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1.
Hernández-Muñoz P Kanavouras A Lagaron JM Gavara R 《Journal of agricultural and food chemistry》2005,53(21):8216-8223
The aim of the present work has been to study the possibility of obtaining modified gliadin films with improved water resistance and mechanical properties by means of promoting intermolecular covalent bonds between polypeptide chains. Prior to casting films, formaldehyde, glutaraldehyde, and glyoxal were used to cross-link proteins at concentrations ranging from 1% to 4% (grams per 100 g of protein). Mechanical properties (tensile strength and elongation at break), water vapor permeability, moisture sorption isotherms, and optical properties of the films produced were evaluated as a function of the cross-linker used. Experimental results showed that some properties of gliadin films were considerably modified. Cross-linking improved the water resistance of films, avoiding their disintegration. Their water barrier properties were also enhanced, but their moisture sorption properties remained unchanged. Formaldehyde imparted greater mechanical strength to films than glutaraldehyde or glyoxal, increasing tensile strength values 10-fold. Addition of the cross-linkers at concentrations in excess of 2.5% did not further improve the mechanical or barrier properties. However, modification with glutaraldehyde or glyoxal imparted an increasingly yellowish tint to the films. 相似文献
2.
Micard V Belamri R Morel M Guilbert S 《Journal of agricultural and food chemistry》2000,48(7):2948-2953
Chemical (vapors of formaldehyde), physical (temperature, UV and gamma radiation), and aging treatments were applied to wheat gluten films. Changes in film mechanical properties, water vapor permeability, solubility, and color coordinates were investigated. An aging of 360 h led to a 75 and 314% increase in tensile strength and Young's modulus, respectively, and a 36% decrease in elongation. Severe thermal (above 110 degrees C, 15 min) and formaldehyde treatments highly improved the mechanical resistance of the films. Under these conditions, up to 376 and 654% increase in tensile strength and Young's modulus and up to 66% decrease in elongation have been observed. Water solubility was only slightly modified, whereas water vapor permeability was not affected. Color coordinates of films heated above 95 degrees C changed to a great extent. An almost total insolubilization of proteins in sodium dodecyl sulfate occurred for heat- and formaldehyde-treated films, due to the modification of protein network leading to changes in properties of the films. 相似文献
3.
纳米SiO2对PVA基复合涂膜包装材料成膜透湿性能的影响 总被引:1,自引:0,他引:1
为改善聚乙烯醇(PVA)涂膜的阻湿保鲜效能特性,该文采用添加纳米SiO2对PVA基复合涂膜包装材料进行改性,应用响应曲面方法研究SiO2、硬脂酸、戊二醛对三元复合涂膜材料成膜效能特性的影响及交互作用。结果表明:加入纳米SiO2改性可有效提高PVA基复合涂膜包装材料的阻水、阻湿性能,优化组成膜透湿率8.18 g/(m2·d)比对照组(不添加纳米SiO2的PVA复合膜)降低26.61%(p<0.05);硬脂酸、戊二醛对复合涂膜材料成膜透湿率的影响与纳米SiO2存在显著的交互作用,每100 mL 0.05 g/mL的PVA溶液中纳米SiO2添加量在小于0.05 g范围内随着SiO2含量增大,复合涂膜材料成膜透湿率随硬脂酸、戊二醛的比例增加而降低,阻湿性能提高。 相似文献
4.
