DEGREE OF SUBSTITUTION OF THE IONIZED STARCHES AND THEIR ADHESIVE CAPACITY TO POLYESTER / COTTON FIBERS

Adhesive capacity of quaternary ammonium starch and starch phosphate to the polyester / cotton fibers was studied by means roving method for the purpose of improving the sizing performance and decreasing the cost. By introducing different amount of quaternary ammonium or phosphate groups onto starch molecules, the modified starch with a series of defferent degree of substitution was prepared. Therefore the regularity of adhesive capacity, extended property and size-absorbing ability with the change in degree of substitution (DS) was obtained through the researches. The experiments demonstrate that the DS of the two modified starches show a marked influence upon the properties mentioned above. The starch phosphate is superior to quaternary ammonium starch as warp size for polyester / cotton yarns from the viewpoint of adhesive capacity and cost, although both of them are better than natural one. To improve the adhesive capacity to polyester / cotton fibers, DS≥0.027 is necessary for quaternary ammonium

THE ADHESIVE CAPACITY OF STARCH GRAFT COPOLYMERS TO POLYESTER/COTTON FIBER

The advantages of using starch graft copolymers as warp sizes in textile were briefly discussed, and the factors of affecting adhesive capacity to the fiber were analysed. By using eerie ammonium nitrate as an initiator under nitrogen atomosphere, a number of vinyl and/or acrylic monomers such as acrylic acid, acrylamide, methyl acrylate, ethyl acrylate, butyl acrylate, hydroxyethyl acrylate, methyl methacrylate, butyl methacrylate, vinyl acetate and the combinations among them were graft copolymerized respectively onto granular corn starch in aqueous dispersion. The adhesive capacity of these starch graft copolymers to polyester/cotton fibers was evaluated by a slightly sized rovings according to V. K. Aggarwal’s method which measures the breaking strength and elongation of the rovings impregnated with the size paste. The influences of the monomers and their combinations, the grafting technological processes and the pretreatment methods before graft copolymerization upon adhesive capacity have been

Starch-Based Adhesives for Wood/Wood Composite Bonding: Review

Increasing global energy crisis and scarcity of petroleum resources has shifted focus of chemical industries to look for alternative raw material resources. The main focus of raw materials in wood adhesives, such as petroleum and natural gas [1] [2], would be gradually replaced by renewable biopolymers. Starch is a relatively inexpensive and renewable product from abundant plants, easy processing and it has been extensively used as binders, sizing materials, glues and pastes [3], but its bonding capacity is not strong enough to glue wood [4]. Extensive research has been carried out on improving the cohesive properties, especially water resistance, of starch-based adhesives. In starch-based wood adhesive many new approaches have come forward for effective use it in wood/wood composite adhesive giving comparable performance as synthetic adhesives. This review of starch-based adhesives is made with the focus on starch modification methods for improving properties of starch-based adhesives.

Physicochemical Properties Comparative Analysis of Corn Starch and Cassava Starch, and Comparative Analysis as Adhesive

The morphology and properties of corn starch and cassava starch were compared by SEM, DSC and TGA. Theeffects of amylose and amylopectin content on starch properties were studied by FT-IR, XRD and XPS. The plywood was pressed with the prepared adhesive and the bonding strength of the plywood was tested to analyze thedifference among the adhesives from different plant sources and the difference after blending PAPI prepolymer.FT-IR results showed that the hydroxyl peak of cassava starch was stronger and wider. TGA showed that the residue of cassava starch was lower, but the thermal stability of cassava starch was almost the same. XPS data showedthat the oxygen content of cassava starch was slightly higher, but the carbon content was slightly lower. SEM analysis showed that corn starch granules were more irregular and sharper than cassava starch, and cassava starchgranules were more uniform, regular and round.

Silane Modification of Starch-Based Wood Adhesive: Review

Currently there has been a growing interest in substituting traditional synthetic polymers with biobased renewable polymers for adhesive applications. However, biobased renewable polymers such as starch suffer from few draw-backs like poor water resistance and mechanical strength. To become important potential alternatives of synthetic polymers, starch must have comparable physical, chemical, thermal and mechanical properties to that of synthetic polymers. To achieve this, starch has been modified by a series of crosslinkers like boric acid, citric acid, glyoxal, gluteraldehyde, etc. and silane modification. Silane modification by chloropropyl trimethoxysilane, γ-Methacryloxypropyl trimethoxy silane and vinyl trimethoxy silane is a suitable method to improve the performance in terms of mechanical and thermally. Silane forms covalent bonds with starch during starch modification resulted in enhanced shear strength and storage stability. A new research on biodegradable, renewable, environmentally friendly silane modification of starch-based wood adhesive that was prepared by reacting with various silanes. This paper, we reviewed silane as a modifying agent for starch-based wood adhesive.

