大豆制品对面包品质影响的研究

主要研究了添加不同大豆制品对面包品质的影响 ,包括面包吸水能力、面包体积、感观品质以及面包质构等的变化 ,同时研究了乳化剂对这种影响的消除作用。研究表明 :大豆蛋白的添加能提高面包的吸水能力 ,延缓面包的老化 ,但会使面包的体积变小、感观变差 ,硬脂酰乳酸钙 (CSL)、硬脂酰乳酸钠 (SSL)、分子蒸馏单甘脂 (DMG)的添加能消除大豆制品对面包的不利影响     

大豆制品对面包品质影响的研究

研究了添加不同大豆制品对面包品质的影响,包括面包吸水能力、面包体积、感官以及面包质构等的变化,同时研究了乳化剂对这种影响的消除作用。研究表明,大豆蛋白的添加提高了面包的吸水,延缓面包的老化,但会影响面包的体积变小、感官变差上,CSL、SSL、DMG的添加能消除大豆制品对面包的不利影响。     

大豆制品对面包品质影响的研究

研究了添加不同大豆制品对面包品质的影响,包括面包吸水能力、面包体积、感官以及面包质构等的变化,同时研究了乳化剂对这种影响的消除作用。研究表明,大豆蛋白的添加提高了面包的吸水,延缓面包的老化,但会影响面包的体积变小、感官变差上,CSL、SSL、DMG的添加能消除大豆制品对面包的不利影响。      

马铃薯全粉在面包中的应用研究

研究了马铃薯全粉对面包的水分、酸度、比体积和感观品质的影响,并进行了面包的贮藏试验。结果表明,提高马铃薯全粉添加量,可使面包成品的含水量相应增大,对面包酸度影响不大。当马铃薯全粉的添加量在5%~15%时,对面包的体积不产生抑制作用;当添加量高于15%后,面包的比体积随着马铃薯全粉添加量的增大而明显减小。适量添加马铃薯全粉制作面包,能提高面包的感观品质。添加马铃薯全粉降低了面包的老化速度,延长了面包的保质期。     

蛋氨酸在面包中应用研究

通过添加不同量蛋氨酸研究其对面粉粉质拉伸特性及对面包焙烤品质和贮存过程中老化程度影响。结果表明:蛋氨酸可改善面团流变特性,适量添加可增加面包体积和比容,改善面包芯硬度和组织结构,对增加面包蛋白质含量和持水能力、提高面包营养和感观品质有促进作用,同时能有效延缓面包老化,延长其货架期;蛋氨酸最适添加量为0．15％。     

大豆蛋白在面包中应用的研究

本课题对大豆蛋白在面包中的应用进行了研究,确定了将脱脂豆粉添加于面粉制作大豆蛋白强化面包的配方和工艺条件。所做强化面包体积增大,面包心无粘感,无豆腥味,其蛋白质含量比未强化前提高50％以上,并且面包重量增加、抗老化性提高,各项质量指标均符合我国面包质量标准。     

添加麦芽粉和抗坏血酸对面包烘焙品质的影响

研究添加麦芽粉和抗坏血酸对面包烘焙品质的影响。以河南和山东2个小麦主要生产省的29个代表性品种样品为材料,用布勒实验磨制粉后,在面包基础配方上设置添加组和未添加组,研究添加麦芽粉和抗坏血酸后面包感官评分、质构及C-Cell图像分析变化。结果表明,添加麦芽粉和抗坏血酸后,可明显提高面包体积、体积评分、外观评分和最终综合评分,使面包冠变大,颈变明显;对面包芯色泽、质地和纹理的改善作用不明显。质构分析中面包的硬度和韧性均明显减小,衰减比例无明显变化。C-Cell指标中的面包切片面积、切片周长、气孔数量、平均气孔密度值均明显增大,切片亮度和气孔直径明显降低。仪器评价指标与面包感观评价中部分参数存在相关关系。     