Möller H Grelier S Pardon P Coma V 《Journal of agricultural and food chemistry》2004,52(21):6585-6591
To prepare composite films from biopolymers with anti-listerial activity and moisture barrier properties, the antimicrobial efficiency of chitosan-hydroxy propyl methyl cellulose (HPMC) films, chitosan-HPMC films associated with lipid, and chitosan-HPMC films chemically modified by cross-linking were evaluated. In addition, the physicochemical properties of composite films were evaluated to determine their potential for food applications. The incorporation of stearic acid into the composite chitosan-HPMC film formulation decreased water sensitivity such as initial solubility in water and water drop angle. Thus, cross-linking of composite chitosan-HPMC, using citric acid as the cross-linking agent, led to a 40% reduction in solubility in water. The water vapor transfer rate of HPMC film, approximately 270 g x m(-2) x day(-1) x atm(-1), was improved by incorporating chitosan and was further reduced 40% by the addition of stearic acid and/or cross-linking. Anti-listerial activity of films was determined on solid medium by a numeration technique. Chitosan-HPMC-based films, with and without stearic acid, inhibited the growth of Listeria monocytogenes completely. On the other hand, a loss of antimicrobial activity after chemical cross-linking modification was observed. FTIR and 13C NMR analyses were then conducted in order to study a potential chemical modification of biopolymers such as a chemical reaction with the amino group of chitosan. To complete the study, the mechanical properties of composite films were determined from tensile strength assays. 相似文献
5.
纳米SiO2对聚乙烯醇基复合涂膜包装材料成膜透湿性能的影响 总被引:1,自引:1,他引:0
聚乙烯醇(PVA)由于其亲水性能而影响其在食品包装上的应用。本研究采用添加纳米SiO2对聚乙烯醇基复合涂膜包装材料进行改性,利用响应曲面方法研究SiO2、硬脂酸、戊二醛对三元复合涂膜材料成膜效能特性的影响及交互作用。结果表明:加入纳米SiO2可有效提高聚乙烯醇基复合涂膜包装材料的阻水阻湿性能,优化组成膜透湿率(8.18 g•m-2•d-1)比对照组(不添加纳米SiO2的PVA复合膜)降低26.61%(p<0.05)。硬脂酸、戊二醛对复合涂膜材料成膜的透湿率的影响与纳米SiO2存在显著的交互作用,每100 mL 5%(W/VH2O)的PVA溶液中纳米SiO2添加量在小于0.05 g范围内随着其含量增大,复合涂膜材料成膜透湿率随硬脂酸、戊二醛的比例增加而降低,阻水阻湿性能提高。 相似文献
6.
The poor barrier and mechanical properties of biopolymer‐based food packaging can potentially be enhanced by the use of layered silicates (nanoclay) to produce nanocomposites. In this study, starch‐clay nanocomposites were synthesized by a melt extrusion method. Natural (MMT) and organically modified (I30E) montmorillonite clays were chosen for the nanocomposite preparation. The structures of the hybrids were characterized by X‐ray diffraction (XRD) and transmission electron microscopy (TEM). Films were made through casting using granulate produced by a twin‐screw extruder. Starch/MMT composite films showed higher tensile strength and better water vapor barrier properties than films from starch/I30E composites, as well as pristine starch, due to formation of intercalated nanostructure. To find the best combinations of raw materials, the effects of clay content (0–21 wt% MMT), starch sources (corn, wheat, and potato), and amylose content (≈0, 28, 55, 70, 100%) on barrier and mechanical properties of the nanocomposite films were investigated. With increase in clay content, significantly higher (15–92%) tensile strength (TS), and lower (22–67%) water vapor permeability (WVP) were obtained. The barrier and mechanical properties of nanocomposite films did not vary significantly with different starch sources. Nanocomposite films from regular corn starch had better barrier and mechanical properties than either high amylopectin or high‐amylose‐based nanocomposite films. WVP, TS, and elongation at break (%E) of the films did not change significantly as amylose content increased beyond 50%. 相似文献
7.
