2) organic phosphonate
有机膦酸盐
1.
The results can be obtained as follows:These organic phosphonate can accelerate the passivation of mild .
结果表明:在一定的浓度范围内,上述有机膦酸盐能促进碳钢的钝化,并能使其进入自钝化状态。
2.
The results showed that, HEDP had a better inhibition performance to CaCO3 scale when the Ca2+ concentration was low; and in the solution containing high concentration of Ca2+, HEDP had a chemical combination with abundant Ca2+ and formed insoluble organic phosphonate-calcium composite sediment, which impact the effect of HEDP.
采用静态阻垢法测定不同浓度的HEDP药剂对碳酸钙垢的阻垢效果,测定阻垢试验的溶液中实际残留的HEDP药剂浓度,考察了不同Ca2+浓度与HEDP的沉积效应,研究结果表明,在低Ca2+浓度时,HEDP药剂对碳酸钙有良好的阻垢效果;在高Ca2+浓度的溶液中,HEDP药剂与溶液中大量的Ca2+结合,形成不溶性有机膦酸盐-钙复合体而沉积,而影响HEDP药效的发挥。
3) metal organic sulfonate
(有机)磺酸金属盐
4) phosphonates monosalts
膦酸酯单金属盐
5) mesoporous organosphosphonates
介孔有机膦酸盐
6) Organometallic salt
金属有机盐
1.
Organometallic salt[CpFe (C6H6)]2·[Ni (mnt)2] was synthesized by the metathetical reaction of [CpFe (C6H6) ]PF6 with Na2[Ni (mnt)2].
通过[CpFe(C6H6)]PF6与Na2[Ni(mnt)2]复分解反应合成了金属有机盐[CpFe(C6H6)]2·[Ni(mnt)2],用元素分析、红外光谱和1HNMR进行了鉴定,并用X射线测定了晶体结构。
补充资料:(-)顺-1,2-环氧丙基膦酸-(+)-α-苯乙胺盐
分子式:C11H18NO4
分子量:暂无
CAS号:暂无
性质:暂无
制备方法:暂无
用途:医药中间体。
分子量:暂无
CAS号:暂无
性质:暂无
制备方法:暂无
用途:医药中间体。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条