硫化天然橡胶的本征自修复与固相回收加工

通过小分子模拟试验和应力松弛,发现甲基丙烯酸铜(MA-Cu)比氯化铜(CuCl_2)更适合用作硫化天然橡胶中二硫键交换反应催化剂,并且硫化天然橡胶中的二硫键交换反应需要在高于120°C的温度下才能高效进行,这保障了相关制品在较低温工作时的结构与性能稳定.进一步的实验结果表明,硫化天然橡胶在MA-Cu辅助作用下获得了多次自修复与固相回收加工性能,损伤自修复后的硫化天然橡胶与固相回收加工的再生硫化天然橡胶,其拉伸强度均可恢复到原始材料强度的80%左右.     

Effect of Ground Rubber Powder on Properties of Natural Rubber

Ground rubber powder (GRP) with three different sizes was incorporated into nature rubber matrix with different loading. Cure characteristics, swelling behaviour, crosslink density, tensile fractured surface, and mechanical properties have been studied. Based on the cure characteristics, it is evident that the processability of the rubber compounds has not changed obviously with the different GRP loading. The introduction of GRP in virgin rubber leads to the increase in swelling degree and the decrease in crosslink density. Tensile strength, hardness and abrasion resistant deteriorate with the increase of GRP loading, but the tear resistance gets better. If the ground rubber particles are smaller, the properties are more similar to the virgin rubber. Because of the phase separation of the GRP and matrix, the properties get worse with the bigger ground rubber powder.     

胶粉的改性及其在热塑性弹性体中的应用

我国每年产生大量的废橡胶造成了严重的环境污染,作为废橡胶回收再利用的有效途径,胶粉的研究和应用受到广泛关注.本文介绍了胶粉的脱硫再生改性技术与表面活化改性技术及胶粉在热塑性弹性体中的应用,简述了胶粉基热塑弹性体的制备方法并比较了熔融共混法与动态硫化法的区别,概述了各类胶粉基热塑性弹性体的研究现状,着重介绍了胶粉基热塑弹...     

活性氯型丙烯酸酯橡胶的热可逆共价交联

利用热可逆季铵化反应特性,将含叔胺功能基团的聚合物用于活性氯型丙烯酸酯橡胶(ACM)的热可逆共价交联。通过乳液聚合方法合成了丙烯酸丁酯(BA)/4-乙烯基吡啶(4-VP)共聚物交联剂,考察了交联剂用量、模压温度和模压时间对ACM交联程度、力学性能的影响,并通过DSC、变温扭矩测定、热塑再加工成型等方法研究了交联ACM胶样的热可逆性。研究表明,BA-4-VP共聚物交联的炭黑填充ACM胶样拉伸强度可达8.5MPa,并可进行热塑模压成型,再次加工成型后胶样断裂强度增大、伸长率下降。     

基于乘用车轮胎胎面胶粉的再生橡胶的制备及性能

通过力化学再生法制备了以废轮胎胶粉为原料的再生橡胶,研究了不同活化剂420用量对再生橡胶性能的影响,测试表明：再生橡胶含硫键断裂生成了硫自由基,随着活化剂含量的增加,再生橡胶的邵氏硬度和交联密度持续降低;拉伸强度、断裂延伸率和凝胶含量均先升高后降低,在活化剂用量为0.9 phr时,拉伸强度和断裂延伸率最大,再生橡胶的凝胶含量最大为19.7%。 微观形貌发现,废轮胎胎面胶粉的颗粒较为分散,再生橡胶的结构颗粒相互粘连,孔洞和缺陷较多,再生橡胶的门尼黏度随着活化剂含量的增加而降低。 综合来看,活化剂420的最佳含量为0.9 phr,再生橡胶各项性能最优。     

包覆重钙粉为填充剂的橡胶加工及性能

重钙粉作为填充剂被广泛应用于橡胶加工过程,但由于其表面具有极性,分散性较差,导致与橡胶材料界面结合较差,影响了橡胶产品的抗拉强度、断裂伸长率等力学性能。 本文采用沉淀法,在CaCl₂-H₂O-NH₃-CO₂体系中生成碳酸钙直接结晶于重钙粉颗粒表面,实现对重钙粉的表面包覆,将n(CaCl₂)：n(重钙粉)=1：100、5：100、10：100的包覆重钙粉填充到天然橡胶和再生胶中,橡胶的力学性能与填充未包覆重钙粉的橡胶相比有了一定的提升。 通过比较,在填充量较大(8.5%、15%)时,包覆重钙粉橡胶产品在硬度、定伸应力等力学性能上要好于轻钙粉橡胶产品;在填充量(5%、8.5%)时,包覆重钙粉橡胶产品的抗拉强度、断裂伸长率接近于白炭黑,硬度高于白炭黑橡胶产品。     

Preparation of High-Performance Composite Hydrogel Reinforced by Hydrophilic Modified Waste Rubber Powder