Adhesive Bonding and Self-Curing Characteristics of α-Starch Based Composite Binder for Green Sand Mould/Core

Interactions between different components in α-starch based composite binder for green sand mould/core were investigated by using XRD, IR spectra, 1H NMR spectra and SEM. Several adhesive hardening structures and theories of the binder at room temperature were proposed according to the interactions between various compositions. Thus, the reasons for the binder to have excellent combination properties and unique adhesive bonding and self-curing characteristics were explained by these theories successfully. And the theories are of great directive importance to design and development of composite binder for green sand mould/core.

Modeling and Optimization of the Shear Strength of Cassava Starch-Based Adhesives Using Artificial Intelligence Methods

With the exponential growth of the computing power,machine learning techniques have been successully used in various applications.This paper intended to predict and optimize the shear strength of single lap cassava starch-based adhesive joints for comparison with the application of artificial intelligence(AI)methods.The shear strength was firstly determined by the experiment with three independent experimental variables(starch content,NaOH concentration and reaction temperature).The analysis of range(ANORA)and analysis of variance(ANOVA)were applied to investigate the optimal combination and the significance of each factor for the shear strength based on the orthogonal experiment.The performance of all AI models was char acterized by mean absolute error(MAE),root mean square error(RMSE)and regression coefficient(R^(2))compared with the experi-mental ones.The GA optimized ANN model was combined with the genetic algorithm(GA)to find the optimal combination of factors for the finalized optimized cassava starch adhesives(CSA-OP).The physicochemical prop-erties of the cassava starch and CSA-OP were determined by the FTIR,TGA and SEM EDS,respectively.The results showed that the numerical optimized condition of the GA optimized ANN model was superior to the orthogonal experimental optimized condition.The sensitivity analysis revealed that the relative importance of variables was consistent with the results from ANOVA.FTIR results showed that there were high hydroxyl groups in cassava starch.TGA results showed that the residue of CSA OP was higher than the assava starch.SEM EDS results showed that both the cassava starch and CSA OP had abundant carbon and oxygen functional groups.Consequently,the obtained results revealed that the use of AI methods was an adequate approach to model and optimize the experimental variables of the shear strength of single lap cassava starch-based adhesive joints.

Influence of Processing Variables on Some Physico-Chemical Properties and Quality of Manioc Starch-Based Adhesives

Bio-degradable cassava starch-based adhesives were produced from chemically gelatinized starch formulations. The varying combinations of process parameters applied include: concentration of gelatinization modifier, mass % borax/starch, and temperature of reaction mixture. The physico-chemical parameters for characterizing the adhesive samples were viscosity, density, pH and bonding strength. The effects of the variation of process parameters on the quality of the adhesives were assessed using response surface (central composite) designs with 2 factors, to relate the highest adhesive quality with the optimal combination of process factors. The adhesives produced using HCl as the gelatinization modifier were of a higher quality than those produced using NaOH with one of the most important quality assessment parameters which is the bond strength being 22.31 kPa at 0.01 M and 20% mass borax/starch and 11.60 kPa at 0.01 M and 8% mass borax/starch for HCl and NaOH respectively. The experimental results demonstrated that the optimal temperature for the production of the adhesive was 85˚C.

Effect of Starch Dodecenylsuccinylation on the Adhesion and Film Properties of Dodecenylsuccinylated Starch for Polyester Warp Sizing

A series of dodecenylsuccinylated starches( DSSs) with different degree of substitution( DS) were prepared via the esterification of dodencenylsuccinic anhydride with hydrolyzed cornstarch in aqueous dispersion for investigating the influences of starch dodecenylsuccinylation upon the performances such as apparent viscosity and surface tension of starch paste, film behaviors,and adhesion to fibers for warp sizing. It was found that the dodecenylsuccinylation was able to reduce the surface tension of cooked starch paste and enhance the adhesion of starch to polyester fibers. It was also capable of depressing the brittleness of native starch and improving the mechanical behaviours such as breaking elongation and work-to-break of starch film. Initial increase in DS level of dodecenylsuccinylation enhanced these positive effects,while excessively increasing the level resulted in marked reduction in tensile strength of starch film and significant decrement in reaction efficiency. X-ray diffraction patterns of starch films showed the dodecenylsuccinates derivatized onto the backbones of starch depressed the degree of crystallinity of starch film. Based on the paste behaviors, adhesion, and film properties, the dodecenylsuccinylation level is recommended in a range of 0. 015-0. 025 for sizing polyester warps.

