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1.
郑麦7698加工品质及配粉特性研究 总被引:1,自引:0,他引:1
为明确郑麦7698的加工品质及配粉特性,以加西2号和美麦DNS为对照,对郑麦7698、新麦26和周麦22的粉质特性及加工品质进行了分析,并检测了郑麦7698与新麦26、周麦22以不同比例配粉所得混合粉的面包烘焙品质和面条蒸煮品质.结果表明,郑麦7698和新麦26的蛋白质含量、湿面筋含量及粉质参数均达到国家优质强筋小麦的标准,周麦22为中筋小麦品种.郑麦7698、加西2号、美麦DNS和新麦26等4个小麦品种的面包烘焙品质优良,面包评分分别为85.3、85.7、88.5和95.3.当郑麦7698与新麦26配粉比例分别为30∶70和50∶50时,其面包评分分别为95.0和93.8,显著高于郑麦7698单粉,说明对郑麦7698面粉配以适量的新麦26可显著提高郑麦7698的面包烘焙品质.郑麦7698的面条加工品质最优,其面条评分为92.4.郑麦7698与周麦22配粉比例分别为70∶30、50∶50和30∶70时,面条评分分别为89.3、83.6和79.4,说明对周麦22配以适量的郑麦7698可显著改善用麦22的面条加工品质.郑麦7698为面包面条兼用型品种,通过配粉可生产出高质量的面包粉和面条粉. 相似文献
2.
用小麦新品种郑麦9694与优质强筋小麦郑麦9023进行配粉,测定粉质仪参数和馒头加工品质,结果表明,郑麦9694的馒头加工品质较好,随着郑麦9023添加比例的增加,可使馒头的比容、宽高比、内部结构、弹性、韧性、黏性和食味得分显著提高,总分有了一定的提高;但郑麦9023的添加超过一定的比例后,馒头比容、内部结构和弹性得分则又下降了,表面色泽虽然没有变化,但表面结构得分则随着郑麦9023比例的增加呈下降趋势。最适宜的配粉比例为70∶30,即在郑麦9694中搭配30%的郑麦9023,其湿面筋含量、粉质仪参数等达到优质馒头粉标准,可显著改善馒头的加工和制作品质。 相似文献
3.
为改良湿面筋含量较高、面筋指数和稳定时间较低的这一类型小麦的加工品质,选择这三个指标相差较大的三个小麦品种为材料进行配粉,将湿面筋含量较高、面筋指数和稳定时间较低的小麦品种郑麦618的面粉按照0、20%、40%、60%、80%和100%比例分别与面筋指数和稳定时间较高的小麦品种新麦26或郑麦7698的面粉混合,组成不同类型的配粉,对其湿面筋含量、面筋指数、沉淀指数、面团流变学特性、淀粉RVA糊化特性以及面条和馒头的加工品质进行了比较。结果表明,当两个原粉被测指标数值差异显著时,配粉的湿面筋含量、面团流变学特征参数、峰值粘度、最低粘度和最终粘度均随着原粉数值较大一方添加比例的增加而增加。当两个原粉被测指标数值差异不显著时,配粉被测指标的数值会出现大于或小于原粉的现象,比如面筋指数、延伸性和沉淀指数;但衰减值和糊化温度不符合此规律,衰减值更接近于数值较高的原粉,糊化温度更接近于数值较低的原粉。相关性分析表明,面条总分与峰值粘度、最低粘度、衰减值呈正相关,与面团流变学特性参数呈负相关,相关系数较小;馒头总分与面筋指数、沉淀指数、形成时间、稳定时间、能量、拉伸阻力、延伸性和最大拉伸阻力呈极显著负相关,与淀粉糊化各特征值相关性不显著。上述结果证实,优质面条粉和馒头粉均不需要面筋质量过高,优质面条粉的湿面筋含量为30.3%~32.2%,面筋指数为75.2~81.4,稳定时间为4.5~7.2 min,最高粘度为2 330~2 468 cP,最低粘度为1 504~1 607 cP;优质馒头粉的湿面筋含量为30.2%~32.0%,面筋指数为70.8~81.4,稳定时间为3.5~9.1 min。面条和馒头评分结果表明,湿面筋含量较高(30%以上),面筋指数低的这一类型的小麦可以通过搭配面筋指数较高的小麦来改良其加工 品质。 相似文献
4.
