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1)  non-isothermal crystallization
非等温晶化
1.
Computation methods of activation energy of amorphous alloy with non-isothermal crystallization;
非晶合金非等温晶化激活能的计算方法
2.
Kinetic performance of non-isothermal crystallization of amorphous Co-Cu-B alloy nanopowder
非晶态Co-Cu-B纳米合金粉末的非等温晶化动力学性能
3.
One was non-isothermal crystallization kinetics at constant heating rate,which could be analyzed by the Kissinger and DoyleOzawa method.
5非晶合金的非等温晶化的动力学行为。
2)  isothermal annealing
等温晶化
1.
Phase transformation of amorphous alloy (Ni_(0.75)Fe_(0.25))_(73)Nb_5Si_(10)B_(12) during isothermal annealing;
(Ni_(0.75)Fe_(0.25))_(73)Nb_5Si_(10)B_(12)非晶合金的等温晶化与结构转变
3)  isothermal crystallization
等温晶化
1.
By introducing the concept of Avrami exponent nucleation and growth kinetics of Ni-P and Ni-P-D coatings were researched during isothermal crystallization process.
采用金刚石作为复合粒子制备了N i-P-金刚石复合镀层,通过引入晶化方式指数的概念,研究了N i-P镀层和N i-P-金刚石复合镀层的等温晶化过程的形核和长大动力学。
2.
Employing differential scanning calorimetry (DSC) and transmission electron microscopy (TEM), the isothermal crystallization process and precipitated phases of Zr41.
5 (at%)大块非晶合金的等温晶化 过程和析出相进行了研究。
3.
5Fe80NbB6 melt-spun ribbons,after isothermal crystallization processes at 943,973 and 1003 K,was studied.
5Fe80Nb1B6非晶快淬薄带在943,973和1003 K等温晶化与薄带组织和矫顽力的关系。
4)  non-isothermal crystallization
非等温结晶
1.
Effect of styrene-ethylene/butylene-styrene elastomer grafted with maleic anhydride on morphology and non-isothermal crystallization behavior of polystyrene/polyamide 6 blends;
SEBS-g-MA对PS/PA6的相形态及非等温结晶行为的影响
2.
Research on non-isothermal crystallization kinetics of poly(ethylene terephthalate);
聚对苯二甲酸乙二酯非等温结晶过程研究
3.
Non-isothermal Crystallization Kinetics of PP-g-EMA;
聚丙烯固相接枝甲基丙烯酸乙酯的非等温结晶行为
5)  nonisothermal crystallization
非等温结晶
1.
Monte Carlo simulation of nonisothermal crystallization of polymers;
高聚物非等温结晶过程的Monte Carlo法模拟
2.
The nonisothermal crystallization behavior of the MC nylon 6/ZnO nanocomposite prepared by in situ polymerization was studied by means of differential scanning calorimetry(DSC),where a kinetic analysis was made by Jeziomy,Mo and Kissinger methods based on modified Avrami equations.
采用差示扫描量热法研究了原位聚合反应制备的MC尼龙6/纳米ZnO复合材料的非等温结晶行为,并利用修正Avrami方程的Jeziomy法、Mo法和Kissinger法对其动力学过程进行了分析。
3.
The nonisothermal crystallization behavior of metalloeene linear low density polyethylene(mLLDPE)and traditional linear low density polyethylene(LLDPE)was stud- ied by differential scanning calorimeter(DSC).
利用差示扫描量热仪(DSC)研究了茂金属线性低密度聚乙烯(mLLDPE)和传统线性低密度聚乙烯(LLDPE)的非等温结晶行为。
6)  non isothermal crystallization
非等温结晶
1.
The melt intercalation method was employed to prepare polypropylene/maleic anhydride grafted polypropylene/montmorillonite(PP/PP MA/MMT) nanocomposites and the non isothermal crystallization kinetics of the composites was investigated by means of differential scanning calorimeltry(DSC).
采用熔融插层法制备了聚丙烯 /马来酸酐接枝聚丙烯 /蒙脱土 (PP/PP MA/MMT)纳米复合材料 ,并用差示扫描量热法 (DSC)对体系的非等温结晶动力学进行了研究。
2.
The kinetics of isothermal and non isothermal crystallization of Polypropylene (PP) and PP/nanomontmorillonite composites is investigated by differential scanning calorimetry(DSC) and the data have been analyzed with Avrami equation and ZHAO Zhi ying method respectively.
采用热分析方法 ,研究了聚丙烯 /纳米蒙脱土复合材料 (PP/CLAY)的等温和非等温结晶行为 ,并分别用Avrami方程和赵志英方法[1] 对所得数据进行了分析 。
3.
The non isothermal crystallization behavior and melting characteristics of polypropylene(PP) nucleated by different nucleating agents were studied by DSC.
用 DSC研究了两种成核剂成核 PP的非等温结晶行为与熔融特性。
补充资料:非等温吸收
      气液两相的温度在过程中发生显著变化的吸收操作。如果被处理的气体混合物中含有可被吸收的溶质量较大,而且溶质组分溶于吸收剂时的溶解热(物理吸收时)或与吸收剂之间的反应热(化学吸收时)较大,则吸收过程中释放出来的热量远大于设备散热量和少量吸收剂汽化所消耗的热量。两相的温度会随吸收的进行发生明显的变化,吸收剂的出口温度会比进口温度高得多,在吸收设备中也会有不相同的温度分布。温度升高将影响气液平衡(见汽液平衡)关系,使传质推动力明显减小,同时传质系数也随温度而有所变化。通常温度升高使气相传质分系数减小,使液相传质分系数和反应速度(在化学吸收中)增大。对于高溶解度溶质的吸收,气阻控制传质,温度升高时对吸收很不利;对于低溶解度溶质的吸收,液阻控制传质,适当的升温能达到较高的传质总系数,但温度太高时,因为传质推动力下降太多,对吸收仍然不利。为此,对非等温吸收来说,一般须采用适当的冷却措施,以维持适当的操作温度,保证吸收产物的质量。从吸收设备中移去热量的方法有:①循环冷却(图1)。将部分出塔液体经塔外冷却后送回塔顶,以增加塔内液体流量,减少温升,多用于填充塔。②内部冷却。在吸收塔内部安装冷却装置,移去热量,多用于板式塔。③中间冷却(图2)。在多段吸收塔的段间进行冷却,以移去热量。
  
  非等温吸收在工业生产中应用颇广,如硫酸生产中三氧化硫的吸收,硝酸生产中氮的氧化物的吸收等。近年来,关于非等温吸收的实验和计算方法的研究都有加强。
  

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