减弱了。此外,利用扫描电子显微镜(SEM)图像支持了参数 K 的变化可能反映了固相结构变化的观点。这些结果表明,碾磨机械冲击引起的米粉粉末特性变化可以得到定量评估。
Study on the Change in Powder Properties of Rice Flour by Different Milling Processes.
The aim of this study was to clarify the change in the powder properties of rice flour depending on the milling process. Rice flour samples, which have gradual mechanical shock properties, were prepared using different milling methods. Furthermore, the correlation between the starch damage, owing to mechanical shock, and powder properties of rice flour was investigated. The particle size was changed gradually through each milling process; however, the change did not clearly correlate with starch damage. The results of the X-ray diffraction (XRD) pattern of nongelatinized samples showed the typical A-type structure of starch. The crystal structure of starch in rice flour may change to a disorder state with the progress of milling; thus, in this study, instead of crystallinity, we considered the disorder index (DI) calculated from the XRD intensity of samples. Relationship between DI and starch damage was confirmed with R2 = 0.923. Therefore, the mechanical shock caused by the milling process contributes to the crystal state of starch. The parameter qm calculated from the Guggenheim-Anderson-de Boer (GAB) equation of each sample corresponded to the DI. This result suggested that the sorption site of rice flour decreased, and a positive correlation was observed between the parameter K and DI. Thus, the interaction between the rice flour and water molecules weakened because of the mechanical shock. In addition, the use of a SEM image supports the insight that the change in parameter K may reflect the structural change in the solid phase. These results demonstrated that the change in powder properties of rice flour caused by mechanical shock of the milling could evaluate quantitatively.
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