不同配方面包制品的核磁共振状态图的研究

利用“NMR状态图概念”研究面包老化的动力学,利用NMR状态图可以分别求出它们的Tg,它们的值在-17℃到-19℃之间。添加三种不同天然食品添加剂对面包的Tg没有太大的变化。实验研究了大豆蛋白粉、木薯预糊化淀粉和大豆纤维三种不同天然食品添加剂对NMR状态图中的影响效果。从NMR状态图可以得知:添加三种不同天然食品添加剂对它们的Tg、T2、KBT和KPT都有作用,其中添加大豆蛋白和木薯预糊化淀粉能明显减低面包状态图的T2、KBT和KPT,说明添加大豆蛋白和木薯预糊化淀粉能促进面包中水分的结合方式;而添加大豆纤维只减低面包状态图的KBT和KPT,反而增加了T2,水分活度较高不利于面包的保藏。     

面包辅料与其体积关系的研究

面包的体积是评价其品质的重要指标之一,研究辅料对面包体积的影响无疑具有重要意义。面包常用辅料主要有白砂糖、油脂、乳粉、鸡蛋4种,通过改变辅料的用量,研究其对面包体积的影响规律。试验结果表明,添加适量辅料,都能增加面包体积,辅料适宜添加范围为:白砂糖4%～8%,油脂5%～8%,乳粉4%～6%,鸡蛋6%～10%。     

添加不同粒度麸皮对面包品质影响的研究

小麦麸皮经热处理后,通过筛理形成5种粒度的麸皮,研究不同粒度麸皮及不同添加量对面包品质的影响,以面包体积及感官评分作为评价指标。结果表明：不同粒度的麸皮,随着麸皮添加量的增加,面包体积均呈先增大后减小的趋势;麸皮添加量5%时,面包体积最大;麸皮添加量10%时,面包体积缩小但并不明显;麸皮添加量15%时,面包体积明显缩小;相同的麸皮添加量,麸皮的粒度对面包体积大小没有明显影响,但在麸皮粒度850～400μm时面包体积较大。另外,对不同粒度、不同麸皮添加量的面包进行感官评分,以麸皮粒度850～400μm、添加量10%时面包得分最高。     

INSTRUMENTAL TEXTURE and BAKING QUALITY of HIGH-FIBER TOAST BREAD AS AFFECTED BY ADDED WHEAT MILL FRACTIONS

The effect of bran type, level of addition, particle size, addition of wheat germ, as well as other additives like improvers and dough conditioners, on the instrumental texture and baking quality of high-fiber toast bread (white pan bread) has been investigated. the specific loaf volume decreased significantly (3.45 cc/g) when the bran level was raised to 30%, but at 20% bran addition, the specific loaf volume was superior to that of the control bread. the specific loaf volume of test breads remained higher than the control bread up to a level of 7.5% wheat germ addition. Additives like ascorbic acid (50 ppm) and sodium stearoyl-2-lactylate (0.5%) further improved the baking quality of test bread samples. the objective texture values (measured as compression force, kg) indicated that the test bread with bran addition up to 20% and germ up to 7.5% possessed a softer texture (0.80 kg) than the control bread (1.02 kg). In comparison with control bread, the panelists gave higher sensory scores for all attributes of test bread samples containing up to 20% red coarse bran or up to 30% red fine bran. A similar trend in sensory quality of test samples containing up to 7.5% wheat germ was also observed. High-fiber toast bread made from white flour, equal proportions of coarse and fine bran at 20%, wheat germ at 7.5%, plus sodium stearoyl-2-lactylate at 0.5% levels, was found to possess softer texture and improved sensory quality than the whole wheat flour bread.     

Influence of Tomato Seed Addition on the Quality of Wheat Flour Breads

Tomato seed, an abundant tomato processing waste product, contains high amounts of crude fat and protein. The protein is especially high in lysine, the limiting amino acid of cereal products. Dried, ground tomato seeds were added at 5, 10, 15, and 20% wheat flour replacement levels. The influence of tomato seed addition on amino acid content, loaf volume, and staling rate were studied. A sensory evaluation based on odor only was conducted to identify consumer attitudes towards “tomato seed bread.” The addition of tomato seed at a replacement level of 20% to a bread formula with shortening resulted in no significant change (P < 0.05) in staling rate, but showed an increase in specific loaf volume of 20.4%. No significant differences in specific loaf volume were found between bread with 3% shortening and the 10% tomato seed supplemental bread without shortening. Addition of fat extracted tomato seeds at the 20% level decreased specific loaf volume by 72%. The supplementation of wheat flour bread at the 10% and 20% replacement levels increased lysine by 40.2% and 69.0% respectively.     