Effect of Electrolyte Impurities within Starch on the Adhesion of Quaternary Ammonium Starch to Fibers

Influences of some electrolyte impurities within starch and starch cationization on the adhesion of quaternary ammonium cornstarch to cotton and polyester fibers were investigated. The electrolytes considered included NaCI, Na2SO4, NaH2PO4 and Na2HPO4. The adhesion to fibers was evaluated in terms of maximum strength and work-to-break of the roving sized with the starch pastes containing electrolytes. It was found that the cationization showed a positive effect on the adhesion to both fibers whereas the electrolytes gave an adverse effect and reduced the adhesion. The adverse effect depends on the type and amount of electrolytes. The influence of electrolytes on the adhesion can be ranked in a series of NaH2PO4〉 Na2 HPO4〉 Na2SO4 〉 NaCl. The adhesion enhances as the modification extent increases and the electrolyte content decreases. Furthermore, the adverse effect can be compensated by the positive effect of the starch modification even at a low modification extent. If the electrolytes are fully eliminated, the cationic starch can increase the adhesion strength by more than 10% for both fibers.

Sustainable Raw Materials in Hot Melt Adhesives: A Review

Hot-melt (HM) adhesives offer advantages over their contemporary water-based and solvent-based adhesives like low volatile organic compounds (VOCs), 100% solid, fast drying, setting etc. In recent years, to reduce their dependence on dwindling petroleum resources and due to the enormous use of HM adhesives in packaging areas that demand 100% recyclability, efforts have been devoted to making these formulations completely bio-based, sustainable and biodegradable. In this attempt, research and developments have been focused on using starch, modified starch, soy protein, polylactides, polyamides, lignin and vegetable oils as a partial/fully replacement to the petrochemical-based polymers. The huge amount of research going on in the field of bio-based polymers has still not reached its complete potential in the field of HM adhesives. In this review paper, HM adhesives based on sustainable raw materials namely starch, modified starch, polyamides, poly (lactic acid), soy protein and lignin are discussed.

木薯淀粉-丙烯酰胺接枝共聚物的结构与性能

为消除传统人造板的甲醛释放对人体健康和环境造成的危害,将木薯淀粉(CS)降解后与丙烯酰胺(AM)接枝共聚,制备木薯淀粉-丙烯酰胺接枝共聚物(CS-AAGC)胶黏剂,并对其外观、黏度、固含量等基本性能进行测定。通过傅里叶变换红外光谱(FT-IR)、核磁共振碳谱(13C NMR)及X射线光电子能谱(XPS)对其结构进行分析,采用差式扫描量热分析(DSC)及扫描电镜(SEM)分析其固化性能,探究木薯淀粉与丙烯酰胺(AM)的物质的量比对木薯淀粉-丙烯酰胺接枝共聚物胶黏剂胶合强度的影响。结果表明:合成的木薯淀粉-丙烯酰胺接枝共聚物胶黏剂外观为乳白色均一液体,随着丙烯酰胺添加量的增加,共聚物的黏度也随之增加;丙烯酰胺上的双键与淀粉中的羟基发生了反应;当n(淀粉基本单元)∶n(AM)=1∶5时,相应的木薯淀粉-丙烯酰胺接枝共聚物的胶合性能相对最好,以其制备的胶合板干状剪切强度为1.46 MPa、(23±2)℃冷水浸泡24 h后的剪切强度为0.87 MPa、(63±1)℃热水浸泡3 h后的剪切强度为0.84 MPa,符合GB/T 9846—2015《普通胶合板》对Ⅱ类胶合板的要求。

