化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
11期
4376-4382
,共7页
严芳芳%方波%卢拥军%侯向前%邱晓惠%彭飞%王进爽
嚴芳芳%方波%盧擁軍%侯嚮前%邱曉惠%彭飛%王進爽
엄방방%방파%로옹군%후향전%구효혜%팽비%왕진상
有机锆%耐高温凝胶%聚合物%流变学%动力学
有機鋯%耐高溫凝膠%聚閤物%流變學%動力學
유궤고%내고온응효%취합물%류변학%동역학
organic zirconium%high temperature resistant gel%polymer%rheology%kinetics
以乳酸/丙三醇有机锆为交联剂,聚合物[一种耐高温的丙烯酰胺(AM)/N,N-二甲基丙烯酰胺(DMAM)/2-丙烯酰胺基-2-甲基丙磺酸(AMPS)三元聚合物]为稠化剂,获得了耐高温聚合物凝胶。研究了聚合物凝胶的流变学特性(黏弹性、触变性)及其交联流变动力学,获得了聚合物交联过程中黏度、黏弹性模量随时间的变化关系,并考察了剪切速率和温度对凝胶形成的影响,建立了交联流变动力学模型。结果表明,交联聚合物凝胶具有明显的黏弹性和触变性;在180℃、170 s-1下剪切120 min后,黏度达176.8 mPa·s,获得了耐高温达180℃的凝胶;一级交联流变动力学模型可拟合聚合物的交联流变动力学过程,拟合的模型参数物理意义明确合理。
以乳痠/丙三醇有機鋯為交聯劑,聚閤物[一種耐高溫的丙烯酰胺(AM)/N,N-二甲基丙烯酰胺(DMAM)/2-丙烯酰胺基-2-甲基丙磺痠(AMPS)三元聚閤物]為稠化劑,穫得瞭耐高溫聚閤物凝膠。研究瞭聚閤物凝膠的流變學特性(黏彈性、觸變性)及其交聯流變動力學,穫得瞭聚閤物交聯過程中黏度、黏彈性模量隨時間的變化關繫,併攷察瞭剪切速率和溫度對凝膠形成的影響,建立瞭交聯流變動力學模型。結果錶明,交聯聚閤物凝膠具有明顯的黏彈性和觸變性;在180℃、170 s-1下剪切120 min後,黏度達176.8 mPa·s,穫得瞭耐高溫達180℃的凝膠;一級交聯流變動力學模型可擬閤聚閤物的交聯流變動力學過程,擬閤的模型參數物理意義明確閤理。
이유산/병삼순유궤고위교련제,취합물[일충내고온적병희선알(AM)/N,N-이갑기병희선알(DMAM)/2-병희선알기-2-갑기병광산(AMPS)삼원취합물]위주화제,획득료내고온취합물응효。연구료취합물응효적류변학특성(점탄성、촉변성)급기교련류변동역학,획득료취합물교련과정중점도、점탄성모량수시간적변화관계,병고찰료전절속솔화온도대응효형성적영향,건립료교련류변동역학모형。결과표명,교련취합물응효구유명현적점탄성화촉변성;재180℃、170 s-1하전절120 min후,점도체176.8 mPa·s,획득료내고온체180℃적응효;일급교련류변동역학모형가의합취합물적교련류변동역학과정,의합적모형삼수물리의의명학합리。
A high temperature resistant polymer gel with lactic acid/ glycerine organic zirconium as crosslinking agent and a polymer [a kind of acrylamide (AM)/N,N-dimethyl acrylamide (DMAM)/2-acrylamide-2-methyl propane sulfonic acid (AMPS) terpolymer of high temperature resistance] as thickening agent was prepared. The rheological properties (viscoelasticity and thixotropy) and crosslinking rheokinetics of the polymer gel were studied. The changes of viscosity and viscoelastic modulus with time in the crosslinking process were obtained. The effects of shear rate and temperature on gel formation were investigated and a crosslinking rheokinetics model was established. The polymer gel had obvious viscoelasticity and thixotropy. Viscosity was maintained at 176.8 mPa·s after the crosslinked polymer gel was sheared at 170 s-1 for 120 min at 180℃. The high temperature resistant fracturing fluid gel which could endure 180℃ was obtained. The first order rheokinetics model would well describe the rheokinetics of polymer crosslinking process and the model parameters could have well-defined and reasonable significance.