高分子物理实验

高分子物理实验
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作者: , ,
2019-03
版次: 1
ISBN: 9787564367893
定价: 21.00
装帧: 其他
开本: 16开
纸张: 胶版纸
分类: 工程技术
1人买过
  • 本书内容主要涉及聚合物的形态结构、高分子溶液的性质、聚合物的力学性能、聚合物的热性能、聚合物的加工性能、聚合物的电性能以及聚合物乳液的性质等方面,共精选了20个实验,都是合成与加工中需要做的一些测试方法和手段。每个实验都介绍与实验有关的基本原理和明确的目的要求、实验步骤、仪器和药品、数据处理以及需要思考的问题等;书后附有12个附表,方便查阅。本书充分体现了重庆文理学院高分子物理实验教学的特色,体现了作者近年的教学研究成果与科研成果。 朱江,重庆文理学院材料与化工学院副院长,博士,副教授,硕士生导师,主要研究方向为功能化复合材料和生物可降解材料。重庆市级特色专业(高分子材料与工程)带头人。 目  录

    第一单元  聚合物的溶液性质································································································ 1

    实验一  聚合物的逐步沉淀分级法··················································································· 1

    实验二  黏度法测定聚合物分子量··················································································· 6

    实验三  聚合物的溶解································································································· 10

    实验四  聚合物表面的接触角测定················································································· 14

    第二单元  聚合物的结构分析······························································································· 17

    实验五  溶胀平衡法测定聚合物的交联度······································································· 17

    实验六  偏光显微镜法观察聚合物球晶··········································································· 22

    实验七  结晶速率仪测定聚合物的结晶速率···································································· 25

    实验八  红外光谱法鉴定聚合物···················································································· 29

    实验九  偏光显微镜法观察聚合物球晶形态···································································· 32

    第三单元  聚合物的热性能·································································································· 38

    实验十  转矩流变仪测聚氯乙烯热稳定性······································································· 38

    实验十一  差示扫描量热法(DSC)测定聚合物的热性能················································· 43

    实验十二  热重法(TG)测定聚合物热降解反应动力学参数············································ 47

    实验十三  聚合物耐热性能的测试················································································· 54

    第四单元  聚合物的力学性能······························································································· 58

    实验十四  聚合物冲击性能的测试················································································· 58

    实验十五  聚合物拉伸性能的测试················································································· 62

    实验十六  聚合物硬度的测试························································································ 65

    第五单元  聚合物的加工性能······························································································· 68

    实验十七  热塑性塑料聚氯乙烯的塑化、力学性能试样压制、成型实验····························· 68

    实验十八  热塑性塑料的挤出造粒与注塑成型································································· 73

    第六单元  聚合物熔体的其他性质(熔体流动特性、电性能)················································· 83

    实验十九  高聚物熔体流动特性的测试··········································································· 83

    实验二十  高阻仪测定聚合物的电阻·············································································· 87

    附  表······························································································································· 94

    主要参考文献··················································································································· 105

     
  • 内容简介:
    本书内容主要涉及聚合物的形态结构、高分子溶液的性质、聚合物的力学性能、聚合物的热性能、聚合物的加工性能、聚合物的电性能以及聚合物乳液的性质等方面,共精选了20个实验,都是合成与加工中需要做的一些测试方法和手段。每个实验都介绍与实验有关的基本原理和明确的目的要求、实验步骤、仪器和药品、数据处理以及需要思考的问题等;书后附有12个附表,方便查阅。本书充分体现了重庆文理学院高分子物理实验教学的特色,体现了作者近年的教学研究成果与科研成果。
  • 作者简介:
    朱江,重庆文理学院材料与化工学院副院长,博士,副教授,硕士生导师,主要研究方向为功能化复合材料和生物可降解材料。重庆市级特色专业(高分子材料与工程)带头人。
  • 目录:
    目  录

    第一单元  聚合物的溶液性质································································································ 1

    实验一  聚合物的逐步沉淀分级法··················································································· 1

    实验二  黏度法测定聚合物分子量··················································································· 6

    实验三  聚合物的溶解································································································· 10

    实验四  聚合物表面的接触角测定················································································· 14

    第二单元  聚合物的结构分析······························································································· 17

    实验五  溶胀平衡法测定聚合物的交联度······································································· 17

    实验六  偏光显微镜法观察聚合物球晶··········································································· 22

    实验七  结晶速率仪测定聚合物的结晶速率···································································· 25

    实验八  红外光谱法鉴定聚合物···················································································· 29

    实验九  偏光显微镜法观察聚合物球晶形态···································································· 32

    第三单元  聚合物的热性能·································································································· 38

    实验十  转矩流变仪测聚氯乙烯热稳定性······································································· 38

    实验十一  差示扫描量热法(DSC)测定聚合物的热性能················································· 43

    实验十二  热重法(TG)测定聚合物热降解反应动力学参数············································ 47

    实验十三  聚合物耐热性能的测试················································································· 54

    第四单元  聚合物的力学性能······························································································· 58

    实验十四  聚合物冲击性能的测试················································································· 58

    实验十五  聚合物拉伸性能的测试················································································· 62

    实验十六  聚合物硬度的测试························································································ 65

    第五单元  聚合物的加工性能······························································································· 68

    实验十七  热塑性塑料聚氯乙烯的塑化、力学性能试样压制、成型实验····························· 68

    实验十八  热塑性塑料的挤出造粒与注塑成型································································· 73

    第六单元  聚合物熔体的其他性质(熔体流动特性、电性能)················································· 83

    实验十九  高聚物熔体流动特性的测试··········································································· 83

    实验二十  高阻仪测定聚合物的电阻·············································································· 87

    附  表······························································································································· 94

    主要参考文献··················································································································· 105

     
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