Gel time of calcium acrylate grouting material

Calcium acrylate is a polymerized grout, and can polymerize in an aqueous solution. The polymerization reaction utilizes ammonium persulfate as a catalyst and sodium thiosulfate as the activator. Based on the theory of reaction kinetics, this study on the relation between gel time and concentration of activator and catalyst showed that gel time of calcium acrylate is inversely proportional to activator and catalyst concentration. A formula of gel time is proposed, and an example is provided to verify the proposed formula.

Effect of gel time of 3D sand printing binder system on quality of sand mold/core

Two important factors affecting the performance of sand mold/core generated by 3D printing(3DP)are strength and dimensional accuracy,which are not only closely related to the reactivity of furan resin and the phase transition of silica sand,but also the curing agent system of furan resin.This paper studies the influence of gel time on the strength and dimensional accuracy of a 3DP sand mold/core,taking the furan resin system as an example and using a sand specimen generated by a 3DP inkjet molding machine.The experiment demonstrates that the gel time of 3 to 6 min for the sand mixture suits 3DP core-making most under the experimental condition.However,it should be noted that under the same resin condition,the strength of a no-bake sand mold/core is higher than that of a 3DP sand mold/core.The dimensional accuracy of the sand mold/core does not change significantly when the gel time is less than 15 min.Improving the activity of binder and developing ultra-strong acid with low corrosion shall be an effective way to improve the quality of the mold/core by 3D printing.

Factor Affecting Gel Time/Process-Ability of Urea Formaldehyde Resin Based Wood Adhesives

Urea-formaldehyde (UF) resin presents the most utilized adhesive system in the manufacture of plywood, particleboard and fiberboard. At the temperatures above 100°C in the presence of hardener, this resin undergoes cross-linking reaction and the formation of three dimensional cross linked structures takes place and bonding of wood particles in a hot press [1]. UF powder resins show high reactivity and good performance in the production and by their low price;however they lack in water resistance of the hardened resin [2]. Urea-formaldehyde (UF) resins are the most important type of adhesive resins for the production of wood based panels but process-ability and curing behavior of urea formaldehyde resin depended on various factors related to resin properties, types of wood and their properties, amount & type of catalyst, types and amount of polymers addition and environmental conditions [3]. This factor decides the process-ability of UF resin based composite during manufacturing of plywood, particle board and fiberboard. In this review paper, various factors affecting gel time and process-ability of UF resin based wood composite are reviewed.

Two-dimensional gel electrophoresis and surface-enhanced laser desorption ionization-time of flight-mass spectrometry for detection of protein expression profiles in the hippocampus following closed brain injury

Gene expression profile changes in brain regions following traumatic brain injury at the gene level cannot sufficiently elucidate gene expression time, expression amount, protein post-translational processing or modification. Therefore, it is necessary to quantitatively analyze the gene expression profile using proteomic techniques. In the present study, we established a rat model of closed brain injury using Marmarou＇s weight-drop device, and investigated hippocampal differential protein expression using two-dimensional gel electrophoresis and surface-enhanced laser desorption ionization-time of flight-mass spectrometry. A total of 364 protein peaks were detected on weak cation exchange-2 protein chips, including 37 differential protein peaks. 345 protein peaks were detected on immobilized metal affinity capture arrays-Cu, including 12 differential protein peaks Further examination of these differential proteins revealed that glucose-regulated protein and proteasome subunit alpha type 3 expression were significantly upregulated post-injury. These results indicate that brain injury can alter protein expression in the hippocampus, and that glucose-regulated protein and proteasome subunit alpha type 3 are closely associated with the occurrence and development of traumatic brain injury.

Sol-Gel法制备纳米TiO_2的原料配比和胶凝过程机理探研

以钛醇盐为前驱物 ,不同的螯合剂、溶剂和催化剂为原料 ,用sol gel法制备纳米TiO2 凝胶。通过改变原料配比和实验条件对sol gel制备过程中的作用机理进行探讨研究 ,从而获得制备纳米TiO2 凝胶的最佳原料配比、工艺过程和控制条件。

Sol-gel法制备纳米TiO2凝胶过程的控制

以钛酸四丁酯为前驱物，采用溶胶-凝胶法制备TiO2凝胶。通过改变各原料的配比和实验条件对凝胶过程中的作用机理进行了探究。结果表明：当无水乙醇与钛酸四丁酯的摩尔比为12：1，蒸馏水与钛酸四丁酯的摩尔比为3：1，抑制剂与钛酸四丁酯的摩尔比为1：1～2：1，pH=2，最适水解温度为25℃时，制得了稳定的二氧化钛凝胶。

