1.
Preparation of MgO Nano-particles with Magnetite
菱镁矿为原料制备纳米氧化镁粉体的工艺研究
2.
Surface Modification of Aluminium Hydroxide and Brucite Powder;
氢氧化铝及水镁石粉体的表面改性研究
3.
Preparation and Thermal Decomposition Kinetics of Monodisperse Micro and Nano Powders of Magnesium Oxide
单分散氧化镁微纳粉体的制备及热分解动力学
4.
Preparation of Magnesium Stabilized Zirconia Nanoparticles by Buffer Solution Precipitation
缓冲溶液沉淀法制备氧化镁稳定氧化锆纳米粉体
5.
Sinterable MgO powders via precipitation:effects of chloride ions on powder synthesis and sintering
氯离子对氧化镁纳米粉体合成及烧结性能的影响研究
6.
Preparation of magnesium hydroxide with light calcined powder and sodium hydroxide
轻烧粉-氢氧化钠法制备氢氧化镁的研究
7.
CHOICE OF QUALITY CONTROL INDEXES OF LIGHTLY-BURNED MAGNESIA POWDER FOR DESULFURATION
脱硫用轻烧氧化镁粉品质控制指标的选择
8.
Using magnesium oxide-glass slide method to estimate survival amount of whitefly nymphs
估计粉虱若虫存活数量的新方法——氧化镁薄板法
9.
The Effect of Magnesium on the Rat Body s Antioxidant System;
镁对大鼠机体组织抗氧化机能的影响
10.
Comparative Investigations of Thermodynamic Properties of MgO with Shell-model MD Simulations at High Pressures
氧化镁晶体高压物性的壳层模型研究
11.
Preparation of magnesium hydroxide nanoparticles in silicone oil/water mixture
使用硅油-水体系制备纳米氢氧化镁
12.
The results showed that the sinterability of magnesite-alum- ina spinel could be improved by the addition of light magnesia powder and alumina powder.
研究结果表明,添加轻烧氧化镁及氧化铝微粉对镁铝尖晶石的烧结具有明显的促进作用。
13.
Magnesium Hydroxide of High Grade and Extra Fine Obtained by Hydration of Light-burned Magnesia Calcined from Magnesite;
菱镁矿煅烧氧化镁水化制备高纯超细氢氧化镁
14.
A mineral form of magnesium oxide, MgO, usually occurring in cubic crystals or grains.
方镁石一种镁的氧化物,常以立方体晶体或粒状出现
15.
Preparation and Properties of BST Nano-powder and BST/MgO Multiphase Ceramic Material
钛酸锶钡纳米粉及钛酸锶钡/氧化镁复相陶瓷的制备与性能
16.
Study for the Adsorption of Cr(Ⅵ) on Aluminum-Magnesium Hydroxide Positive Nanopowder;
氢氧化铝镁正电纳米粉末对Cr(Ⅵ)的吸附性能研究
17.
Effect of fly ash on expansion of MgO expansive cement and its mechanism
粉煤灰对氧化镁微膨胀水泥膨胀性能的影响及机制
18.
Study on crystal growth of magnesium hydroxide in strong alkaline hydrothermal environment
氢氧化镁在强碱水热体系中的晶体生长研究