为考察壳聚糖对鱿鱼皮明胶膜的改性效果,将壳聚糖添加到明胶溶液中,考察壳聚糖的添加量对鱿鱼皮明胶复合膜机械性能、水蒸气透过率、透光性及其结构的影响。结果表明,壳聚糖能有效改善鱿鱼皮明胶膜的有关性能指标,当鱿鱼皮明胶溶液与壳聚糖溶液以60∶40(v/v)比例混合,制得复合膜的断裂伸长率相比单一明胶膜下降,但其抗拉伸强度、透光率和水蒸气阻隔能力分别比单一明胶膜提高了652%、11%和48%;差示扫描量热仪、红外及扫描电镜分析结果显示,壳聚糖能与鱿鱼皮明胶相互作用,形成结构致密的均相体系,提高复合膜的热变性温度。综上可知,鱿鱼皮明胶与壳聚糖之间具有良好的相容性,壳聚糖是一种较理想的明胶膜改性材料。本试验结果为鱿鱼皮明胶作为食品保鲜膜的应用提了供依据。 相似文献
8.
Physicochemical properties and bacterial resistance of biodegradable milk protein films containing agar and pectin 总被引:1,自引:0,他引:1
Letendre M D'Aprano G Lacroix M Salmieri S St-Gelais D 《Journal of agricultural and food chemistry》2002,50(21):6017-6022
Free-standing sterilized edible films based on milk proteins, namely calcium caseinate and whey protein isolate, and polysaccharides, namely pectin and agar, were developed. Cross-linking of the proteins was achieved by the combination of thermal and radiative treatments. Autoclaving pectin and agar prior to their addition to the protein solutions generated films with an improved (P < or = 0.05) puncture strength. The presence of proteins and pectin-agar in the film formulation enhanced (P < or = 0.05) the moisture barrier of the films by 18%. A strain of Streptococcus thermophilus was used to assess the biodegradability behavior of the cross-linked films. Microbiological counts and soluble nitrogen analysis confirmed the biodegradability property of the milk protein films containing autoclaved pectin and agar. 相似文献
9.
Properties of zein films coated with drying oils 总被引:1,自引:0,他引:1
Zein films prepared by resin were coated with either flax oil or tung oil and cured by UV- or gamma-radiation. Coated zein films were then evaluated for tensile and water barrier properties. Film microstructure was examined by transmitted light microscope. Tensile strength, elongation, and toughness of oil-coated samples increased substantially with respect to uncoated films. Flax oil coated samples showed an increase in elongation of 300%. It was suggested that oil coatings fill in pinholes and cracks existing in zein films, affecting their mechanical properties. Water vapor permeability also decreased statistically for coated film (except for tung oil coated-UV treated films), suggesting water vapor transfer was controlled by film hydrophobicity and microstructure. Moreover, the liquid water transmission rate of coated films was at least 10 times slower than for control films. Examination of film microstructure revealed that flax oil coatings had uniform coverage and smooth finish, which explained their high elongation, low water vapor permeability. Tung oil coatings cured under UV light showed patterns of intertwined dark and light regions, which may be caused by cross-linking and drying at different times. The oriented structures were found when tung oil coatings were cured by gamma-radiation. 相似文献
10.
为探究乌贼墨黑色素纳米粒(MNP)对明胶-普鲁兰多糖(Gel/Pul)复合膜的改性效果,本研究以乌贼墨为原料,利用动态高压微射流技术制备MNP,以明胶、普鲁兰多糖为成膜基质,添加MNP制备纳米复合膜,通过水蒸气透过率(WVP)、透油率、光学性能、机械性能和自由基清除率等指标,考察了MNP添加量对复合膜的物理特性和抗氧化能力的影响,并通过傅里叶红外光谱(FTIR)和扫描电镜(SEM)进行微观表征,探究MNP与成膜基质间的相互作用。结果表明,MNP与Gel/Pul基质存在氢键的相互作用,具有良好的生物相容性;MNP的加入可以改善纳米复合膜的水蒸气阻隔性和机械性能;当MNP添加量为1 wt%时,复合膜的水蒸气透过率最小,抗拉强度达到最大值;随着MNP添加量的增加,纳米复合膜表现出优越的紫外阻隔性和抗氧化性能。本研究结果为MNP应用于可食膜改性及食品包装提供了一定的理论依据。 相似文献
11.