Sol-Gel法二氧化硅溶胶的制备及稳定性研究

以正硅酸乙酯为前驱体,硝酸为催化剂,制备了二氧化硅(SiO2)溶胶。研究了催化剂、水、乙醇的加入量及反应时间、反应温度、干燥控制添加剂对溶胶稳定性的影响。结果表明,在保持其它反应条件不变的情况下,随着n(无水乙醇EtOH)/n(正硅酸乙酯TEOS)的增大,溶胶的凝胶时间变长;随着H2O/TEOS摩尔比的增大,溶胶的凝胶时间先变短后变长,水酯摩尔比Rw=9.6左右时溶胶的凝胶时间最短;pH<2时,随着Rw的增大,溶胶的凝胶时间变短;反应温度的升高及反应时间的延长,都会促使溶胶的凝胶时间变短;添加剂N,N-二甲基甲酰胺可以增加溶胶的稳定性。

Sol-gel法制备Pb(Zr_(0.53)Ti_(0.47))O_3铁电薄膜

利用Sol—gel工艺在Pt／Ti／SiO2／si衬底上制备了Pb（Zr0.53Ti0.47）O3（PZT）薄膜，研究了退火温度、保温时间和薄膜厚度对其晶相、微观结构和铁电性能的影响。在500℃退火处理的PZT薄膜开始形成钙钛矿相；在550℃退火处理的PZT薄膜基本形成钙钛矿相结构；升高退火温度（500-850℃）、延长保温时间（30～150min）、增加薄膜厚度（120-630nm）都有利于PZT晶粒的长大。在650～750℃退火的PZT薄膜具有较好的铁电性能，保温时间对PZT薄膜的铁电性能影响不大，PZT薄膜的厚度为200-300nm时可以得到比较好的铁电性能。在退火温度750℃、保温时间30min条件下退火处理厚310nm的PZT薄膜，其剩余极化值（2Pr）和矫顽电场（2Ec）分别是72μC／cm^2、158kV/cm。

sol-gel法制备ZnFe_2O_4及其NO_2气敏性能的研究

采用sol-gel法制备了尖晶石结构的ZnFe2O4粉体,以其为电极材料在钇稳氧化锆陶瓷片(YSZ)上利用丝网印刷技术制备了片式NO2传感器,并对传感器在不同NO2浓度和不同温度下的输出电动势E和响应时间进行了研究。结果显示:在φ(NO2)为(68～494)×10–6范围内,E随着NO2浓度的增大而增大,并与NO2浓度的对数呈现良好的线性关系。在600℃高温时,传感器上升和下降响应时间分别为60和120s,且重复性较好。但随着工作温度的升高,传感器的灵敏度下降。

YZO薄膜的Sol-gel制备及其性能

采用Sol-gel法在普通载玻片上制备YZO薄膜。研究了陈化时间和Y掺杂量对薄膜晶体结构、表面形貌和光学性能的影响，并分析和探讨了工艺参数与结构和性能之间的关系。实验结果表明，YZO薄膜为纤锌矿结构，呈C轴择优取向生长，平均透光率（380～760m）超过85％。实验还发现，陈化时间存在最优值，YZO薄膜随着Y掺杂量的增加晶体结晶质量下降。

三聚氰胺改性对木质素酚醛树脂胶合性能的影响

【目的】通过三聚氰胺对木质素酚醛树脂(LPF)改性,提高LPF的胶合性能,降低固化温度,为人造板的绿色生产和节能降耗提供新思路。【方法】对比三聚氰胺与(苯酚+木质素)、三聚氰胺/(苯酚+木质素)与甲醛不同摩尔比对三聚氰胺改性木质素酚醛树脂(MLPF)的性能影响,得到MLPF的最佳合成条件。并与相同酚醛比和木质素取代率的酚醛树脂(PF)和LPF进行性能对比,利用FTIR和DSC对PF、LPF和MLPF的结构和固化温度进行比较分析。【结果】当三聚氰胺与(苯酚+木质素)的摩尔比为4∶6、三聚氰胺/(苯酚+木质素)与甲醛的摩尔比为1∶2时,MLPF的凝胶时间最短,为318.62 s,所压制的MLPF胶合板干、湿胶合强度为2.04和1.43 MPa,甲醛释放量为0.088 mg/m^(3),且与PF和LPF胶合板相比MLPF的胶合强度更高,满足GB/T14732—2017和GB/T 9846—2015国家标准性能要求。FTIR结果显示,相较于PF和LPF,MLPF在3 327 cm^(-1)和3 214 cm^(-1)处拥有属于-OH和-N-H的双峰,在1 079 cm^(-1)和1 036 cm^(-1)处出现的N-C-N特征峰以及在809 cm^(-1)处属于三嗪环面外震动的吸收峰,都证明了三聚氰胺经过羟甲基化并参与到MLPF的合成中。DSC结果显示,经过三聚氰胺改性后的MLPF放热峰值温度出现在140℃,其固化温度相较于LPF和PF分别降低了17.16%和22.22%。【结论】三聚氰胺的加入使得MLPF的凝胶时间更短,固化温度更低,MLPF胶合板的性能相较于LPF无论是胶合强度还是耐水性均有明显提升。

