THE PROCESS OF THE EMULSIFIER-FREE POLYMERIZATION IN THE PRESENCE OF BARIUM SULFATE POWDER

The process of emulsifier-free copolymerization of the Styrene-Butyl Acrylate-K_sS_sO_s-water in the presence of Barium Sulfate(BS)powder was investigated under varied conditions within the range of BS powder quantity,initiator concentration and reaction temperature.Experimental results showed that the rate of polymerization is proportional to 0.3-power of the BS quantity and 1.3-power of the initiator concentration.There is a linear relationship of 2/3-power for the conversion and time.A process for the polymerization is propose to explain the experimental results.

Influence of Nano-Barium Sulfate Agglomeration on Microstructure and Properties of the Hardened Cement-Based Materials

The aim of the present work is to study the effect of Nano-barium sulfate additions on the physic-mechanical properties of hardened cement pastes. Nano-barium sulfate was prepared by the precipitation method. Eight mixes of filled cement pastes containing 0.5 wt%, 1.0 wt%, 1.5 wt% and 2.0 wt% of both nano-barium sulfate and micro-limestone were prepared and compared to the base OPC. The hydration characteristics were evaluated by the measure of combined water content, bulk density, total porosity and compressive strength for samples hydrated up to 90 days. The progress of hydration reactions was followed up by XRD analysis. The morphology and microstructure were studied by SEM. Nano-size barium sulfate acted as a nucleating agent and enhanced the hydration of cement pastes up to 2.0% mass content. Also, the microstructure was improved considerably. Accordingly, nano-size barium sulfate can be used successfully in the preparation of filled cement.

EDTA-type Polymer Based on Diazacrown Ether as the Solubilizer of Barium Sulfate to Water

The EDTA dianhydride reacted with diazacrown ethers to obtain the water-soluble EDTA-diazacrown ether polymers 1~3. The effects of crown ether ring in the polymer chains including its cavity size on the solubilization of barium sulfate to water were investigated by comparison with the crown ring-free analogue 4. The result shows that the polymer 2 is the efficient solubilizer of BaSO4 and the highest solubilization efficiency of the BaSO4to water is up to 72.5%.

SOAPLESS EMULSION COPOLYMERIZATION IN THE PRESENCE OF BARIUM SULFATE POWDER

To investigate soapless emulsion copolymerization in the presence of a solid phase, copolymerization experiments were carried out for the styrene-butyl acrylate-K_2S_2O_8-water system by using barium sulfate powder,which is assumed to be chemically inert.Reaction conditions were varied with respect to barium sulfate powder quantity,initiator concen- tration and temperature.These factors were investigated with respect to the effect on reaction rate and conversion,polymer particle number and diameter,and latex stability.

Surface Modification of Barium Sulfate Particles

In this study, surface modification of barium sulfate was investigated using several model molecules for chemical treatment: ethanesulfonic acid, butyric acid, trimethoxy(propyl) silane and phosphoric acid 2-hydroxyethyl methacrylate. Samples were characterized by FT-IR and TGA to check the capability of these model molecules to interact with BaSO4 surface. The results pointed out the presence of an organic layer around the surface after the chemical treatment even after several washings to remove all species in excess. Model molecules were grafted onto BaSO4 surface and grafted density was determined. It reveals that phosphoric acid and carboxylic acid are the best candidates for the modification of BaSO4 surface. Both can be used as anchoring groups to modify the hydrophilic balance of barium sulfate surface in order to avoid the formation of aggregates and to improve the compatibility of this filler within hydrophobic polymer matrix.

Improvement of Cemented Gangue Backfill Material with Barium Hydroxide in Acid Mine Water

As a kind of green concrete,the mechanical properties and durability of cemented gangue backfill material(CGBM)will be affected if they are in acid mine water with sulfate ions in the long term.To improve the performance of CGBM in acid mine water with sulfate ions,CGBM specimens with different doses of barium hydroxide were immersed in sulfuric acid solutions of different concentrations for 270 days.The changes of mass,ultrasonic pulse velocity(UPV)and compressive strength of the specimens at different ages were analyzed.Scanning electron microscopy(SEM)and X-ray diffraction(XRD)were used to analyze the microstructure and composition of the specimens.The results show that incorporation of barium hydroxide into CGBM specimen can promote the formation of barium sulfate precipitation and inhibit the generation of corrosion products such as ettringite.Meanwhile,barium sulfate precipitation blocks the pore channel invaded by sulfuric acid solution,delaying the progress of corrosion reaction and making the interior of CGBM specimen more complete.And the specimen with 2.0 kg/m^(3)barium hydroxide was more effective in improving performance.This study provides a basis for the ratio design of CGBM in acid mine water with sulfate ions.