为了探究改性对玉米醇溶蛋白膜的性能影响,明确制备硬胶囊后的体外释放规律。该研究采用葡萄糖对玉米醇溶蛋白进行湿法糖基化改性,对糖基化改性产物的机械性能、阻湿性、阻氧性、阻油性和肠溶性进行研究。结果表明,改性后玉米醇溶蛋白膜的抗拉强度为34.06 MPa,相比未改性zein膜4.67 MPa有明显提高(P0.05);改性后玉米醇溶蛋白的吸水率在24 h达到最大,为84.98%;zein-glu膜的过氧化值为0.43 g/100 g,较zein膜的过氧化值0.49 g/100 g低;zein-glu膜的水蒸气透过率在达到平稳时降至7.89×10~(-8) g·m/(m~2·d·Pa);zein-glu膜的透油系数为0,阻油性与市售保鲜膜相当;胶囊释放以罗丹明B作为胶囊填充内容物,结果表明由zein-glu制备的胶囊具有肠溶性,模拟体外释放的拟合数学模型决定系数R~2为0.800,该模型通过卡方检验、相关系数检验和t统计量的显著性检验。研究结果可为玉米醇溶蛋白的改性、成膜机制和肠溶性释放提供理论参考。 相似文献
12.
Sabato SF Ouattara B Yu H D'Aprano G Le Tien C Mateescu MA Lacroix M 《Journal of agricultural and food chemistry》2001,49(3):1397-1403
Sterilized biofilms based on soy protein isolate (SPI, S system) and a 1:1 mixture of SPI and whey protein isolate (WPI, SW system) were achieved through the formation of cross-links by means of gamma-irradiation combined with thermal treatments. The effect of the incorporation of carboxymethylcellulose (CMC) and poly(vinyl alcohol) was also examined. gamma-Irradiation combined with thermal treatment improved significantly the mechanical properties, namely, puncture strength and puncture deformation, for all types of films. Irradiated formulations that contain CMC behave more similarly as elastomers. CMC showed also significant improvements of the barrier properties, namely, water vapor permeability, for irradiated films of the S system and for non-irradiated films of the SW system. 相似文献
13.
S. Tejinder 《Cereal Chemistry》2003,80(6):728-731
Films for potential food use were prepared from aqueous solutions of β‐glucan extracted from hulled barley, hull‐less barley, and oats. The extracts (75.2–79.3% β‐glucan) also contained proteins, fat, and ash. Glycerol was used as a plasticizer. The films were translucent, smooth, and homogeneous in structure on both sides. Water vapor permeability of films prepared from 4% solutions of β‐glucan extracts were higher than those from 2% solutions, despite similar values for water vapor transmission rate. Mechanical properties were influenced by both β‐glucan source and concentration. The oat β‐glucan films showed higher tensile strength and water solubility, and lower color, opacity, and deformation values than those of barley. Films prepared from hull‐less barley cv. HLB233 remained intact upon immersion in water for 24 hr. 相似文献
14.
为开发天然的可降解、可食性包装材料,以高粱醇溶蛋白为原料,采用溶液共混的方法制备可食性丁香酚/高粱醇溶蛋白复合膜,分析不同浓度丁香酚对可食性高粱醇溶蛋白膜物理性能及微观结构的影响并探讨其变化机理。结果表明,添加4%丁香酚可优化蛋白膜的机械性能,提升膜的拉伸强度(TS)和断裂伸长率(EAB);添加丁香酚不影响蛋白膜的水蒸气透过系数(WVP),但略微提高了蛋白膜的溶解度;添加4%丁香酚可增加蛋白膜对紫外光和可见光的吸光度值,即增强膜的光阻隔性能。DSC测量显示,添加丁香酚后降低了高粱醇溶蛋白的玻璃态转变温度(Tg),表明丁香酚提高了丁香酚/高粱醇溶蛋白复合膜的延展性;FTIR分析结果表明,添加丁香酚后使得高粱醇溶蛋白二级结构中的α-螺旋、无规则卷曲转变为β-折叠、β-转角,表明丁香酚有助于提高丁香酚/高粱醇溶蛋白复合膜的机械性能;SEM结果显示,4%丁香酚与高粱醇溶蛋白的相容性良好,制备的复合膜截面光滑紧致。本研究结果为可降解、可食性膜新材料的研究及应用推广提供了理论参考。 相似文献
15.