为进一步提高茶叶在食品工业中的应用范围,以小麦西农538(中筋)为供试材料,分别添加0、2%、4%、6%、8%和10%的绿茶、红茶和黑茶3类茶叶粉于面粉中,并对其进行面团流变学特性及糊化特性分析。结果表明,3类茶叶粉均可显著改善面团的流变学特性及糊化特性。随着茶叶粉添加量的增加,面团吸水率均显著增大;添加2%~10%的绿茶粉及6%~10%的黑茶粉,面团的形成时间和稳定时间均显著提高,弱化度均显著降低。添加6%的绿茶粉时,面团的拉伸能量和最大拉伸阻力增幅均达到最大值,延伸度出现小幅度升高的拐点;添加4%的红茶粉,面团的拉伸面积显著增大,继续增加添加量则变化不明显;黑茶和红茶粉添加量分别大于4%和6%时,面团延伸度均显著降低。面粉中添加适量的茶叶粉可改善面粉的品质,绿茶粉的添加对面团网络结构形成速度和面团筋力的改良效果大于红茶粉和黑茶粉。面粉糊化的峰值黏度、低谷黏度、最终黏度、峰值时间、回生值随着茶叶粉添加量的增大均呈不同幅度的降低趋势;3类茶叶粉对面粉糊化的热稳定性具有不同程度的改善作用。 相似文献
5.
为研究添加维生素C对不同筋力小麦粉面包烘焙品质的改良效果,以师栾02-1、石优17、矮抗58和济麦22四个不同筋力小麦品种的面粉为材料,研究了维生素C对面包烘焙特性及面团流变性特性的影响。结果表明,添加维生素C对强筋品种师栾02-1和中筋品种矮抗58的面包体积有显著改良作用,而对4个品种的面包外观、面包芯色泽、面包芯质地和面包芯纹理结构均没有影响。添加维生素C对面团的弱化度和最大拉伸阻力等流变学特性的改良作用也因小麦品种而异,而且改良作用有限,不能改变小麦粉本身的加工属性。 相似文献
6.
为明确小麦面粉及鲜面片色泽的影响因素,选取10个江苏沿淮及淮南地区大面积推广小麦品种进行2年3点种植,比较不同品种、不同地点和不同年份面粉及鲜面片色泽差异并分析其影响因素,探讨面粉及鲜面片色泽与品质性状间的相关性。结果表明,扬麦11、扬辐麦4号和宁麦14的面粉及鲜面片色泽较好,亮度高、黄度低。基因型是决定面粉白度、亮度(L~*值)和黄度(b~*值)的主要因素;环境因素亦影响面粉及鲜面片色泽。扬麦16、宁麦14和郑麦9023在不同年度及不同地点的色泽表现稳定。面粉与鲜面片放置24h内的色泽间呈显著正相关;面粉白度与籽粒硬度和出粉率呈极显著负相关;面粉及鲜面片L~*值与蛋白质含量、湿面筋含量、揉混仪参数和粉质仪参数呈显著或极显著负相关,与糊化特性参数呈显著或极显著正相关。综上所述,面粉色泽主要由基因型决定,鲜面片色泽与面粉色泽显著相关,二者与籽粒品质具有显著相关性。在小麦育种中,可通过面粉色泽指标筛选高白度及品质的品种。 相似文献
7.
