Phosphorus Containing Rubber Seed oil as a Flame Retardant Plasticizer for Polyvinyl Chloride

The application of phthalate plasticizers has been restricted around the world due to their poor migration and potential harm to the human body.Hence,producing functional bio-based plasticizers via exploiting clean and reusable resources meets the satisfaction of current demands.In this study,flame-retardant rubber seed oil-based plasticize(FRP)was prepared via epoxidation reaction and ring opening addition reactions,which was used as a flame-resistant plasticizer for polyvinyl chloride to replace petroleum-based phthalate plasticizer.When DOP was replaced with FRP,the torque of PVC blends increased from 11.4 to 18.4 N⋅m,the LOI value increased from 24.3%for PVC-FRP-0%to 33.1%for PVC-FRP-20.The THR value diminished from 39 MJ/m^(2)(pertaining to PVC-FRC-0)to 22 MJ/m^(2)Tg increased from 23°C to 47°C,the weight loss of plasticized PVC blends significantly reduced from 22.6%to 2.8%in leaching tests.The study provided a new way to prepare flame retardant plasticizer using rubber seed oil as raw material.

Shandong Gaomi Mida Rubber & Plastic Products Co., Ltd.

Shandong Gaomi Mida Rubber & Plastic Products Co., Ltd. (est. 1992) is a new high-technology enterprise that produces various kinds of parts for both washing machines and automobiles.

Fate of rubber bush (Calotropis procera (Aiton) W. T. Aiton) in adversary environment modulated by microstructural and functional attributes

Calotropis procera(Aiton)W.T.Aiton,belonging to the family Apocynaceae,is C3 evergreen plant species in arid and semi-arid areas of the Punjab Province,Pakistan.It grows in a variety of habitats like salt affected and waterlogged area,desert/semi-desert,roadside,wasteland,graveyard,forest,crop field,coastline,and river/canal bank.A total of 12 populations growing in different ecological regions were sampled to evaluate their growth,physio-biochemical,and anatomical responses to specific environmental condition.Population adapted to desert/semi-desert showed vigorous growth(plant height,shoot length,and number of leaves),enhanced photosynthetic level(chlorophyll a,chlorophyll b,carotenoids,and total chlorophyll),and apparent anatomical modifications such as increased stem radius,cuticle thickness,storage parenchyma tissues(cortex and pith),and vascular bundles in stems,while the maximum of midrib and lamina thickness,epidermal cells,cuticle thickness,cortical proportion,abaxial stomatal density,and its area in leaves.There was high plasticity in structural and functional features of these populations,which enable them to survive and tolerate under such hot and dry desert environment.Population of saline areas exhibited very critical modifications to sustain under salt prone environment.At physiological level,it possesses the maximum amount of organic osmolytes(glycine betaine and proline)and antioxidants(superoxide dismutase(SOD),catalase(CAT),and peroxidase(POD)),while at anatomical level,it showed intensive sclerification,large phloem region(inner and outer),pith parenchyma cells,and metaxylem vessels in stems and leaves.The population of dry mountains showed very distinctive features,such as increased shoot ionic contents(K+and Ca2+),collenchyma and sclerenchyma thickness in stems,trichomes size,and numerous small stomata on abaxial surface of leaves.It is concluded that no definite or precise single character can be taken as a yardstick for adjudging the biomass production in this rubber bush weed population.

The Pyrolysis Experiments of Waste Rubber and Plastics in Rotary Kiln

The pyrolysis experiments were carried out in a continuous feeding rotary kiln pyrolyzer system and the influence of residence time and temperature on the pyrolysis of waste rubber and plastics has been investigated in this paper.It shows that the extent of pyrolysis was maximum when the revolving speed was 1~2r/min and the temperature was 600℃.

丁腈橡胶耐石油开采介质影响因素分析

研究了结合丙烯腈含量、硫化体系、增强体系和增塑体系对丁腈橡胶(NBR)耐石油开采领域中常见化学介质腐蚀规律的影响。结果表明,随着结合丙烯腈含量的增加,NBR硫化胶的物理机械性能及耐热空气老化性能均提高,耐煤油、海底控制液等非极性介质的性能较好,耐甲醇、蒸馏水和乙二醇水溶液的性能逐渐下降,耐酸碱盐水溶液的性能相差不大;硫化体系主要影响NBR硫化胶的物理机械性能及耐热空气老化性能,对NBR硫化胶耐各种石油开采介质的影响则相差不大;对于高硬度NBR硫化胶,当增强体系采用小粒径炭黑时,NBR硫化胶的物理机械性能最好,不同增强体系对NBR硫化胶耐热空气老化性能的影响并不明显,但当增强体系采用大粒径炭黑时,NBR硫化胶具有更好的耐甲醇和煤油的性能,同时要求选用惰性填料进行增强;添加了大分子酯类增塑剂的NBR硫化胶较添加小分子酯类增塑剂、液体NBR增塑剂的物理机械性能更为优异,耐热空气老化性能相差不大,但耐各种石油开采介质的体积变化均偏大,耐甲醇、煤油及10%氢氧化钠水溶液的性能较差,而耐其他石油开采介质的影响则较小。

