首页--工业技术论文--化学工业论文--合成树脂与塑料工业论文--特种塑料论文--特种性能塑料论文

生物降解多糖和硅藻土合成环保、低成本纳米高吸水性树脂

Abstract第6页
摘要第7-14页
Abbreviations第14-16页
Chapter 1:General Introduction about Nano-Hybrid SAP Composites第16-29页
    1.1 Superabsorbent Background第16-17页
    1.2 Biodegradable Nano-Hybrid SAP Composites Preparation Metheds第17-21页
        1.2.1 Natural Biopolymers第18-19页
        1.2.2 Synthetic Monomer第19-20页
        1.2.3 Inorganic Material第20-21页
    1.3 Component Materials Description第21-24页
        1.3.1 Hydroxyethyl Cellulose(HEC)第21页
        1.3.2 Xyloglucan(XG)第21-22页
        1.3.3 Diatomite第22-23页
        1.3.4 Polyacrylic Acid(PAA)第23-24页
    1.4 Biodegradable Nano-Hybrid SAP Composites Classification第24-27页
    1.5 Biodegradable Nano-Hybrid SAP Composites APPlication第27页
    1.6 Objectives of this Work第27-29页
Chapter 2:Superabsorbent Prepared Based on HEC and Diatomite~*第29-59页
    2.1 Overview第29-30页
    2.2 Experimental Setup第30-35页
        2.2.1 Material and Chemicals第30页
        2.2.2 Diatomite Purification Method第30-31页
        2.2.3 Synthesis of HEC-g-PAA/diatomite SAP for Orthogonal Test第31-32页
        2.2.4 Characterization Methods第32-33页
        2.2.5 HEC-g-PAA/diatomite SAP Properties Measurements第33-35页
    2.3 Results and Discussions第35-58页
        2.3.1 Proposed Mechanism for HEC-g-PAA/diatomite SAP Formation第35-37页
        2.3.2 FTIR Analysis第37-39页
        2.3.3 XRD Analysis第39-40页
        2.3.4 SEM Analysis第40-42页
        2.3.5 TGA Analysis第42-43页
        2.3.6 DSC Analysis第43-44页
        2.3.7 Orthogonal Test Results Analysis第44-47页
        2.3.8 Factor Contents Effect on Water Absorbency of HEC-g-PAA/diatomite SAP第47-54页
        2.3.9 The Composite Gel Content Results第54页
        2.3.10 Specific Surface Area and Porosity Analysis第54-56页
        2.3.11 The Composite Water Retention Results第56-58页
    2.4 Summary第58-59页
Chapter 3:Superabsorbent Prepared Based on Xyloglucan and Diatomite第59-84页
    3.1 Overview第59-60页
    3.2 Experimental Setup第60-63页
        3.2.1 Material and Chemicals第60页
        3.2.2 Synthesis of XG-g-PAA/diatomite SAP for Orthogonal test第60-61页
        3.2.3 Characterization Methods第61-62页
        3.2.4 XG-g-PAA/diatomite SAP Properties Measurements第62-63页
    3.3 Results and Discussions第63-83页
        3.3.1 Mechanism of XG-g-PAA/diatomite SAP Formation第63-65页
        3.3.2 FTIR Analysis第65-67页
        3.3.3 SEM Analysis第67-68页
        3.3.4 TGA Analysis第68-69页
        3.3.5 DSC Analysis第69-70页
        3.3.6 XRD Analysis第70-71页
        3.3.7 Orthogonal Test Results Analysis第71-73页
        3.3.8 Factor Contents Effect on Water Absorbency of XG-g-PAA/diatomite SAP第73-80页
        3.3.9 The Composite Water Retention Results第80-83页
    3.4 Summary第83-84页
Chapter 4:Conclusion and Prospective for Future Trends第84-88页
    4.1 Conclusion第84-87页
    4.2 Future Outlooks第87-88页
References第88-99页
Jean Felix Mukerabigwi Publications第99-101页
Acknowledgements第101页

论文共101页,点击 下载论文
上一篇:LY12铝合金A-TIG焊活性剂研制及工艺研究
下一篇:AS诊断用超顺磁研究