南海北部水合物区HD109站位沉积物及孔隙水特征对甲烷渗漏的响应:来自元素和钡同位素的记录

甲烷渗漏活动及甲烷厌氧氧化作用(AOM)不仅导致特定自生矿物的形成,更会引起沉积物-孔隙水体系中元素和同位素组成的变化。本研究对南海北部水合物赋存区HD109站位开展了沉积物-孔隙水的Ba同位素及微量元素特征研究,综合分析了沉积物-孔隙水的氧化还原敏感元素(Mo、U)、Ba及Ba同位素特征对古今硫酸盐-甲烷转换带(SMTZ)及甲烷渗漏事件的指示。HD109站位孔隙水元素变化特征显示了清晰的地球化学分带,由上至下包括Fe-Mn还原带、硫酸盐还原带和硫酸盐-甲烷过渡带。沉积物Ba元素特征显示现今SMTZ上方有较为明显的钡峰(Ba/Al高值)发育,沉积物浅部Mo、U富集层位及相邻层位Ba/Al值特征综合指示了浅部古钡峰及古SMTZ的存在,代表沉积历史上甲烷渗漏通量较高事件。孔隙水δ^(138/134)Ba值普遍高于海洋颗粒钡及碎屑钡的δ^(138/134)Ba值,反映了沉积物中成岩重晶石溶解的贡献,其中,现代钡峰附近孔隙水具有明显的δ^(138/134)Ba峰值,显示孔隙水δ^(138/134)Ba对自生重晶石沉淀过程有较显著的响应。

BaSO_(4)/ZrO_(2)隔热涂层的制备及性能

[目的]BaSO_(4)不仅成本低,来源丰富,而且具有较高的太阳光反射比和半球发射率,但作为隔热填料应用于涂料中时,隔热性能不如金红石型TiO_(2)和SiO_(2),因此需要对BaSO_(4)进行改性以提升其隔热性能。[方法]以BaSO_(4)及ZrO_(2)粉体为原料,通过煅烧法获得BaSO_(4)/ZrO_(2)粉体,并以BaSO_(4)/ZrO_(2)粉体为隔热填料,纯丙乳液为成膜物质,制备BaSO_(4)/ZrO_(2)隔热涂层。利用X射线衍射仪(XRD)、傅里叶变换红外光谱仪(FTIR)、扫描电镜(SEM)和能谱仪(EDS)对粉体的化学结构及形貌进行表征,并探讨ZrO_(2)添加量对涂层性能的影响。[结果]随着ZrO_(2)添加量的增加,涂层的太阳光反射比、近红外反射比和半球发射率均先升高后降低,隔热温差先增大后减小。当ZrO_(2)添加量为5%(质量分数)时,涂层的太阳光反射比为0.809,近红外反射比为0.785,半球发射率为0.92。此时,BaSO_(4)/ZrO_(2)涂层的隔热温差达到11.29℃,与BaSO_(4)涂层相比高3.12℃,与以未煅烧BaSO_(4)/ZrO_(2)制备的涂层相比高4.52℃。[结论]本研究结果可为基于改性BaSO_(4)的隔热涂料技术和产品的开发提供参考。

硝酸钡预处理高放废液玻璃固化体结构和抗浸出性能研究

为提高硼硅酸盐玻璃对硫的包容能力,采用Ba(NO_(3))_(2)将模拟高硫高钠废液中的SO_(4)^(2-)转变为BaSO_(4),再利用熔融法制备硼硅酸盐玻璃固化体,研究了模拟高放废液掺量对玻璃固化体结构和抗浸出性能的影响。结果表明:采用Ba(NO_(3))_(2)对模拟高硫高钠废液进行预处理后,废物包容量达到23%(质量分数)仍未发生分相;掺入模拟高放废液的玻璃固化体中的Na、B、Si元素归一化质量损失比纯硼硅酸盐玻璃低一个数量级,随着模拟高放废液掺量增加玻璃固化体抗浸出性能无明显变化。^(11)B和^(29)Si核磁共振谱分析表明,模拟高放废液的掺入使部分BO_(3)结构转变为BO_(4)结构,玻璃网络结构有所增强。