In order to reduce the environmental pollution caused by waste rubber and to realize the recycling of resources, we proposed a facile method for the hydrophilic modification of waste rubber powder (HRP) and used it to reinforce a composite hydrogel. In the presence of toluene, dibenzoyl peroxide (BPO) diffused into the waste rubber powder. After the solvent was removed, BPO was adsorbed in the rubber powder, which was used to initiate the grafting polymerization of the acrylamide monomer on the rubber–water interface. As a result, the polyacrylamide (PAM) molecular chains were grafted onto the surface of the rubber powder to realize hydrophilic modification. The success of the grafting modification was confirmed by FTIR, contact angle testing, and thermogravimetric analysis. The hydrophilic modified waste rubber powder was used to reinforce the PAM hydrogel. Mechanical tests showed that the tensile strength and elongation at the break of the composite hydrogel reached 0.46 MPa and 1809%, respectively, which was much higher than those of pure PAM hydrogel. Such a phenomenon indicates that the waste rubber particles had a strengthening effect.     

冻干粉针用溴化丁基胶塞中溴化物的迁移及安全性评价

建立了对溴化丁基胶塞中溴化物的提取方法,考察了胶塞中溴化物在冻干粉中的浸出水平. 采用IonPac AS 11-HC色谱柱(4.0 mm×250 mm)和IonPac AS 11-HC保护柱(4.0 mm×50 mm),24 mmol/L KOH淋洗液等度洗脱,AERS 500(4 mm)阴离子抑制器及电导检测器,抑制器电流60 mA,柱温30 ℃,流速1.0 mL/min. 溴化物在0.2~10.0 mg/L浓度范围内线性关系良好(r＝0.999 9),检出限(LOD)为0.007 mg/L. 冻干粉针用溴化丁基胶塞以30%异丙醇水溶液为提取溶剂,80 ℃下保持7 h后测定提取液中溴化物含量. 冻干粉采用超纯水复溶后直接测定溴化物迁移量,迁移试验平均回收率为98.1%~104.3%,相对标准偏差(RSD,n=6)为2.9%~4.3%. 方法可用于包材相容性研究中实际样品的检测.     

Polymerization of Allylhalides,Butadienes and Acetylenes Induced by Active Uranium Powder

Allylhalides, butadienes and acetylenes were reacted with an active uranium powder which was prepared via electrolytic amalgamation. The reactions were conducted under a mild condition and brought forth a series of oligomers and polymers. The structures were characterized by means of IR and NMR spectroscopy. Possible reaction routes are suggested.     

含改性硅微粉硅橡胶阻燃抑烟研究

为进一步提升硅橡胶(SR)的阻燃性能,利用硅烷偶联剂对硅微粉(SF)进行表面改性,以改性后的SF为阻燃剂,制备出SR样品。通过扫描电子显微镜(SEM)对改性前后SF表面形貌进行表征,通过极限氧指数(LOI)、水平垂直测试、锥形量热仪(CCT)、烟密度测试(SDT)等手段研究SR复合材料力学性能、阻燃性能、抑烟性能。研究表明:添加相同质量的SF和改性SF时,含改性SF的SR力学性能明显提升。其中,含21%(wt)改性SF/SR复合材料的力学、阻燃性能综合最佳。与纯SR相比,改性SF/SR复合材料的LOI增加了15%,热释放速率峰值降低86%,火灾增长指数降低了58%,最大烟密度降低43%。     

高填充量碳纳米管/丁苯粉末橡胶机械混炼的物理化学机制

将用喷雾干燥法制备的碳纳米管(CNTs)/丁苯粉末橡胶复合材料在开炼机上机械混炼, 考察机械混炼对复合材料常规力学性能的影响, 并对机械混炼对CNTs增强丁苯橡胶复合材料力学性能的影响进行相应的理论研究和机理分析. 结果表明, 与混炼前的复合材料相比, 机械混炼有效地提高了CNTs/丁苯橡胶复合材料的力学性能, 特别是当CNTs加入量较大时, 提高幅度更为显著, 与填充传统补强剂CB复合材料相比, 具有较大的优势. 这是因为机械混炼一方面使CNTs在橡胶基体中获得了更为充分均匀的分散; 另一方面, 混炼过程中产生的自由基以及巨大的剪切力, 使得CNTs与橡胶基体间界面结合如物理吸附、氢键作用、化学结合等得到了进一步增强, 提高了CNTs/丁苯橡胶复合材料的结合橡胶含量, 更好地发挥了CNTs对丁苯橡胶的补强效应, 从而提高了复合材料的拉伸强度和撕裂强度等力学性能. CNTs补强丁苯橡胶复合材料力学性能的机理符合“强键和弱键学说”.     