Researches on the PAM／Cr^3＋ Gel for Deep Profile Control

The profile control hard-gel is composed of polyarylamide (5-6g/L), whose molecular weight is 4,000,000 - 7,000,000 and hydrolysis degree is 17.6%, and cross-linking oxidation-reduction agent (Na2Cr2O7 + NH4Cl), with an delayed organic acid crosslinker which contains lactic acid/propionic acid/ethanoic acid and ethylene glycol. After research of the influence factors, such as pH, temperature, salinity and the dosage of delayed crosslinker, the optimum condition(pH 5.2, temperature 55℃, salinity < 7g/L) was found. Gelation time (12-144h) can be controlled by adjusting the dosage of the delayed crosslinker. Deep profile control experiments are carried out on heterogeneous models, which contains three serial high permeable and low permeable cores arranged in a parallel. After water flooding (total recovery, 24.3%), the first, second and third high-permeable cores each are sealed in turn by the profile control agent, and the total displacement recovery increases to 46.8%, 62.2% and 69.1% respectively. So, the greater the sealed depth, the larger the enhancing recovery will be. Finally, the oil displacement mechanisms of deep profile control are discussed.

七氟烷联合i-gel喉罩通气在小儿短小手术麻醉中的应用效果

目的探讨七氟烷联合i-gel喉罩通气在小儿短小手术麻醉中的应用效果。方法选取2014年1-11月本院收治的80例行小儿斜疝术和包皮切除术患儿作为研究对象,随机分为观察组与对照组,各40例。观察组采用七氟烷i-gel喉罩通气全身麻醉,对照组采用氯胺酮静脉注射全身麻醉。比较两组的临床效果、并发症发生率、FLACC评分、苏醒时间。结果观察组T1时的Sp O2水平显著低于对照组,差异有统计学意义（P〈0.05）。观察组T1、T2、T3、T4时的HR、MAP水平显著低于对照组,差异有统计学意义（P〈0.05）。对照组T1、T2、T3、T4时的HR、MAP水平显著高于T0时,差异有统计学意义（P〈0.05）。观察组的并发症发生率为20.0%,显著低于对照组的67.5%,差异有统计学意义（P〈0.05）。观察组的FLACC评分显著优于对照组,差异有统计学意义（P〈0.05）。观察组的苏醒时间为（10.14±3.55）min,显著短于对照组的（20.04±4.68）min,差异有统计学意义（P〈0.05）。结论七氟烷联合i-gel喉罩通气在小儿短小手术麻醉中的应用效果显著,可有效降低并发症发生率,缩短苏醒时间。

土压平衡盾构管片壁后同步双液浆开发及注浆效果研究

针对全断面稳定围岩地层管片上浮量过大的问题,通过将室内试验与现场试验相结合的方式,开发新型同步双液浆并应用于南京地铁6号线某区间,可大幅度减小管片上浮量、提高管片拼装质量。将现场使用的单液硬性浆作为A液,新型促凝剂作为B液,通过室内试验探究B液对于A液性质的影响规律,依据浆液胶凝时间、流动度及抗压强度要求并结合现场实际情况确定现场新型同步双液浆配比,最后通过现场试验检验该新型同步双液浆注浆效果。研究结果表明:1)B液掺A液总质量的1%~2%,可使新型同步双液浆的胶凝时间缩短至10~30 min,具有良好的泵送性及较高的早期强度;2)新型同步双液浆注入后10 min内流动性不损失且不易堵管,在国内现有的施工管理水平下具有较大推广价值;3)监测数据表明,新型同步双液浆现场注浆效果优良,相比单液硬性浆,管片环整体上浮量减小50%,管片环最大水平偏差减小57%,管片环渗漏点数减少50%,地表沉降最大值减小74.3%。

新型油井水泥用纳米基促凝早强剂

针对传统油井水泥促凝剂存在的腐蚀套管、增稠及早强作用较弱等问题,根据结构设计,通过溶液法合成了一种新型纳米基促凝早强剂A-1,并对其综合性能及作用机理进行了研究探讨。实验表明,该纳米基促凝早强剂在改善水泥浆流变的同时可显著缩短中低温下水泥浆的稠化时间,明显加快水泥石强度发展,稠化时间之比可达0.33,起强度时间可缩短50%,6 h抗压强度可达净浆的5倍以上,后期强度提高率仍可达29%。此外,该纳米基促凝早强剂还可明显缩短水泥浆静胶凝过渡时间,表现出良好的防窜作用。微观分析表明,该纳米基促凝早强剂可通过成核模板效应改变水泥石微观形貌,加速水泥石水化,使水泥石更加致密,从而改善水泥石力学性能。