板栗淀粉、蛋白质及全粉的特性及在面包中应用研究

基于淀粉和蛋白质对面包品质至关重要,分析板栗粉、板栗淀粉及板栗蛋白的特性,并探索对面包品质的影响。板栗粉中淀粉（52.87%）、蛋白质（6.58%）均低于高筋小麦粉。与小麦淀粉相比,板栗淀粉更易溶胀、糊化,但热稳定性较差。与小麦蛋白相比,板栗蛋白的α-螺旋含量(10.6%)较低,无规卷曲（34.4%）较高。这些特性正好反映了,随着板栗粉的添加量提高,板栗粉-小麦粉混合粉粉质品质和面包比容均呈下降趋势。当板栗粉添加量为10%时,面包体积最大、气孔细密、评分最佳。     

膳食纤维在焙烤食品中应用

该文简介膳食纤维物化特性及生理功能性质。目前,在焙烤食品中应用膳食纤维主要来源于大豆、谷物、果蔬,膳食纤维在小剂量添加范围内对面筋网络结构和面团有一定改良作用,但若大剂量添加,会对面团特性产生副作用;因此适宜添加膳食纤维能延缓面包陈化率,增大面包和糕点体积,改善饼干咀嚼性,及满足人们对高膳食纤维、低能量焙烤食品需求。     

Influence of Cephalaria Syriaca Addition on Physical and Sensorial Properties of Wheat Bran Bread

The effect of different Cephalaria syriaca products (CSP) (whole Cephalaria syriaca flour (WCSF) and defatted Cephalaria syriaca flour (DCSF)) on the final quality of bran breads was investigated. Five levels of Cephalaria syriaca products (0.16, 0.50, 0.84, 1.17, and 1.51 g/100 g bread) were used in this study. Results of this study showed that addition of CSP (WCSF and DCSF) to wheat bran bread had significant positive impact on bread specific volumes, crumb firmness and bread sensory characteristics, although addition levels (0.16, 0.50, 0.84, 1.17, and 1.51 g/100 g bread) were very low. In general, specific volume, yield of volume, and some sensory characteristics of the bran bread increased when the addition levels of WCSF and DCSF increased, except for the level of 1.51 g/100 g bread CSP addition, in which a slight decrease was observed. Bran breads containing WCSF had significantly higher loaf specific volume, softness of breadcrumb and sensory characteristics than those of breads containing DCSF at all addition levels. Especially, the addition of 1.17 g WCSF significantly improved the quality of bran breads. This study indicates that these two CSP can be used as additives in bran bread production in order to improve the quality of bread.     

Effects of milk proteins and gums on quality of bread made from frozen dough

BACKGROUND: Mixtures of milk proteins and gums incorporated into bread formulations may enhance the quality of bread and retard the deterioration of frozen dough. Our objective was to investigate the effects of mixtures of milk proteins (casein (C) and whey protein (W)) and gums (sodium alginate (A) and κ‐carrageenan (K) on the quality of bread made from frozen dough. We hypothesized that bread containing milk proteins and gums would be of improved quality. Milk proteins improve texture, moisture retention and specific volume, and reduce the size of ice crystals, while gums incorporated into the bread improve moisture retention, control water mobility and prevent the growth of ice crystals, so we hypothesized milk proteins and gums would suppress the quality deterioration of bread during frozen storage. RESULTS: We found that mixtures of milk proteins and gums proved effective with regard to the maintenance of the baking quality of frozen dough. Breads containing CA had a higher specific loaf volume than the control bread. The addition of WK enhanced crumb firmness during extended frozen storage. In sensory evaluation, the addition of WA and CA contributed to the improvement of baking quality, taste, texture and acceptability. CONCLUSION: These findings are consistent with the hypothesis that mixtures of milk proteins and gums improved baking quality by reducing the deterioration of frozen dough. These results indicate that the addition of CA and WA improved the bread quality and WK could effectively be used as an anti‐staling agent in bread. Copyright © 2009 Society of Chemical Industry     