Microstructure and Mechanical Behavior of Mg-Based Bimetal Plates with High Formability Sleeve by Co-extrusion

In this study,microstructure and mechanical behavior of two types of Mg-based bimetal plates with a high formability sleeve were systematically studied,with a great emphasis on the effect of the interface characteristic and the sleeve fraction on the plasticity of composite plates.The rule of mixtures(ROM)for elongation was also addressed.The results show that when there is no or thin diffusion layer with thickness of about 3μm,Mg-based bimetal plates have a good plasticity with elongation of about 19-24%,and the ROM predicted elongations are very close to the experimental ones.In contrast,with a diffusion layer about 95-155μm thick,Mg-based bimetal plates exhibit a poor plasticity with elongation of about 11-17%,and the experimental elongations largely deviate from the ROM predictions.The plasticity of Mg-based bimetal plates increases with increasing sleeve fraction.This study provides new insights on the plastic deformation of Mg-based bimetal composites with a high formability sleeve.

轴用VL形组合密封件装配工艺仿真研究及验证

橡塑组合密封是由橡胶圈和塑料密封环组成,安装过程中塑料环的变形对密封性能有重要影响。以轴用VL形组合密封为例,基于三维有限元仿真模型和可视化密封装配台架针对不同流程的装配工艺开展研究。利用有限元仿真还原密封圈装配过程,搭建可视化密封件装配台架,开展密封件装配试验,验证有限元仿真装配过程的准确性;提取密封界面接触压力、接触宽度等关键参数,评判密封性能;建立密封性能与装配工艺之间的关系,优化密封件安装、矫正工艺流程,解决装配过程随机化、经验化问题。试验结果表明:常温安装时密封面接触宽度要小于加温安装;对于轴用VL形组合密封,在相同介质压力条件下接触宽度越小则密封面接触压力越大,从而密封性能越好。因此可以得出常温装配时密封性能更优。

高性能高分子材料体系自立自强发展战略研究

高性能高分子材料具有高强高模、高绝缘、耐腐蚀、耐辐照或绿色低碳等特点,是保障国家安全和国民经济发展的战略性材料之一,广泛应用于航空航天、电子电器、生物医疗等重要领域。本文系统梳理了高性能树脂及工程塑料、有机纤维、生物基树脂及可降解材料、特种橡胶及弹性体四大类高性能高分子材料中的重点品种,分析了国内外重点品种的发展现状和特点。研究发现,目前我国在高性能高分子材料方面已建立起比较完备的化工原料–合成–加工改性–制品应用上下游产业体系,但同时也存在关键原料保障不足、产品应用开发有待拓展等问题。在此基础上,从加强技术创新、推进关键原料保障、组建创新联合体等方面提出对策建议,以期为我国高性能高分子材料体系发展提供参考。

固废墨泥对非极性三元乙丙橡胶和极性丁腈/氯化聚乙烯橡胶的协效增塑效果

将不同用量墨泥与不同牌号石蜡油和氯化聚乙烯进行配合,重点研究墨泥作为协效增塑剂对三元乙丙橡胶和丁腈/氯化聚乙烯橡胶增塑效果的影响。结果表明,非极性三元乙丙橡胶和极性丁腈/氯化聚乙烯橡胶的物理机械性能和硫化性能随着墨泥用量的增加有一定程度的提高,说明墨泥有软化增塑的作用且增塑效果较好。