短链磺酸钠对淀粉基胶黏剂性能影响及迁移行为研究

本研究以玉米淀粉为原料,将1-己烷磺酸钠(SHS)引入胶黏剂体系中来探究表面活性剂对胶黏剂的影响,利用傅里叶红外光谱和X射线衍射表征了接枝共聚物;用拉力试验机对木块的剪切强度进行测试;用流变仪表征了淀粉基胶黏剂的流变行为,结合黏度、光学显微镜和乳化剂迁移分析了胶黏剂的性能。结果显示,乙酸乙烯酯单体成功接枝到淀粉链上,添加3%的SHS对胶黏剂的提升更佳,湿基和干基的剪切强度明显增高,黏度值降低,乳化剂会留在胶膜内部。因此,该研究将为环保型淀粉基胶黏剂的开发与利用提供提论支持。

DAAM/ADH 接枝交联复合改性淀粉木材胶黏剂的制备及表征

以硝酸铈铵(CAN)为引发剂,将双丙酮丙烯酰胺(DAAM)接枝到玉米淀粉上,通过DAAM的酮羰基(C=O)与己二酸二酰肼(ADH)间的酮肼交联反应,制备了DAAM/ADH接枝交联复合改性淀粉胶黏剂。通过胶黏剂的接枝率、接枝单体分布以及刨花板性能确定了最佳DAAM添加量,利用FT-IR、TGA和SEM表征了接枝和交联改性对胶黏剂性能与结构的影响。结果表明,当DAAM添加量为45 g时效果最佳,接枝率为16.75%,DAAM在淀粉上的分布最均匀,制备的刨花板断裂模量为10.56 MPa,弹性模量为1741.33 MPa,吸水厚度膨胀率为8.5%,接枝和交联反应成功进行,并且提高了胶黏剂的储藏稳定性、抵抗破坏的能力和热稳定性。

丙酸酯化-叔胺化淀粉浆料的制备及其黏附性能

为改善淀粉浆料的黏附性能,以提升淀粉浆料对经纱的上浆质量,以丙酸酐(PA)为酯化剂,二甲氨基氯乙烷盐酸盐(DMC-HCl)为叔胺醚化剂,采用固定PA用量及改变DMC-HCl用量的方式,以水为介质,在弱碱性和低温条件下,对酸解淀粉(AHS)进行丙酸酯化-叔胺化处理,制备出一系列具有不同总取代度的丙酸酯化-叔胺化淀粉(PTAS)。对其进行化学结构表征、元素分析、颗粒形貌观察分析以及取代度测定,并对其与涤纶、涤/棉与棉粗纱间黏附性,以及浆液表面张力进行考察。结果表明:固定PA对AHS质量分数为4.63%、改变DMC-HCl用量为10~40 g,可制备出丙酸酯化程度为0.030、叔胺化程度为0.010~0.035的PTAS样品;化学结构表征与元素分析结合证实了PTAS的成功制备,PTAS颗粒仍保持颗粒态形貌,但部分颗粒表面产生损伤;这种复合变性能够明显改善淀粉对涤纶、棉纤维的黏附性能,提升淀粉浆液的表面活性,表现为PTAS对涤纶、涤/棉及棉3种粗纱的黏合力均明显高于AHS,表面张力明显低于后者;随着PTAS总取代度的增加,其表面张力逐渐降低、黏合力逐渐增大、对棉纤维黏附性的提升优于对涤纶纤维。

改性木薯淀粉胶黏剂的制备及性能研究

目的探究不同含量的氧化剂、糊化剂以及交联剂对木薯淀粉性能的影响。方法通过红外、流变学表征方法系统研究了糊化剂(NaOH)和氧化剂(NaClO)用量对淀粉胶黏剂性能的影响。结果当加入16%(相于干淀粉质量而言)的NaClO作为氧化剂时,淀粉胶黏剂的初黏力和黏度都达到最佳。当加入10%(相对干淀粉质量而言)的NaOH作为糊化剂时,淀粉在室温下就能发生糊化,形成黄色透明状胶黏剂,此时,胶黏剂有明显的触变性。结论NaClO的加入可以很好地改变淀粉胶黏剂的流动性,但过量的NaClO会使胶黏剂黏度过小,并致耐水性和黏结性不足。适量的NaOH加入可以使淀粉的黏度增加,但过量的NaOH会减弱重新缠结的淀粉高分子链间的作用力,导致黏度下降。硼砂的加入能与淀粉分子形成络合物,使淀粉胶黏剂的黏度有明显提升。