PA12/BaSO4改性材料的制备与性能

采用熔融共混法制备了尼龙12(PA12)/BaSO_(4)改性材料,添加多功能偶联增容改性剂YY-503以改善PA12与BaSO_(4)的界面结合力。研究YY-503和BaSO_(4)含量对改性材料的流动性能、力学性能和微观结构影响。结果表明,当YY-503质量分数为0.5%时,随着BaSO_(4)含量的增加,改性材料的熔体流动速率逐步增大,缺口冲击强度逐步降低,拉伸强度和断裂伸长率呈现先增加后降低的趋势;当BaSO_(4)质量分数为10%时,改性材料的拉伸强度和断裂伸长率达到最大值,分别为60.7 MPa和196.3%,比未添加BaSO_(4)时分别提高了9.6%和14.8%。扫描电子显微镜测试结果显示,当BaSO_(4)质量分数为20%时,其从未添加YY-503的PA12基体中大量脱离,而添加质量分数0.5%的YY-503后,BaSO_(4)脱离数量较少,两相结合力良好,说明YY-503的加入产生了良好的偶联增容效应。采用熔融共混制备的PA12/BaSO_(4)改性材料具有良好的性价比,具有广泛的应用前景。

微型反应器在沉淀硫酸钡生产中的应用

针对传统沉淀硫酸钡生产过程中存在能耗大、反应过程难以控制、硫酸钡产品批次间差异大、杂质多、粒径分布宽等问题,创新采用微型反应器来改进传统芒硝法生产硫酸钡工艺。利用微型反应器具有高效传质与传热的特点,通过精准控制物料配比及反应条件,形成条件可控、高通量的物料微腔并流连续合成硫酸钡的生产技术。微型反应器体系内物料BaS和Na2SO4充分混合且受热均匀,保证了反应过程的一致性,具有产率高、稳定性好、产品一致性及均匀性好、能耗少、反应体积小等优点,能提高合成效率与产量,提升硫酸钡产品品质,实现大规模连续生产。

二氧化钛和沉淀硫酸钡合用对环氧树脂防腐蚀涂料性能的影响

为了提高环氧树脂防腐蚀涂料的性价比,用沉淀硫酸钡取代部分二氧化钛,制备了防腐蚀涂料。对比研究了二氧化钛与沉淀硫酸钡的重量比分别为62∶0、47∶15、31∶31、15∶47和0∶62时,防腐蚀涂料的部分物理性能、电化学性能和防腐蚀性能。结果表明,涂层遮盖力随着沉淀硫酸钡用量的增加而减小,附着力及硬度与沉淀硫酸钡用量的关系不大,沉淀硫酸钡的用量较少时涂层的柔韧性有所提高,两者等量时柔韧性最好。引入沉淀硫酸钡会降低涂层的防腐蚀性能,但沉淀硫酸钡的用量不超过二氧化钛时,防腐蚀性能的降低幅度较小。

新型硫酸钡垢防垢剂的合成及作用机理研究

为了提高硫酸钡垢的防垢效率,明确防垢剂的作用机理,以马来酸酐、丙烯酸和新型酯类单体为主要原料,合成了一种新型硫酸钡垢防垢剂HFGJ-26,考察了防垢剂浓度、成垢离子浓度以及实验温度对防垢效果的影响,并在此基础之上,研究了防垢剂的作用机理。实验结果表明,新型硫酸钡垢防垢剂HFGJ-26对溶液中BaSO_(4)的防垢效果较好,当水溶液中的Ba^(2+)和SO_(4)^(2-)的浓度均为300mg·L^(-1)时,添加100mg·L^(-1)的防垢剂HFGJ-26即可达到较高的防垢率,实验温度为60℃时,防垢率可以达到97.8%,而当温度升高至100℃时,防垢率仍能达到92.6%,防垢效果较好。

卧螺离心机在硫酸钡生产中的应用

针对沉淀硫酸钡生产中固液分离难而导致的产品纯度下降、碱液回收率低和耗水量大等问题,采用卧螺离心机对钡浆进行高效分离和洗涤,取得了良好的效果,实现了不停车的连续分离生产及碱液和洗涤用水的全回收利用,有效降低了生产成本。硫酸钡产品杂质含量明显降低,产品质量获得了较大提升。