Improvers and functional ingredients in whole wheat bread: A review of their effects on dough properties and bread quality

BackgroundDespite the associated health benefits of whole grains, consumption of whole grain products remains far below recommended levels. Whole wheat bread is often associated with many distinctive attributes such as low loaf volume, firm and gritty texture, dark and rough crust and crumb appearance, bitter flavor, and reduced shelf-life. There is a need to improve its quality and sensory characteristics so as to increase consumer appeal and, ultimately, increase the intake of whole wheat bread. The inclusion of various ingredients improves dough and bread properties.Scope and approachThis review examines the effects of enzymes, emulsifiers, hydrocolloids, and oxidants on the properties of whole wheat bread and dough, with particular attention to effects on loaf volume and hardness. Wheat gluten and other plant materials are also discussed. Gaps in the research into whole wheat bread are identified, and future research needs are recommended.Key findings and conclusionsXylanase reduces the water absorption of whole wheat flour and increases loaf volume and crumb softness by hydrolyzing ararbinoxylans. α-amylase can be beneficial under certain conditions. Phytase may activate endogenous α-amylase. G4-amylase is promising but needs validation by further research on its effect on loaf volume, crumb hardness, and staling. Vital wheat gluten overcomes many of the challenges of whole wheat bread production and is found in the majority of commercial whole wheat breads. Emulsifiers DATEM and SSL can improve the volume, texture and staling profile of whole wheat bread. Several types of improvers are generally needed in combination to provide the greatest improvement to whole wheat dough and bread.     

Effect of Amino Acids and Peptides on Mixing and Frozen Dough Properties of Wheat Flour

Free amino acids, peptides, and vital wheat gluten were investigated to determine their effect on the mixing and frozen dough baking properties of wheat flour. Addition of 1% cysteine and aspartic acid decreased and glutamic acid, histidine, arginine, and lysine increased the mixing tolerance of flour. Cystine, methionine, tryptophan, and phenylalanine increased but isoleucine, histidine, glycine, arginine, glutamic acid, aspartic acid, and lysine decreased loaf volume of nonfrozen dough breads. However cystine, methionine, tryptophan, and phenylalanine did not increase loaf volume of bread prepared from frozen dough. Vital wheat gluten increased mixing tolerance and bread loaf volume only for the nonfrozen dough. However, wheat gluten hydrolysate, corn, and bonito peptides decreased mixing tolerance after optimum mixing time and were effective in increasing loaf volume for both frozen and nonfrozen dough. As the amount of corn and bonito peptide increased, specific loaf volumes also increased. Addition of 2.5% corn peptide was most effective in increasing loaf volume of frozen dough bread. Crust browning and crumb stickiness increased, whereas crumb softness decreased with addition of peptides. Addition of less than 1% peptide did not adversely affect the aftertaste and off‐flavor of bread. These results suggest that addition of peptides are effective for improving the baking quality of frozen dough, whereas amino acids and gluten have no effect.     

Effect of flour blending on functional, baking and organoleptic characteristics of bread

Soybean (full‐fat and defatted) and barley flours were incorporated into wheat flour at 5, 10, 15 and 20% substitution levels. The gluten content, sedimentation value and water absorption capacity of the flour blends and the mixing time of the dough decreased with increase in the level of soybean and barley flour separately and in combinations. Protein and glutelin contents increased significantly on blending of soyflour (full‐fat and defatted) to bread wheat flour. The breads prepared from the blends also varied in their loaf weight, loaf volume and sensory characteristics. The bread volume decreased with increasing amount of non‐wheat flour substitution. The crumb colour changed from creamish white to dull brown and a gradual hardening of crumb texture was observed as the addition of soybean (full‐fat and defatted) and barley flours increased. At the higher levels, the acceptability declined because of the compact texture of the crumb and the strong flavour of the product. The addition of 10% of soyflour (full‐fat and defatted) or 15% of barley flour, full‐fat soy + barley or defatted soy + barley flour to bread flour produced acceptable bread.