为更广泛利用黑小麦,用优质强筋小麦运旱115、运旱618的面粉分别与中筋黑小麦运黑101的面粉进行搭配,研究了不同复配粉的面筋指数变化规律和面包加工特性。结果表明,两个优质强筋小麦粉与中筋黑小麦运黑101复配,可以显著改善中筋黑小麦运黑101的面筋指数、抗延阻力、稳定时间;优质强筋小麦粉与运黑101面粉占比相等时,运旱115、运旱618对运黑101的面筋指数改进率较大,分别为10.57%、10.51%。综合分析对面包品质影响较大的硬度、胶黏性、咀嚼性等质构指标,发现运旱115与运黑101配粉比例为8∶2、5∶5时,运旱618与运黑101配粉比例为7∶3、6∶4时,运黑101面粉品质改善显著,用其制作的面包体积大、品质好。 相似文献
8.
为了解小麦籽粒蛋白品质的形成机制,以弱筋和强筋小麦为材料,研究了小麦灌浆期间旗叶叶绿素含量以及Rubisco (1,5二磷酸核酮糖羧化酶/加氧酶)降解的变化。结果表明,小麦灌浆期间不同品质类型品种旗叶叶绿素含量和Rubisco含量差异明显,弱筋小麦品种宁麦9号和扬麦15花后15~25 d旗叶叶绿素含量分别降低16.8%和19.6%,而强筋小麦品种郑麦9023和镇麦168花后15~25 d叶绿素含量下降幅度分别为52.8%和34.6%;旗叶灌浆期内肽酶活性呈先升高后降低的趋势,并且2个强筋品种花后5~25 d内肽酶活性始终高于2个弱筋品种;小麦旗叶Rubisco含量在开花后呈逐渐降低的趋势,但两个弱筋小麦品种旗叶中Rubisco含量始终高于两个强筋小麦品种。此外,扬麦15花后15~20 d才可以看出Rubisco亚基出现降解现象,郑麦9023在花后15 d就已经明显出现了Rubisco大亚基降解,说明强筋小麦郑麦9023旗叶较弱筋小麦扬麦15衰老早。 相似文献
9.
谷朊粉对不同筋力小麦粉及面包品质的改良效果 总被引:1,自引:0,他引:1
为了探讨谷朊粉对我国不同筋力小麦粉面包加工品质的影响,选用师栾02-1(强筋)、石优17(中强筋)、矮抗58(中筋)和济麦22(弱筋)等四种不同筋力的小麦粉进行谷朊粉添加试验,谷朊粉添加水平分别占小麦粉质量的0%、1%、3%、5%、7%、9%。对不同处理的小麦粉样品进行面包烘焙试验和理化性质测试,结果表明,谷朊粉的添加使面包体积迅速增大,对感官特性在一定范围内具有改良作用,谷朊粉添加过量会出现面包芯孔洞变大等不良影响;不同筋力小麦粉的最适添加量不同,师栾02-1、石优17、矮抗58和济麦22的最适添加量分别为面粉质量的1%~2%、3%~5%、7%、9%。 相似文献
10.
面包逐渐成为中国人营养早餐的选择,但面包中膳食纤维含量较低。燕麦是一种食疗兼备的特色杂粮作物,富含膳食纤维。为拓宽燕麦的应用范围、提高面包的营养价值,以优质强筋小麦品种藁优2018和燕麦粉为材料,研究了燕麦粉对小麦面粉面团流变学特性及淀粉糊化特性的影响,并进行了燕麦面包实验室制作和质构分析。结果表明,随着燕麦粉添加比例的增加,面团吸水率逐渐增加,面团稳定时间和粉质质量指数先减小后增加;面团拉伸能量、拉伸长度、拉伸阻力、最大拉伸阻力均逐渐减小。说明燕麦粉对面团拉伸特性各参数均有弱化作用。在藁优2018小麦面粉中添加10%的燕麦粉,既能保证面包的感官品质,又能满足面包营养最大化。 相似文献
11.