静置时间对鸡肉糜凝胶性质的影响

以鸡胸肉为原料,充分剪切后的鸡肉糜于4℃条件下静置不同时间(0~48 h),分析鸡肉糜触变性和流变特性,探究静置时间对鸡肉糜凝胶性质的影响。结果显示:鸡肉糜具有假塑性、触变性及弱凝胶性质(G'>G"),且鸡肉糜黏度、触变性及弹性(G')和黏性(G")随着静置时间延长而逐渐增加;随着静置时间增加,鸡肉糜凝胶的蒸煮损失率显著增加(P<0.05);静置24 h后的鸡肉糜凝胶持水率、咀嚼性和黏性、静置12 h后的鸡肉糜凝胶强度和硬度、静置36 h后的鸡肉糜凝胶弹性均呈显著增加(P<0.05)。以上结果证实肉糜触变性对鸡肉糜凝胶特性有显著影响,静置处理具有调节肉制品加工性质和产品质量的潜力。

煤矿用凝胶阻化剂的优化及性能研究

文章首先将凝胶阻化剂与粉煤灰相结合,采用单变量实验方法,通过检测胶凝时间长短,制备出一种优化后的凝胶阻化剂新配方:海藻酸钠为7%,交联剂为3%,碳酸钠为1.5%,粉煤灰为15%,剩余组份为水,并对比不同粉煤灰粒径大小对凝胶胶凝时间的影响;其次,通过对优化后的新型凝胶阻化剂的保水和凝胶强度性能进行分析,得出新型阻化剂在性能方面的改善措施;最后,在封堵和连结性能上将新型凝胶阻化剂与常用的氯化镁凝胶阻化剂进行对比,分析新型凝胶阻化剂在应用性能方面的优点。

己内酯改性丙烯酸树脂的性能研究与应用

通过溶液聚合的方法制备了己内酯改性丙烯酸树脂,探究己内酯含量对双组分丙烯酸聚氨酯体系的反应速率和漆膜性能的影响。研究表明:己内酯含量越多,凝胶时间越短;对漆膜的实干时间有影响,但对表干时间影响不大。

Mechanical properties of anti-seepage grouting materials for heavy metal contaminated soil

Cement-based composite grouting materials were used to construct grouting cutoff wall for heavy metal contaminated soil in non-ferrous metal mining areas. Cement, fly ash, and slag as principal ingredients were mixed with water glass in different ways to produce three composite grouting materials. In order to investigate the effect of water glass mixing ratio, Baume degree, fly ash and slag contents on the mechanical properties of the composite grouting materials, particularly their gel time and compressive strength, the beaker-to-beaker method of gel time test and unconfined compressive strength test were conducted. In addition, the phase composition and microstructure of the composite grouting materials were analyzed by the X-ray diffraction（XRD） and scanning electron microscope（SEM） techniques. The test results show that their gel time increases when water glass mixing ratio and Baume degree increase. The gel time increases dramatically when fly ash is added, but decreases slightly if fly ash is partly replaced by slag. When the mixing ratio of water glass is below 20%, their compressive strength increases with the increases of the ratio; when the ratio is above 20%, it significantly decreases. The compressive strength also tends to increase as Baume degree increases, and improves if fly ash and slag are added.

纳米C-S-H凝胶对喷射混凝土性能的影响

为解决普通喷射混凝土凝结时间长、早期强度低和抗渗性能差等问题,通过外掺纳米水化硅酸钙(calcium-silicate-hydrate,C-S-H)凝胶的方式对其进行性能提升。研究纳米C-S-H凝胶对喷射混凝土凝结时间、抗压强度及抗渗等性能的影响,并采用水化热测试、X射线衍射(X-ray diffraction,XRD)和扫描电子显微镜(scanning electron microscope,SEM)等技术探究纳米C-S-H凝胶提升喷射混凝土性能的机理。结果表明:纳米C-S-H凝胶可明显缩短掺速凝剂水泥净浆的凝结时间,与基准组相比,掺2%纳米C-S-H凝胶的喷射混凝土1 d抗压强度可提高19.0%,渗水深度降低31.4%。机理分析表明,纳米C-S-H凝胶的晶核和填充效应能够促进水泥水化且可以致密混凝土内部结构,从而提升喷射混凝土的各项性能。