智能电子产品典型材料中7种二甲基环硅氧烷含量的测定

智能电子产品中残留的二甲基环硅氧烷(DMCs)可能随设备报废而进入环境。该研究针对智能电子产品材料基质复杂且溶解性和分散性差的特点,选取硅橡胶、胶黏剂和塑料3种典型材料为代表,采用丙酮对颗粒度为0.5 cm×0.5 cm的样品进行超声萃取,选择SH-Rxi-5Sil MS毛细管柱(30 m×0.25 mm×0.25µm)进行气相色谱-质谱(GC-MS)分离,通过特征碎片离子实现了7种DMCs(D3、D4、D5、D6、D7、D8、D9)的定性定量分析。7种DMCs在0.1~10.0 mg/L质量浓度范围内呈良好的线性关系(r^(2)≥0.9993),方法定量下限为0.5µg/g;7种DMCs在智能电子产品3种典型材料中的平均加标回收率为83.8%~105%,相对标准偏差(RSD,n=6)为1.5%~4.6%。将该方法用于7种不同智能电子产品材料中DMCs的分布分析,结果在6个样品中检出DMCs,总含量为30.0~1.6×10^(3)µg/g。

春风馏分油开发生产橡胶增塑剂环烷基矿物油

为了开发生产高质量橡胶增塑剂环烷基矿物油,满足市场需要,中石化荆门分公司利用春风油的环烷基特性,依托现有润滑油装置,采用加氢脱酸-高压加氢处理-异构脱蜡-加氢精制组合工艺加工春风馏分油。结果表明:该工艺生产出的橡胶增塑剂环烷基矿物油的ω(C_(N))较高,紫外吸光度(260~420 nm)小于0.1,易炭化物符合标准;将该油品按33%的质量分数充入SBS橡胶后,橡胶的力学性能好,黄度3.17,均满足用户要求。

国内特种油产业发展现状及趋势展望

在“双碳”目标的驱动下,国内低碳产业正在快速成长,石油石化行业转型发展势在必行。特种油产品作为“油转特”的一部分,包括润滑油脂、橡胶增塑剂、白油、轻质白油等四大类,涉及应用领域极广,不仅是国民经济与工业体系自主化发展的重要保障,也是石油石化企业长期盈利的突破点和后备军。文章从市场发展的角度剖析国内特种油品需求走势,阐明“双碳”新形势下特种油品的产业定位,并为石油石化企业进一步发展特种油业务提供建议。

环氧餐饮废油环保增塑剂的制备

以餐饮废油为原料,制备了不同环氧值的环氧餐饮废油,通过正交实验,探究了影响环氧值的因素。将环氧餐饮废油作为增塑剂,制备天然橡胶混炼胶与硫化胶,并与传统石油基增塑剂(芳烃油、环保芳烃油)的混炼胶和硫化胶进行对比。结果表明,环氧餐饮废油为增塑剂的橡胶制品各项性能均达到了添加传统增塑剂橡胶制品的水平,老化性能优于传统增塑剂的橡胶制品。新型的环氧餐饮废油环保增塑剂兼具经济效益和环保优势,具有广泛的应用前景。

1,2-环己烷二甲酸醇醚酯结构与增塑PVC性能的关系

以1,2-环己烷二甲酸酐(HHPA)、乙二醇醚(乙二醇甲醚系列、乙二醇丁醚系列)为原料,通过直接酯化法合成了1,2-环己烷二甲酸二(乙二醇醚)酯(简称醇醚酯,下同)。利用FTIR和^(1)HNMR对产物进行了表征,并对醇醚酯增塑后的聚氯乙烯(PVC)制品的力学性能、微观形貌、热稳定性、耐迁移性、耐挥发性和耐候性进行了测试。结果表明,当醇醚酯的单侧乙氧基数目≤3时,其增塑效果与乙氧基数目呈正相关;与邻苯二甲酸二辛酯(DOP)增塑后的PVC制品(DOP/PVC)相比,1,2-环己烷二甲酸二(三乙二醇甲醚)酯(HHPTEM)增塑后PVC制品(HHPTEM/PVC)的断裂伸长率提升88.0%,5%热失重温度提高了20.2℃,在正己烷和甲苯中的质量损失率分别下降7.6%和4.9%,70℃下挥发性测试中,质量损失率下降1.9%,10 d紫外老化后断裂伸长率保持率提升8.6%。

橡塑比对EPDM/PA6热塑性动态硫化橡胶的性能影响研究

采用动态硫化法挤出成型制备共混型三元乙丙橡胶(EPDM)/尼龙6(PA6)热塑性动态硫化橡胶(TPV),对不同比例的EPDM/PA6共混物进行了研究。结果表明:脆断微观形貌分析,四组橡塑比均形成了“海岛”结构,其中橡塑比为70/30的橡胶微粒尺寸和分散状态更均匀。加工流变性分析,橡塑比为70/30的扭矩有最小值;随橡塑比的增大,拉伸强度和断裂伸长率先上升后下降,分别在EPDM/PA6为60/40和70/30时达到最大值。从降低成本考虑,选用橡塑比为70/30的为宜。