The influence of added phytate on dough properties and bread baking quality was studied to determine the role of phytate in the impaired functional properties of whole grain wheat flour for baking bread. Phytate addition to refined flour at a 1% level substantially increased mixograph mixing time, generally increased mixograph water absorption, and reduced the SDS-unextractable protein content of dough before and after fermentation as well as the loaf volume of bread. The added phytate also shifted unextractable glutenins toward a lower molecular weight form and increased the iron-chelating activity of dough. It appears that phytate negatively affects gluten development and loaf volume by chelating iron and/or binding glutenins, and consequently interfering with the oxidative cross-linking of glutenin molecules during dough mixing. Phytate could be at least partially responsible for the weak gluten network and decreased loaf volume of whole wheat flour bread as compared to refined flour bread. 相似文献
12.
The objective of this study was to examine the influence of flour quality on the properties of bread made from pre-fermented frozen dough. The physicochemical parameters of 8 different wheat flours were determined, especially the protein quality was analysed in detail by a RP-HPLC procedure. A standardized baking experiment was performed with frozen storage periods from 1 to 168 days. Baked bread was characterised for specific loaf volume, crumb firmness and crumb elasticity. The results were compared to none frozen control breads. Duration of frozen storage significantly affected specific loaf volume and crumb firmness. The reduction of specific loaf volume was different among the used flours and its behaviour and intensity was highly influenced by flour properties. For control breads wet gluten, flourgraph E7 maximum resistance and RVA peak viscosity were positively correlated with specific loaf volume. However, after 1–28 days of frozen storage, wet gluten content was not significantly influencing specific loaf volume, while other parameters were still significantly correlated with the final bread properties. After 168 days of frozen storage all breads showed low volume and high crumb firmness, thus no significant correlations between flour properties and bread quality were found. Findings suggest that flours with strong gluten networks, which show high resistance to extension, are most suitable for frozen dough production. Furthermore, starch pasting characteristics were also affecting bread quality in pre-fermented frozen dough. 相似文献
13.
Waxy wheat flour (WWF) was substituted for 10% regular wheat flour (RWF) in frozen doughs and the physicochemical properties of starch and protein isolated from the frozen doughs stored for different time intervals (0, 1, 2, 4 and 8 weeks) were determined to establish the underlying reasons leading to the effects observed in WWF addition on frozen dough quality. Using Nuclear Magnetic Resonance (NMR), Differential Scanning Calorimeter (DSC) and X-ray Diffraction (XRD) among others, the gluten content, water molecular state, glutenin macropolymer content, damaged starch content, starch swelling power, gelatinization properties, starch crystallinity and bread specific volume were measured. Compared to RWF dough at the same frozen storage condition, 10% WWF addition decreased dry gluten and glutenin macropolymer contents and T23 proton density of frozen dough, but increased the wet gluten content, T21 and T22 proton density. 10% WWF addition also decreased damaged starch content, but increased starch swelling power, gelatinization temperature and enthalpy, crystallinity of starch and bread specific volume of frozen dough. Results in the present study showed that the improvement observed due to WWF addition in frozen dough bread quality might be attributed to its inhibition of redistribution of water molecules bound to proteins, increase in damaged starch content and decrease in starch swelling power. 相似文献
14.
Sodium chloride (NaCl) is an essential ingredient to control the functional properties of wheat dough and bread quality. This study investigated the effect of NaCl at 0, 1 and 2%, (w/w, flour base) on the gluten network formation during dough development, the dough rheology, and the baking characteristics of two commercial flours containing different levels of protein (9.0 and 13.5%) and with different glutenin-to-gliadin ratios. Examination of the dough structure by confocal microscopy at different stages of mixing show that the gluten network formation was delayed and the formation of elongated fibril protein structure at the end of dough development when NaCl was used. The fibril structure of protein influenced the dough strength, as determined by strain hardening coefficient and hardening index obtained from the large deformation extension measurements. NaCl had a greater effect on enhancing the strength of dough prepared from the low protein flour compared to those from the high protein flour. The effect of NaCl on loaf volume and crumb structure of bread followed a similar trend. These results indicate that the effect of NaCl on dough strength and bread quality may be partially compensated by choosing flour with an appropriate amount and quality of gluten protein. 相似文献
15.