黄3长6区集输站结垢机理与防垢措施

为了解决黄3长6区采出水结垢导致管线、设备堵塞而严重影响集输站运行的问题,通过对集输站和单井的水样、垢样进行分析,明确了黄3长6区结垢原因,针对性地开发阻垢药剂,并报道了现场应用情况。黄3长6区集输站垢堵严重的主要原因是单井采出水不配伍,导致站场集输系统硫酸钡锶结垢堵塞。开发的高效钡锶阻垢剂(HDTMPA、P-M-P(5000)质量比为4∶1),在加量为60 mg/L的情况下,对硫酸钡的阻垢率达到90.9%。室内适用评价实验表明,该阻垢剂对集输站A、B汇管模拟水的阻垢率高达90%和93%。现场应用结果表明,添加该阻垢剂可大幅降低A、B站场的结垢程度,有效解决了黄3长6区结垢问题,从而保障黄3长6区集输站长周期平稳运行。

BaCO_(3)芒硝法制备BaSO_(4)的探索研究

为改进碳酸钡硫酸法制备BaSO_(4)的工艺,以BaCO_(3)和Na_(2)SO_(4)为原料制备BaSO_(4)。在通过热力学计算得到此反应在100℃以下可以自发进行的基础上,研究了反应时间、n值(Na_(2)SO_(4)和BaCO_(3)的摩尔比)、反应温度和NH_(4)Cl盐效应对所制备粉体物相组成和BaSO_(4)收益率的影响。结果表明,反应温度越低,越有利于此反应自发进行。反应时间越长,n值越大,BaSO_(4)收益率越高,但最高收益率仅为58%,NH_(4)Cl盐效应可进一步提升收益率。当NH_(4)Cl浓度为2.0 mol/L,n为4.0,反应温度为30℃,反应时间为15 h时,BaCO_(3)可完全转化为BaSO_(4),即收益率达到100%。制备的BaSO_(4)晶粒呈规则椭球状,尺寸均一且小于250 nm,易聚集形成形状不规则的条状或球状团聚体。

微通道反应器制备纳米硫酸钡的工艺研究

利用微通道反应器,以硫酸钠和硫化钡为原料反应并进行纳米硫酸钡粒子制备研究,考察了微通道反应器制备纳米硫酸钡粒子的影响因素,并对产品进行激光粒度检测和TEM测试。结果表明,该法可以制备出平均粒径50~80 nm、分布窄的纳米硫酸钡粒子。

铬酸钡分光光度法(热法)和离子色谱法测定生活饮用水中硫酸盐含量的方法比较

目的:对比铬酸钡分光光度法(热法)和离子色谱法测定生活饮用水中硫酸盐含量的结果,探讨两种方法的差异和优缺点。方法:以铬酸钡分光光度法(热法)和离子色谱法分别测定弥勒市辖区11个乡镇22份自来水中的硫酸盐含量,并对2种方法测定结果进行配对t检验。结果:2种方法对26份水样氯化物的测定结果差异无统计学意义(t=0.8657,P>0.05);离子色谱法检出限小于铬酸钡分光光度法的检出限;测定相同浓度的硫酸盐溶液,两种方法均可得到较好的准确度和回收率,但离子色谱法的精密度明显大于分光光度法,特别是硫酸盐含量较小的水样。结论:生活饮用水中硫酸盐较低时,用离子色谱法测定检出限更低,检测大批水样时可以节省时间,同时可以测定其他多种阴离子含量,但分光光度法检测成本更低。

硫酸钡对水性丙烯酸聚氨酯涂料的影响

对比了4种硫酸钡对水性丙烯酸聚氨酯涂料的光泽、贮存稳定性、耐化学品等性能的影响,从原理上分析了硫酸钡效果不同的原因。结果表明,沉淀硫酸钡MECRO对水性丙烯酸聚氨酯涂料的光泽影响最小,并具有优良的耐化学品性,以及稳定的贮存性能。

芫根中硫代葡萄糖苷的提取工艺研究

本试验以高原特色作物芫根为研究对象,乙醇为浸提剂,提取芫根中的硫代葡萄糖苷。利用单因素试验研究不同提取时间、提取温度、乙醇浓度以及料液比对硫代葡萄糖苷提取量的影响,再通过正交试验设计优化提取工艺条件。结果表明,乙醇浸提法提取芫根中硫代葡萄糖苷的最佳工艺条件为:提取时间30 min,提取温度90℃,乙醇浓度70%,料液比1:20,在此条件下芫根总硫代葡萄糖苷的平均提取量达到34.58μmol/g。本研究不仅为芫根的高价值利用提供了新的思路,同时为天然硫代葡萄糖苷的高效率提取和定量分析提供了理论参考。