Improvement in the water stability and other related functional properties of thin (<50 μm) kafirin protein films was investigated. Thin conventional kafirin films and kafirin microparticle films were prepared by casting in acetic acid solution. Thin kafirin films cast from microparticles were more stable in water than conventional cast kafirin films. Treatment of kafirin microparticles with heat and transglutaminase resulted in slightly thicker films with reduced tensile strength. In contrast, glutaraldehyde treatment resulted in up to a 43% increase in film tensile strength. The films prepared from microparticles treated with glutaraldehyde were quite stable in ambient temperature water, despite the loss of plasticizer. This was probably due to the formation of covalent cross-linking between free amino groups of the kafirin polypeptides and carbonyl groups of the aldehyde. Thus, such thin glutaraldehyde-treated kafirin microparticle films appear to have good potential for use as biomaterials in aqueous applications. 相似文献
16.
Olabarrieta I Gällstedt M Ispizua I Sarasua JR Hedenqvist MS 《Journal of agricultural and food chemistry》2006,54(4):1283-1288
The properties of new and aged glycerol-plasticized vital wheat gluten films containing < or =4.5 wt % natural or quaternary ammonium salt modified montmorillonite clay were investigated. The films were cast from pH 4 or pH 11 ethanol/water solutions. The films, aged for < or =120 days, were characterized by tensile testing, X-ray diffraction, and transmission electron microscopy. In addition, water vapor permeability (11% relative humidity) and the content of volatile components were measured. The large reduction in the water vapor permeability with respect to the pristine polymer suggests that the clay platelets were evenly distributed within the films and oriented preferably with the platelet long axis parallel to the film surface. The film prepared from pH 11 solution containing natural clay was, as revealed by transmission electron microscopy and X-ray diffraction, almost completely exfoliated. This film was consequently also the strongest, the stiffest, and the most brittle and, together with the pH 11 film containing modified clay, it also showed the greatest decrease in water vapor permeability. The large blocking effect of the clay had no effect on the aging kinetics of the films. During aging, the pH 4 and pH 11 film strength and the pH 4 film stiffness increased and the pH 4 film ductility decreased at the same rate with or without clay. This suggests that the aging was not diffusion rate limited, that is, that the loss of volatile components or the migration of glycerol or glycerol/wheat gluten phase separation was not limited by diffusion kinetics. The aging rate seemed to be determined by slow structural changes, possibly involving protein denaturation and aggregation processes. 相似文献
17.
Water sorption, water vapor permeability, and tensile properties were evaluated for zein films plasticized with oleic acid. The effect of relative humidity on water vapor permeability and tensile properties of films was investigated. Samples were produced by two different methods: casting from a zein solution and stretching from a zein-fatty acid resin. Films were also coated with linseed oil. Results indicated that preparation method affected water sorption and permeability of zein films. Resin films showed lower water sorption than cast films, especially at high Aw values. Water vapor permeability was also lower for resin films. Coating with linseed oil further improved water vapor barrier ability of resin films. Permeability was affected by environmental relative humidity; higher relative humidity resulted in increased permeability. Environmental relative humidity also affected tensile properties of resin films. Toughness and elongation were improved when relative humidity increased from 50 to 85% rh. Tensile strength showed a maximum at 75% rh. Coating improved elongation and toughness of films. Maximum elongation and toughness were observed for coated samples at 85% rh. Zein resin films showed good tensile and water barrier properties that were maintained through environmental humidity levels from 50 to 98% rh. 相似文献
18.