淀粉基非异氰酸酯聚氨酯胶黏剂的制备及性能研究

在无溶剂、无催化剂的条件下,采用两步法合成淀粉基非异氰酸酯聚氨酯(DPHU)胶黏剂。以二元胺和双(六元环碳酸酯)(BCC)为原料,合成氨基封端的聚羟基聚氨酯(NPHU)预聚物;进一步以双醛淀粉(DAS)为主要原料,与NPHU预聚物进行希夫碱反应合成DPHU胶黏剂,详细探讨了二元胺的相对分子质量和结构以及DAS添加量对其性能的影响。研究结果表明:随着(二元胺)聚醚胺相对分子质量的增加,NPHU预聚物的粘合性能降低,当聚醚胺相对分子质量为230时,NPHU-D230预聚物的搭接剪切强度最高可达5.35 MPa;酰胺键的存在会提高其粘合性能。随着DAS添加量的增加,DPHU的搭接剪切强度呈现先上升后下降的趋势,当DAS添加量(以质量分数计)为30%时,DPHU-30的搭接剪切强度最高达到6.26 MPa。力学性能分析表明:通过调节DAS添加量,可使DPHU在韧性和刚性材料之间进行转化,DAS添加量为70%时制得的样品DPHU-70的拉伸强度高达6.74 MPa,断裂伸长率可达12.59%。DPHU还具有良好的热稳定性、自愈合性能及形状记忆特性。当DAS添加量从0增加到70%时,DPHU-0~DPHU-70的玻璃化转变温度(T_(g))从16.14℃升高至31.56℃;当DAS添加量为0~50%时,DPHU-0~DPHU-50的表面划痕在50℃下、3 min内的自修复效率可达90%以上;将DPHU-30样条进行折叠,重复加热-冷却循环过程,样条可在短时间内恢复原状。

新型无醛淀粉胶黏剂制备刨花板的研究

为开发刨花板用无醛胶黏剂、满足广阔的市场需求,针对传统淀粉胶黏剂存在固含量低、黏度高和耐水胶接性能差等应用问题,采用新型无醛淀粉胶黏剂(DSA)制备刨花板,探讨其热压工艺、施胶量以及DSA和异氰酸酯(pMDI)胶黏剂复合使用对制造刨花板性能的影响。结果表明,以DSA制得刨花板的性能略低于以pMDI制得刨花板的性能,但DSA与pMDI复合使用时表现出节胶增效的协同作用,而且使用DSA可替代约20%的pMDI胶黏剂,同时热压因子可降低13.3%,有助于提升E_(NF)级刨花板的生产效率。DSA胶黏剂单独使用或与pMDI联用时,能够有效发挥黏结、填充、扩链、固化的作用,有助于解决传统淀粉胶黏剂工艺性能不佳、耐水胶接性能差等关键问题,有利于推动生物质绿色胶黏剂在人造板中的规模化应用。

一种室内装饰用新型淀粉胶粘剂制备及性能研究

为了制备出与我国标准相符用于室内装饰胶合板材料,对生物油-淀粉胶粘剂展开研究,以生物油、淀粉为主要原材料,试验因子包括淀粉乳液浓度、生物油加入量、丙烯酰胺、过硫酸铵等,评价试验中胶粘剂的性能指标主要包括固含量、胶合强度、黏度,使用正交试验法成功优选最有性能的改性淀粉胶粘剂的工艺。试验结果发现,在40%淀粉乳液质量分数、20%丙烯酰胺、25%过硫酸铵、20%生物油时,能够成功制备综合性能最优的室内装饰胶合板,储存期15 d时,最终1.44 MPa的胶合强度满足我国对Ⅲ类胶合板的制备要求。

氧化-叔胺化淀粉的制备及其对羊毛低温性能的影响

为提高淀粉在羊毛经纱低温上浆中的应用效果,在碱性条件下,制备氧化玉米淀粉(OCS)并与醚化剂(二甲氨基甲酰氯)反应制备氧化-叔胺化淀粉(OTAS),使用扫描电子显微镜(SEM)和X射线能谱仪(EDS)对其进行了表征分析,并考察了这种变性对淀粉溶解度及其低温粘度及粘度热稳定性、粘附性、羊毛经纱上浆等性能的影响。结果表明,OTAS能有效降低淀粉的低温粘度,提高其低温粘度热稳定性,提高其溶解度及其对羊毛纤维的低温粘合性能,提升淀粉膜的溶胀度、溶解率,缩短水溶时间,降低膜脆性,具有更好的低温浆纱性能。随着取代度增加,OTAS的低温粘度、溶解度及其对羊毛纤维的低温粘附性能均逐渐提升,从而为OTAS在羊毛经纱低温上浆中的应用奠定了基础。