1) comprehensive denaturant
复合变性剂
2) composite modifier
复合变质剂
1.
Effect of RE-Mg composite modifier on purification and modification of meta bainitic cast steel;
RE-Mg复合变质剂对准贝氏体铸钢的净化与变质作用
2.
The results have shown that the morphology of the eutectic carbides in the W_(18)Cr_4V hardfacing alloy treated with the appropriate RE-Mg composite modifier additive changed from continuous network to isolated, fine and irregular blocks and the impact toughness and abrasion resistance increased accordingly.
采用H08A作焊芯,通过焊条药皮过渡W、Cr及V等合金元素,研究出具有优良抗磨耐热性能的堆焊焊条,并对稀土镁复合变质剂的作用进行分析与讨论。
3.
The effect of REAlTiBP multicomponent composite modifier to alloy structure and property of cast aluminum 117 was studied.
研究了REAlTiBP多元复合变质剂对ZL117合金组织和性能的影响。
3) compound modificator
复合变质剂
1.
The effects of compound modificator on microstructure,mechanical properties,wearing properties and damping properties of ZA27 alloy have been studied.
研究了复合变质剂对ZA2 7合金组织、力学性能、耐磨性和阻尼性能的影响。
2.
In this paper the effects of the Re K Zn compound modificator on the microstructure and properties of high Chromium white cast iron as cast have been studied by the method of orthogonal design.
本文通过正交设计实验研究了Re K Zn复合变质剂对高铬白口铸铁组织和性能的影响 ,借助于电子扫描显微镜、X 射线能谱仪等先进设备对其影响结果进行了分析。
4) complex modifier
复合变质剂
1.
It has been found that NbN and Nb2C can be formed in the liquid state of manganese steel because of addition of complex modifier.
研究结果表明:复合变质剂使钢的氧化物总量从原来的0。
2.
Effects of complex modifiers (Nb, N, RE + Si-Ca) on strength and toughness of medium manganese steel have been investigated.
本文研究了Nb、N、RE+Si-Ca复合变质剂对中锰钢强度及韧性的影响。
5) compound variety medicament
复合诱变剂
6) compound modification
复合变性
1.
The waxy maize starch was used to produce the hydroxypropylated-phosphate monoester compound modification starch which had freeze-thaw stabilization.
以糯玉米淀粉为原料,制备冻融稳定型羟丙基-磷酸单酯复合变性淀粉,并对磷酸盐浓度、羟丙基取代度、反应温度、反应时间、pH、尿素浓度、磷酸盐配比对羟丙基—磷酸糯玉米淀粉的冻融稳定性和磷酸分子取代度的影响进行了研究。
补充资料:复合固体推进剂氧化剂
分子式:
CAS号:
性质:它提供推进剂自持燃烧所需的氧。要求氧化剂的有效氧含量高、密度大、生成热高、分解产物为气体、安定性好,与推进剂组分化学相容。氧化剂品种、含量、颗粒形状、粒度及粒度分布对推进剂的能量、燃烧、力学、工艺、安全等性能有重要影响。在推进剂中用量一般占60%~75%,常用的氧化剂有高氯酸铵、硝酸铵、奥克特今、黑索今等。
CAS号:
性质:它提供推进剂自持燃烧所需的氧。要求氧化剂的有效氧含量高、密度大、生成热高、分解产物为气体、安定性好,与推进剂组分化学相容。氧化剂品种、含量、颗粒形状、粒度及粒度分布对推进剂的能量、燃烧、力学、工艺、安全等性能有重要影响。在推进剂中用量一般占60%~75%,常用的氧化剂有高氯酸铵、硝酸铵、奥克特今、黑索今等。
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