| 1. | Diethylenetriamine will swell the resin .
二乙烯三胺将使树脂膨胀。 |
| 2. | Synthesis of 2 - hydroxy - n , n - bis 2 - aminoethyl ethylamine
羟乙基二乙烯三胺的合成 |
| 3. | Hygienic standard for diethylenetriamine in water sources
水源水中二乙烯三胺卫生标准 |
| 4. | Dtpa soil quality - extraction of trace elements by buffered dtpa solution iso 14870 : 2001
土壤质量.采用缓冲的二亚乙基三胺五乙酸 |
| 5. | Water quality . determination of diethylenetriamine . salicyiclaldehyde spectrophotometric method
水质二乙稀三胺的测定水杨醛分光光度法 |
| 6. | Dtpa determination of available zinc , manganese , iron , copper in soil - extraction with buffered dtpa solution
土壤有效态锌锰铁铜含量的测定二乙三胺五乙酸 |
| 7. | 3 . diethylene triamine penta methylene phosphonic acid ( dtpmp ) is applied to hydration resistance treatment of anodic oxide films , which treating method is same as that of atmp
3 .提出以二乙烯三胺五甲叉膦酸( dtpmp )为耐水合处理试剂,耐水合处理方法同atmp 。 |
| 8. | The type of formed nanocomposite was depended on the kind of curing agent used : intercalated nanocomposite was formed for curing agents of deta or mz , and exfoliated nanocomposite was obtained for curing agent of toa
用二乙烯三胺或咪唑作固化剂时,形成插层型纳米复合材料,而用桐油酸酐作固化剂时形成的是剥离型纳米复合材料。 |
| 9. | The results are listed as follows : ( 1 ) the inorganic acetate of y , ba and cu were used as precursors , and diethylenetriaminejactic acid and a - methacrylic acid as complexing agents , respectively . the stable fluorine - free ybco sol can be obtained
研究结果表明: ( 1 )采用y 、 ba和cu的无机盐为出发原料,采用乳酸、 ?甲基丙烯酸及二乙烯三胺作络合剂,可以制得易于成膜且稳定性良好的无氟系ybco溶胶。 |
| 10. | ( 2 ) xrd analysis showed that phenolic resin molecules could insert into the interlayer of organic - montmorillonite , but there are some differences of the behavior of intercalation between thermosetting phenolic resin and thermoplastic phenolic resin . ( 3 ) the cure kinetics parameters of epoxy resin / org - mmt / deta , epoxy resin / org - mmt / toa and epoxy resin / org - mmt / mz nanocomposites were investigated by differential scanning calorimetry ( dsc ) . some kinetics parameters including the reaction order and activation energy were caculated with kissinger method
( 3 ) dsc研究了环氧树脂二乙烯三胺蒙脱土、环氧树脂桐油酸酐蒙脱土、环氧树脂咪唑蒙脱土固化体系在不同org - mmt配比( 0 , 5 , 10 )及不同温度下的固化动力学,除了运用常见的kissinger和crane方法求出活化能和反应级数等动力学参数外,还尝试了用修正的avrami方程和自催化动力学模型研究了环氧树脂蒙脱土体系的固化动力学。 |