草一光可湿性粉剂活性成分的反相高效液相色谱分析

采用反相高效液相色谱法同时测定15.5％草一光可湿性粉剂中的异丙甲草胶和苄嘧黄隆两种活性成分,以V（甲醇）：V（酸性水）=70：30作为流动相,采用ZORBAXSB-C18色谱柱。方法回收率达98.1％～102.6％,变异系数为0.4％～0.8％。     

负载金属氧化物活性炭对阻燃橡胶硫化、燃烧及热老化性能的影响

利用金属氧化物(MO)催化协效阻燃和改善热老化的作用,以及竹基活性炭(AC)富孔、比表面积大的特性,采用溶剂蒸发法将Fe_2O_3,Cu O和Zn O负载于AC上,得到了负载金属氧化物活性炭(AC-MO),并研究了AC-MO协效聚磷酸铵/双季戊四醇膨胀阻燃乙烯-醋酸乙烯酯共聚物橡胶(EVM)的硫化、燃烧、热稳定性及耐热老化性能.结果表明,AC-MO为目标产物且MO分散均匀,AC及AC-MO在阻燃EVM中分散均匀;AC-MO增大了阻燃EVM的最大扭矩并提高了阻燃性能及残炭量,其中AC-Fe_2O_3效果最佳;将Fe_2O_3负载于AC上提高了AC的催化成炭能力,改善了阻燃EVM残炭的完整性、致密性,最终阻燃性能得到提高.热老化实验后,AC-MO提高了阻燃EVM热老化后的拉伸强度,但断裂伸长率有所降低.     

胶束电动毛细管色谱法同时测定阿咖酚散中3种有效成分

建立了胶束电动毛细管色谱同时分离测定阿咖酚散中咖啡因、对乙酰氨基酚、阿司匹林3种有效成分的方法。对以有机碱三乙醇胺为改进剂的胆酸胶束相进行了优化,对改进剂的影响机理进行了详细讨论。最佳电泳条件如下:以40 mmol/L硼酸盐-60 mmol/L胆酸-12.5%三乙醇胺(pH 12.0)为缓冲体系,分离电压为15 kV,检测波长为254 nm。在上述条件下,14 min内实现了阿咖酚散中3组分的基线分离。咖啡因、对乙酰氨基酚和阿司匹林的线性范围分别为18.75～900.0(r=0.999 9)、2.60～62.50(r=0.992 9)、79.17～3 800 mg/L(r=0.994 0)。上述3组分迁移时间和峰高的相对标准偏差分别不高于1.8%和6.8%。咖啡因、对乙酰氨基酚和阿司匹林的检出限分别为4.6、0.17、38 mg/L。应用该法测定阿咖酚散中上述3组分,加标回收率分别为100%、100%和102%,可满足实际样品分析要求。所建立的方法简便、快速、灵敏、经济,能同时进行阿咖酚散中多种成分的分离测定。     

Rubber toughening of plastics: Rubber particle cavitation and its consequences

A newly-developed energy-based model for cavitation in rubber particles provides a quantitative basis for understanding the factors controlling toughness in rubber-modified plastics. Cavitation of the rubber is the initial step in the toughening mechanism, and is shown to accelerate yielding of the matrix, either by the formation of dilatation bands or by multiple crazing. Cavitation is thus a strain-softening effect. However, in some cases the cavitated rubber forms fibrils which become highly stretched as local strains increase, and thus begin to carry a significant fraction of the applied stress. The resulting strain-hardening ensures that yielding is not limited to a small deformation zone at a crack tip, but spreads outwards.     

硅橡胶/氟橡胶并用胶的制备及力学性能

硅橡胶和氟橡胶作为国防、航天等重要领域的耐热材料一直被人们青睐,但其有着各自地优缺点且价格昂贵,本文尝试将这两种橡胶制成并用胶以解决氟橡胶不耐低温和加工性差的问题,以期增大其使用温度范围。采用机械共混法制备硅橡胶/氟橡胶并用胶,研究了硅橡胶和氟橡胶的混炼工艺、并用比、共硫化体系和硫化条件对并用胶力学性能的影响。结果表明,当硅橡胶/氟橡胶的质量比为10∶90,共硫化体系为3~#硫化剂/过氧化二异丙苯(DCP),一段硫化温度为170℃、硫化压力为10MPa、硫化时间为30min,二段硫化温度为200℃、硫化时间为6h时,并用胶的力学性能达到最好。     

Recycling Functional Colloids and Nanoparticles

The stability and separation of colloids and nanoparticles has been addressed in numerous studies. Most of the work reported to date requires high cost, energy intensive approaches such as ultracentrifugation and solvent evaporation to recover the particles. At this point of time, when green science is beginning to make a real impact, it is vital to achieve efficient and effective separation and recovery of colloids to provide environmental and economic benefits. This article explores recent advances in strategies for recycling and reusing functional nanomaterials, which indicate new directions in lean engineering of high‐value nanoparticles, such as Au and Pd.