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肯尼亚羊毛纤维资源及其抗静电加工性能研究

Dedication第5-6页
摘要第6-8页
ABSTRACT第8-9页
List of Abbreviations第18-19页
Chapter 1 Introduction and background第19-54页
    1.1 Introduction第19-22页
    1.2 Introduction of wool fiber第22-29页
        1.2.1 Sheep breeds and wool production第22-27页
        1.2.2 Trade development and economic value of wool fiber第27-29页
    1.3 research status of wool fiber第29-47页
        1.3.1 Study of wool in Kenya and abroad第29-31页
        1.3.2 Structure of Wool and Its Composition第31-32页
        1.3.3 Study on Wool Yield第32-34页
        1.3.4 Study on Wool Properties and test equipment第34-42页
        1.3.5 Study on effects of pasture on production and chemical composition of wool fiber第42-45页
        1.3.6 Electrostatic on wool fiber第45-47页
        1.3.7 Study on antimicrobial action on wool第47页
        1.3.8 Use of protease on wool surface modification第47页
    1.4 Application of antistatic agents in wool spinning第47-50页
        1.4.1 Causes of static electricity generation第47-48页
        1.4.2 Electrostatic hazards第48页
        1.4.3 The significance of antistatic studies第48页
        1.4.4 Antistatic techniques第48-49页
        1.4.5 Classification of antistatic agents第49页
        1.4.6 Antistatic treatment processes第49页
        1.4.7 Test and evaluation of antistatic effect第49页
        1.4.8 Effects of the antistatic factor第49页
        1.4.9 Antistatic finishing development direction第49-50页
    1.5 Application of silver nanoparticles in wool industry第50-51页
        1.5.1 Application mechanisms第50页
        1.5.2 Application as antimicrobial第50页
        1.5.3 Application as UV-radiation protection第50页
        1.5.4 Application as novel coloration effects第50页
        1.5.5 Application in antistatic processing第50-51页
        1.5.6 Other applications and future prospects of nanoparticles第51页
    1.6 Research contents and significance第51-53页
        1.6.1 Research contents第51-52页
        1.6.2 Significance of research第52-53页
    1.7 Methodology第53-54页
Chapter 2 Study on Kenya wool fiber yield第54-70页
    2.1 Introduction第54-57页
    2.2 Sample collection and preparation第57-59页
        2.2.1 Sample collection第57-59页
        2.2.2 Preparation of test materials第59页
    2.3 Experimental section第59-62页
        2.3.1 Experimental reagents and equipment第59-60页
        2.3.2 Experimental methods and processes第60-62页
    2.4 Results and discussion第62-68页
        2.4.1 Sheep average fleece weight第62-63页
        2.4.2 Scoured wool yield第63-64页
        2.4.3 Vegetable matter (VM) and vegetabble matter base (VMB%)第64-66页
        2.4.4 Moisture Regain of the scoured wool第66页
        2.4.5 Carbonized Wool and carbonized Vegetable Matter第66-67页
        2.4.6 Wool Yield (Y)第67-68页
    2.5 Chapter Summary第68-70页
Chapter 3 Study on Kenya Wool fiber properties sampled from different sheep body parts第70-83页
    3.1 Introduction第70页
    3.2 Sample preparation第70页
    3.3 Experimental apparatus and experimental methods第70-72页
        3.3.1 Experimental apparatus第70-71页
        3.3.2 Fiber Strength test第71页
        3.3.3 Fiber Length test第71页
        3.3.4 Fiber fineness第71页
        3.3.5 Color testing第71页
        3.3.6 Medullated fiber (MF) test第71-72页
        3.3.7 Fiber surface morphology第72页
    3.4 Results and discussion第72-82页
        3.4.1 Tensile Strength第72-73页
        3.4.2 Fiber length第73-76页
        3.4.3 Color第76-77页
        3.4.4 Fiber Fineness第77页
        3.4.5 Medullated and dark fibers第77-78页
        3.4.6 Fiber surface morphology analysis第78-82页
    3.5 Chapter Summary第82-83页
Chapter 4 Effect of medullated fibers on Kenya wool fiber antistatic processing performance第83-100页
    4.1 Introduction第83-85页
    4.2 Experimental Section第85-89页
        4.2.1 Experimental materials and test equipment第85-86页
        4.2.2 Preparation of test materials第86-87页
        4.2.3 Experimental Methods and Processes第87-88页
        4.2.4 Sample performance testing第88-89页
    4.3 Results and discussion第89-98页
        4.3.1 Effect on Kenya wool Fiber surface morphology第89-94页
        4.3.2 Effect of antistatic treatment on wool fiber specific electrical resistance第94-95页
        4.3.3 Effect of antistatic treatment on the friction coefficient of the wool fibers第95-96页
        4.3.4 Effect of antistatic treatment on electrostatic half-life properties of wool第96-98页
    4.4 chapter summary第98-100页
Chapter 5 Influence of incorporating silver nanoparticles in protease treatment on antistaticproperties of wool fibers第100-112页
    5.1 Introduction第100-101页
    5.2 Experimental Section第101-104页
        5.2.1 Experimental materials and test equipment第101-102页
        5.2.2 Preparation of test materials第102页
        5.2.3 Experimental Methods and Processes第102-104页
        5.2.4 Performance testing第104页
    5.3 Results and discussion第104-110页
        5.3.1 Effect on surface morphology of wool fibers第104-106页
        5.3.2 Analysis of Infrared Spectra of wool Fibers after treatment第106-107页
        5.3.3 Effect on volume resistivity of wool fibers第107-108页
        5.3.4 Effect on friction coefficient第108-109页
        5.3.5 Effect of antistatic treatment on antistatic properties of alpaca wool第109-110页
    5.4 Chapter summary第110-112页
Chapter 6 Conclusion and Prospect第112-115页
    6.1 Conclusion第112-113页
    6.2 Outlook第113-115页
Acknowledgements第115-116页
List of Publications第116-117页
REFERENCES第117-121页

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