稻麦套种对小麦花后地上部游离氨基酸含量及籽粒品质的影响 总被引:1,自引:1,他引:0
采用稻麦套种与传统条播两种栽培方式系统比较的方法,研究了稻麦套种对优质中筋小麦扬麦10号和弱筋小麦宁麦9号花后叶、茎鞘、颖壳、穗轴、籽粒游离氨基酸和蛋白质含量以及籽粒品质的影响。结果表明,稻麦套种对不同类型小麦花后地上部各器官游离氨基酸含量和籽粒蛋白质含量及其他品质指标有显著影响。与条播栽培方式相比,稻麦套种小麦花后地上部器官的游离氨基酸含量和籽粒蛋白质、湿面筋含量等主要品质指标均较低,二者差异显著。在同一栽培方式下,弱筋小麦宁麦9号各器官游离氨基酸含量显著低于中筋小麦扬麦10号。套种方式有利于弱筋小麦品质的形成,此栽培方式下宁麦9号各项品质指标均达到国家标准,但中筋小麦扬麦10号的部分品质指标下降。 相似文献
16.
Wheat germ flour (WGF) has been developed as a functional food ingredient with high nutritional value. In this study, WGF was applied in steamed bread-making in order to improve the quality of Chinese steamed bread (CSB). Partial substitution of wheat flour with WGF at levels of 3%, 6%, 9% and 12% (w/w) was carried out to investigate physicochemical properties of blends and their steaming performance. Falling number (FN) values of composite flours ranged from 199 to 223 s. Viscosity analysis results showed that wheat flour mixed with WGF had higher pasting temperature and lower viscosities. Dough rheological properties were also investigated using farinograph and extensograph. The addition of WGF diluted the gluten protein in dough and formed weak and inextensible dough, which can be studied by scanning electron microscope (SEM) analysis. CSB made with WGF had significantly lower volume, specific volume and higher spread ratio. The sensory acceptability and physicochemical quality of CSB were improved with the application of a low level of WGF (3% and 6%). However, results showed that a high level of WGF over 9% is not recommended because of unsatisfactory taste. As a whole, addition of appropriate level of WGF in wheat flour could improve the quality of CSB. 相似文献
17.
Stephen J. Chapman Steven J. Mulvaney Rangan Chinnaswamy Patricia Rayas-Duarte Bo Allvin 《Journal of Cereal Science》2012
Despite the great variety of physicochemical and rheological tests available for measuring wheat flour, dough and gluten quality, the US wheat marketing system still relies primarily on wheat kernel hardness and growing season to categorize cultivars. To better understand and differentiate wheat cultivars of the same class, the tensile strength, and stress relaxation behavior of gluten from 15 wheat cultivars was measured and compared to other available physicochemical parameters, including but not limited to protein content, glutenin macropolymer content (GMP) and bread loaf volume. In addition, a novel gluten compression–relaxation (Gluten CORE) instrument was used to measure the degree of elastic recovery of gluten for 15 common US wheat cultivars. Gluten strength ranged from 0.04 to 0.43 N at 500% extension, while the degree of recovery ranged from 5 to 78%. Measuring gluten strength clearly differentiated cultivars within a wheat class; nonetheless it was not a good predictor of baking quality on its own in terms of bread volume. Gluten strength was highly correlated with mixograph mixing times (r = 0.879) and degree of recovery (r = 0.855), suggesting that dough development time was influenced by gluten strength and that the CORE instrument was a suitable alternative to tensile testing, since it is less time intensive and less laborious to use. 相似文献
18.
江苏省小麦品质现状及品质改良研究 总被引:17,自引:0,他引:17
分析测定了当前江苏省大面积推广和新选育的18个小麦品种(品系)的理化性质和面团流变学特性。各性状的平均值为:容重786.7g/L,出粉率68.6%,蛋白质含量12.7%,湿面筋含量32.7%,沉淀值36.0ml,面团吸水率60.6%,形成时间2.7min,稳定时间4.2min,软化度105.3B.U.,评价值45.4。总地看来,江苏省小麦品种(品系)的容重和出粉率稍高,蛋白质、面筋含量和沉淀值中等 相似文献