原料组分及应力松弛与方便米线品质的关系

    Relationship between rice components, stress-relaxation and instant rice noodles quality

    • 摘要: 为了研究方便米线加工过程中原料大米的物性变化及与品质的关系,以福昌、九峰、兴业、一枝秀等4种常用大米为代表制作方便米线,研究了米线品质特征与原料大米组分、淀粉凝胶应力松弛特性的相关性,并结合应力松弛参数探讨了原料成分对米线品质的影响。结果表明,方便米线最大剪切应力为0.103~0.184 N/mm2,平均剪切应力0.047~0.066 N/mm2,拉伸强度0.078~0.157 N/mm2,拉伸形变为53.14%~80.84%,干物质吸水率为98.80%~153.26%,煮沸损失为12.09%~24.39%;原料大米粗蛋白质量分数越高,粗脂肪质量分数越低,平均剪切应力越大,挤压凝胶第一要素模型的胡克体弹性模量E1越小,阻尼体η1越小,其硬度越高,弹性和黏性越低;直链淀粉质量分数越高,干物质吸水率和煮沸损失越低,松弛时间τ1越长,松弛时间τ2越短;松弛时间τ、平均剪切应力、干物质吸水率和煮沸损失是方便米线品质控制和评价的重要指标。建立了方便米线品质因素与淀粉凝胶应力松弛参数的回归方程,从淀粉凝胶黏弹性出发解释了方便米线品质变化的机制,为淀粉质食品的开发研究提供了新思路;建立的方便米线品质因素与原料大米成分间的交互效应模型具有较高的拟合度,此模型对于方便米线加工原料的选择具有指导意义。

       

      Abstract: To simulate the viscoelastic mechanical behaviors of stress-relaxation of rice gel were investigated by studying the correlation of properties of the products, components of raw materials and stress-relaxation parameters, and exploring the effect of components of rice on products of stress-relaxation parameters. Instant rice noodles were prepared of four rice varieties. The results showed that the maximum shear stress, the average shear stress, tensile strength, tensile strain, rehydration and cooking loss of boiling were 0.103-0.184 N/mm2, 0.047-0.066 N/mm2, 0.078-0.157 N/mm2, 53.14%-80.84%, 98.80%-153.26%, 12.09%-24.39%, respectively. Rice with higher protein content and lower fat content revealed higher average shear stress and hardness, lower elasticity and viscosity and lower E1 and η1 (E1 and η1 were the first spring model and dashpot model in extrusion gelatin); higher amylase content resulted in lower percentage of rehydration and cooking loss of boiling, longer relaxation time τ1, and shorter relaxation time τ2, which were key factors in the quality control and evaluation of instant rice noodles. Equations have been interpreted on the basis of relations properties of rice and stress-relaxation parameters. It is not only provide a significant guiding for raw material selection of instant rice noodles, but also explanation quality change mechanism from viscoelastic behaviors of stress-relaxation of rice gel, and provide additional information on the development of starch food.

       

    /

    返回文章
    返回