环保型聚醚酯增塑剂对氢化丁腈橡胶性能的影响

用己二酸与醇醚制备了三种不同酯化率的聚醚酯增塑剂(命名为AAGEA、AAGEB、AAGEC),将其与己二酸二丁基二甘酯(TP-95)和葵二酸二辛酯(DOS)增塑剂进行对比,加入氢化丁腈橡胶中,探究这五种增塑剂对氢化丁腈橡胶性能的影响。结果表明,随着酯化率的提高,加聚醚酯增塑剂胶料的交联密度先下降后上升,加工安全性降低,硫化速率加快,拉断伸长率先提高后下降,拉伸强度及耐寒性能先降低后提高。DOS胶料老化前后的拉伸强度最高,但弹性与低温抗冲击性最差;AAGEB胶料老化前的弹性最好,强度最低,在低温下的形变恢复最差;AAGEA胶料的耐老化性与耐寒性能最好,力学性能中等;综上所述,增塑剂AAGEA胶料的性能最佳。

橡胶粉对塑性混凝土抗剪性能影响及在水库加固中的应用

为提高塑性混凝土的抗剪性能,运用直剪试验,研究了不同水胶比和不同橡胶粉掺量对抗剪摩擦系数和粘聚力的影响。结果表明:橡胶粉掺量大,塑性混凝土抗剪摩擦系数增大,但粘聚力下降;减小水胶比,塑性混凝土粘聚力增大。协同调控橡胶粉和水胶比,可提高塑性混凝土的抗剪摩擦系数和粘聚力,增强土石坝坝基和坝体防渗效果,确保大坝安全稳定。

阻燃增塑剂对NR/BR复合材料性能的影响

将磷酸三异丙基苯酯(IPPP-50和IPPP-95)以及三(2-氯乙基)磷酸酯(TCEP)加入到天然橡胶(NR)/顺丁橡胶(BR)制备复合材料,研究三种阻燃增塑剂对NR/BR复合材料相容性、硫化特性、物理性能、力学性能、阻燃性及耐磨性的影响。结果表明,IPPP-95与复合材料相容性最好、其次为IPPP-50、TCEP与之相容性最差;阻燃增塑剂降低胶料黏度、缩短硫化时间;阻燃增塑剂对NR/BR复合材料拉伸强度影响不明显,阻燃增塑剂降低复合材料硬度,同时对阻燃性不会产生负面影响;添加15份IPPP-95的复合材料耐磨性与空白样接近且邵尔A硬度降低13%。综合考虑,IPPP-95在保持耐磨性前提下降低硬度,同时对阻燃性无负面影响,是用于制备低硬度、阻燃性和高耐磨NR/BR复合材料的最佳阻燃增塑剂。

丙烯酸酯橡胶-丁腈橡胶共混胶的制备及性能研究

研究了硫化剂/促进剂配比对ACM橡胶硫化速率的影响,通过调整ACM橡胶硫化时间使其与NBR达到共硫化。制备了四种不同并用比的ACM/NBR共混胶,对其力学性能、耐油性能、压缩永久变形性进行表征测试,结果显示,80/20比例下的ACM/NBR共混胶,可以取得力学性能和耐油性能的平衡,此比例下的共混胶相容性较好,且通过增加塑化剂用量可以改善相容性。

溶剂精制技术在加工焦化蜡油中的应用

在常规糠醛精制装置上通过升级部分管道及设备材质、对设备进行热处理、调整污水去向及增设硫化氢报警仪等适应性改造,并结合调整抽提温度及回炼携带油等操作,改造后可以对延迟焦化装置焦化蜡油进行预处理,得到同时满足催化裂化装置进料的精制油和作为生产橡胶增塑剂原料的抽出油。焦化蜡油经过糠醛精制后其焦粉将在糠醛精制装置内逐渐沉淀或被抽出油带走,可以降低精制油中的胶粉含量,精制油残炭值控制在小于0.1%,作为催化裂化装置的掺炼原料,改善了催化裂化装置的原料性质。实际生产表明催化裂化装置液化气收率提高0.56个百分点,催化汽油收率提高3.24个百分点,催化柴油收率降低2.18个百分点,总轻质化产品比例增加1.62个百分点,烧焦减少0.43个百分点,催化剂消耗减少0.09kg/t,延长了催化裂化装置催化剂的使用寿命,对催化汽油、催化柴油产品性质无明显影响。抽出油芳烃含量在75%~85%,抽出油通过加氢、糠醛精制、蒸馏等工序可生产出满足GB/T 33322要求的橡胶增塑剂,具有较好的经济效益。