辉光放电低温等离子体改性大豆分离蛋白可食膜工艺优化 总被引:3,自引:3,他引:0
为制备具有良好性能的可食膜,该文采用大豆分离蛋白(soy protein isolate,SPI)为成膜基材,利用辉光放电等离子体作用对可食膜进行改性,并研究等离子体处理时间、丙三醇质量浓度、pH值对可食膜水蒸气透过系数(water vapor permeability,WVP)、氧气透过率(oxygen permeability,OP)抗拉强度(tensile strength,TS)、断裂伸长率(elongation,E)的影响。利用响应面法对工艺参数进行优化,得到各因素对可食膜性能影响的大小依次为pH值丙三醇质量浓度等离子体处理时间。试验结果表明:丙三醇质量浓度为0.02 g/mL、等离子体处理时间为11.31 min、pH值为11,可食膜性能综合得分S为0.90。此时可食膜的断裂伸长率为273.77%、抗张强度为3.46 MPa、水蒸气透过系数为1.81×10~(-12) g/(cm·s·Pa)、氧气透过率为1.43×10~(-5) cm~3/(m~2·d·Pa)。通过原子力显微镜和接触角测量仪对可食膜表面进行观察,结果表明:经低温等离子体处理的可食膜表面物理结构发生改变,粗糙度增加,水接触角变小,有效提高大豆分离蛋白膜的机械性能和表面润湿性。 相似文献
19.
Barrier and mechanical properties of milk protein-based edible films containing nutraceuticals 总被引:1,自引:0,他引:1
Calcium caseinate (CC) and whey protein isolate (WPI) films were prepared to contain 5 or 10% Gluconal Cal (GC), a mixture of calcium lactate and gluconate, or 0.1 or 0.2% alpha-tocopheryl acetate (VE), respectively. The pH and viscosity of film-forming solutions and the water vapor permeability and tensile property of the films were determined using standard procedures. CC and WPI films have the capabilities to carry high concentration of GC or VE, but some of the film functionality might be compromised. Adding VE to CC and WPI films increased film elongation at break, whereas incorporating 0.2% VE decreased WVP of CC films and tensile strength of both CC and WPI films. Incorporation of GC reduced the tensile strength of CC films (P < 0.05), with 10% GC decreasing both elongation at break and WVP (P < 0.05). These types of films may be used for wrapping or coating to enhance the nutritional value of foods. The concentration of GC and VE added to the films must be carefully selected to meet required water barrier and mechanical properties of the films depending on their specific applications. 相似文献
20.
Development of biodegradable films from whey proteins by cross-linking and entrapment in cellulose 总被引:1,自引:0,他引:1
Le Tien C Letendre M Ispas-Szabo P Mateescu MA Delmas-Patterson G Yu HL Lacroix M 《Journal of agricultural and food chemistry》2000,48(11):5566-5575
When cross-linked by heating or by gamma-irradiation and entrapped in cellulose, whey proteins can generate insoluble biofilms with good mechanical properties and high resistance to attack by proteolytic enzymes. Interchain cross-linking of proteins generated an increase in the puncture strength, and a decrease in water vapor permeability. Gelatin was added in film formulation as a stabilizer to improve the puncture strength and film appearance. The structure of the biofilms was also analyzed. SDS-PAGE revealed that heating and gamma-irradiation produce an increase of the molecular weight of the cross-linked protein. Size exclusion chromatography showed a molecular mass of 40 kDa for un-cross-linked whey proteins, whereas for the soluble fractions of the cross-linked proteins, molecular distributions were between 600 and 3800 kDa for the heated proteins and between 1000 and 2000 kDa for gamma-irradiated proteins. No major alteration of the structural conformation of the proteins was observed by FTIR for biofilms obtained after heat treatment, whereas gamma-irradiation induced some modifications in the protein structure. X-ray diffraction analysis suggests that cross-linking by gamma-irradiation seems to modify the conformation of proteins, which became more ordered and more stable. 相似文献