[Objective] The paper aimed to provide the theoretical foundation for rational using the large-seed rice.[Method] Large-seed rice 31C122、31C125 ( nearly 50 g /1 000-weight) and normal rice varieties including Jiyuj...[Objective] The paper aimed to provide the theoretical foundation for rational using the large-seed rice.[Method] Large-seed rice 31C122、31C125 ( nearly 50 g /1 000-weight) and normal rice varieties including Jiyujing and Fuyu 333 as materials,the accumulative process for sugar and starch in seeds was compared and analyzed.[Result] Sugar content of inferior grains was higher than superior grains in all tested materials,sugar content of large seeds was lower than conventional ones;starch content of superior grains was higher than inferior grains,starch content of conventional ones was higher than large-seed rice,amylopectin content was higher than amylose content in all tested materials,amylose content of large-seed rice was lower than conventional ones;the peak of accumulation starch for superior grains of large-seed rice was later than conventional ones,inferior grains advanced;active saving period of starch for superior grains of large-seed rice was longer than conventional ones.[Conclusion] The quality of large-seed rice was better than conventional ones.展开更多
The primary interest to this study was to investigate the effect of milling parameters on the size of hydrophobically modified starch particles, aiming to produce small, uniformly sized modified starch microspheres. O...The primary interest to this study was to investigate the effect of milling parameters on the size of hydrophobically modified starch particles, aiming to produce small, uniformly sized modified starch microspheres. Octie, a commercial product originated from cornstarch modified using Octenyl Succinate Anhydride (OSA), was dispersed (3 wt%) using different media (water or ethanol) and subsequently wet-milled using a beads mill with zirconium beads at a rotation of 6,000 rpm up to 30 min. It was found that milling Octie in water dispersion for 3 min resulted in the smallest mean particle size (2.04 i 0.91 ktm), compared to unmilled modified starch granules (15.2 ~ 6.0 lam). Granular size and morphology changed considerably with further milling. For instance, very dense clusters with variable particle sizes (20.6 ~ 10.0 lam) were obtained after 30 min milling. As depicted by Scanning Electronic Microscopy, a large number of particles were apparently flattened during the milling process rather than broken, forming aggregates. Ultimately, within the range of experimental conditions tested, production of sub-micron modified starch particles was not possible.展开更多
基金Supported by Sub-topic of National Science and Technology Support Program(2006BAD13B01-22)~~
文摘[Objective] The paper aimed to provide the theoretical foundation for rational using the large-seed rice.[Method] Large-seed rice 31C122、31C125 ( nearly 50 g /1 000-weight) and normal rice varieties including Jiyujing and Fuyu 333 as materials,the accumulative process for sugar and starch in seeds was compared and analyzed.[Result] Sugar content of inferior grains was higher than superior grains in all tested materials,sugar content of large seeds was lower than conventional ones;starch content of superior grains was higher than inferior grains,starch content of conventional ones was higher than large-seed rice,amylopectin content was higher than amylose content in all tested materials,amylose content of large-seed rice was lower than conventional ones;the peak of accumulation starch for superior grains of large-seed rice was later than conventional ones,inferior grains advanced;active saving period of starch for superior grains of large-seed rice was longer than conventional ones.[Conclusion] The quality of large-seed rice was better than conventional ones.
文摘The primary interest to this study was to investigate the effect of milling parameters on the size of hydrophobically modified starch particles, aiming to produce small, uniformly sized modified starch microspheres. Octie, a commercial product originated from cornstarch modified using Octenyl Succinate Anhydride (OSA), was dispersed (3 wt%) using different media (water or ethanol) and subsequently wet-milled using a beads mill with zirconium beads at a rotation of 6,000 rpm up to 30 min. It was found that milling Octie in water dispersion for 3 min resulted in the smallest mean particle size (2.04 i 0.91 ktm), compared to unmilled modified starch granules (15.2 ~ 6.0 lam). Granular size and morphology changed considerably with further milling. For instance, very dense clusters with variable particle sizes (20.6 ~ 10.0 lam) were obtained after 30 min milling. As depicted by Scanning Electronic Microscopy, a large number of particles were apparently flattened during the milling process rather than broken, forming aggregates. Ultimately, within the range of experimental conditions tested, production of sub-micron modified starch particles was not possible.
