Xiaochun SHA
,
Chunli MO
,
Dianzhong LI
,
Yiyi LI
材料科学技术(英文)
Based on hot rolling production line of strip steel, the off-line in-house software, termed as ROLLAN (Rolling Analysis), is developed. The code is mainly used to predict the evolution of temperature, rolling force, fraction and grain size of recrystallization, fraction and grain size of phase transformation and final mechanical properties. Almost all the processing parameters affecting microstructure and mechanical properties in the schedule from reheating to the coiling process are considered in detail. Self-learning coefficient is adopted to adjust the deviation between predicted and measured temperatures, such as roughing exit temperature (RT2), finishing exit temperature (FT7) and coiling temperature (CT). Due to the application of low-speed-threading, increasing-speed-rolling and decreasing-speed-delivery process during finishing rolling and different cooling condition, after coiling the thermal-mechanical history of different position, along strip longitudinal direction is different resulting in inhomogeneous mechanical properties. So the segments are divided along longitudinal direction to identify the variation of microstructure and mechanical properties. An example of plain carbon strip steel Q235 with various thickness is used to compare the calculated mechanical properties with measured ones. For the specific grade of Q235 , the maximum deviation of tensile strength is less than 10.3 MPa, the yield strength is less than 13.2 MPa, and elongation is less than 1.99%. Further work will focus on the on-line application and consider the effect of macrosegregation and sulfur content of cast slab.
关键词:
Microstructural evolution
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null
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null
,
null
史小慧
,
王蕊欣
,
高保娇
,
雷彩萍
,
李艳华
高分子材料科学与工程
首先采用氯甲基化试剂1,4-二氯甲氧基丁烷对水杨羟肟酸(SHA)实施氯甲基化反应,制得氯甲基化水杨羟肟酸(CMSHA);然后以聚甲基丙烯酸羟乙酯(PHEMA)改性的硅胶微粒PHEMA/SiO2为载体,使其表面的醇羟基与CMSHA上的氯甲基基团发生亲向取代反应,制得水杨羟肟酸功能化的复合螯合吸附材料(SHA-PHEMA/SiO2).考察了取代反应的主要影响因素;并研究了SHA-PHEMA/SiO2对重金属离子的螯合性能.结果表明,CMSHA与PHEMA/SiO2之间的取代反应遵循单分子取代反应(SNl)的机理;较高温度下,强极性溶剂有利于反应的进行.SHA-PHEMA/SiO2对不同重金属离子表现出不同的螯合吸附能力,摩尔吸附容量的顺序为Cu2+> Zn2+ >Cd2+> Pb2+;SHA-PHEMA/SiO2对Cu2+离子的吸附动力学符合伪二级速率方程;其吸附行为同时遵循Freundlich和Langmuir模式.
关键词:
水杨羟肟酸
,
聚甲基丙烯酸羟乙酯
,
硅胶
,
亲核取代反应
,
螯合吸附
王蕊欣
,
雷彩萍
,
史小慧
,
王洪静
功能材料
doi:10.3969/j.issn.1001-9731.2016.02.049
采用付-克烷基化反应,使水杨羟肟酸(SHA)键合到氯甲基化聚苯乙烯微球(CMCPS)表面,制得SHA功能化聚苯乙烯微球(SHA/CPS);再以SHA/CPS为配体,与过渡金属离子M(Co(Ⅱ)、Cu(Ⅱ)、Fe(Ⅲ)、Mn(Ⅱ))配位,制备了M-SHA/CPS配合物固体催化剂.研究了M-SHA/CPS在氧气非均相氧化乙苯中的催化行为.结果表明,M-SHA/CPS可有效地催化分子氧氧化乙苯.中心金属离子的电子结构对配合物催化性能有较大影响,其中Fe-SHA/CPS对乙苯氧化为EBHP的催化活性和选择性最高,在100℃下EBHP的含量高达14%.催化剂浓度、助剂四甘醇浓度和温度对Fe-SHA/CPS催化剂的活性和选择性有较大影响.此外,Fe-SHA/CPS具有较好的重复使用性.
关键词:
水杨羟肟酸过渡金属配合物
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交联聚苯乙烯微球
,
固载
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催化氧化
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乙苯