Modified Magnesium(改性镁)研究综述
Modified Magnesium 改性镁 - Modified magnesium coagulants were found to demonstrate high efficiency at high pH values of the treated water. [1] Here, a modified magnesium oxysulfate (MOS) cement was used to manufacture lightweight concretes using wheat husk, a highly available and unexploited resource, and hemp hurd as bio-aggregate. [2] This study is, focused on the synthesis of magnesium oxide (MgO) and chitosan-modified magnesium oxide (CMgO) nanoparticles (NPs), via a green precipitation process. [3] The optimal photochemical activity of the modified magnesium silicates has been achieved at the ratio of 4–8 μmol of chlorin e 6 derivative per 1 g of magnesium silicate. [4] The corrosion resistance of the modified magnesium alloy was significantly better than that of the control according to the results of electrochemical tests. [5] Tests have shown that the addition of modified magnesium hydroxide to the polyvinyl chloride compositions provides a material of reduced flammability while providing improved tensile strength and hardness. [6] The crystal phase composition, crystal structure parameters and crystal morphology of different modified magnesium slags were studied by various characterization analysis methods. [7] In this work, we studied the effects of hot isostatic pressing and surface anodizing on the behavior of an in-situ surface modified magnesium matrix nano-composite with different wt. [8] As an eco-friendly alternative to PC, granulated blast furnace slag (GBFS)-modified magnesium oxychloride cement (MOC) is innovatively introduced in sludge solidification. [9] The purpose of this research is to study the producibility of molded composites containing a modified magnesium binder that features higher resistance to weather impacts. [10] More importantly, the concept of minimally invasive surgery has been introduced to define the degradation timing of the as-modified magnesium implant. [11] TGA are used for analysis of magnesium slag desulfurization performance; XRD, SEM, EDS and BET are used for analysis of modified magnesium slag composition, surface morphology and microscopic characteristics, respectively, obtaining the modification mechanism of different additives on the quenching hydrated magnesium slag. [12] From confirmation experiment, the optimised condition shows an improved wear resistance obtained from the surface modified magnesium alloy. [13] The concept can be realized by using a newly fabricated nanocomposite comprising of custom-made copolymer polycaprolactone-co-poly(ethylene glycol)-co-polycaprolactone (PCL-PEG-PCL) and surface-modified magnesium oxide (MgO) nanoparticles. [14] Using modified magnesium injection molding, reactive carbon dioxide was introduced to hot zone of cylinder to conduct controlled oxidation reaction with partially melted Mg alloy. [15] In this report, a robust superhydrophobic fabric with oil/water separation property and load carrying capacity had been successfully prepared by introducing the modified magnesium oxide (MgO) and aluminate. [16] The reason for the enhanced creep resistance of Ca-modified magnesium alloys is investigated based on their microstructure and precipitate morphology. [17] Inspired by the hydrophobic surface structure of biomaterials, the hydrophobic charring agent N-methyl triazine-piperazine copolymer (MTPC) and modified magnesium oxide (MgO) were assembled on ammonium polyphosphate (APP) surface to prepare the hydrophobic intumescent flame retardant (HIFR) system. [18]发现改性镁混凝剂在处理水的高 pH 值下表现出高效率。 [1] 在这里,改性硫酸氧镁 (MOS) 水泥被用于制造轻质混凝土,使用小麦壳(一种高度可用且未开发的资源)和大麻壳作为生物骨料。 [2] 本研究的重点是通过绿色沉淀工艺合成氧化镁 (MgO) 和壳聚糖改性氧化镁 (CMgO) 纳米颗粒 (NPs)。 [3] 改性硅酸镁的最佳光化学活性已在每 1 g 硅酸镁 4-8 μmol 二氢卟吩 e 6 衍生物的比例下实现。 [4] 根据电化学测试结果,改性镁合金的耐腐蚀性能明显优于对照。 [5] 试验表明,向聚氯乙烯组合物中添加改性氢氧化镁提供了一种可燃性降低的材料,同时提供了改进的拉伸强度和硬度。 [6] 通过各种表征分析方法研究了不同改性镁渣的晶相组成、晶体结构参数和晶体形貌。 [7] 在这项工作中,我们研究了热等静压和表面阳极氧化对不同 wt 的原位表面改性镁基纳米复合材料行为的影响。 [8] 作为PC的环保替代品,粒状高炉矿渣(GBFS)改性氯氧镁水泥(MOC)被创新性地引入污泥固化中。 [9] 本研究的目的是研究含有改性镁粘合剂的模塑复合材料的可生产性,该粘合剂具有更高的耐候性。 [10] 更重要的是,引入了微创手术的概念来定义改性镁植入物的降解时间。 [11] TGA用于镁渣脱硫性能分析; XRD、SEM、EDS和BET分别对改性镁渣成分、表面形貌和微观特征进行分析,得出不同添加剂对淬火水化镁渣的改性机理。 [12] 从验证实验来看,优化条件表明表面改性镁合金的耐磨性有所提高。 [13] 该概念可以通过使用新制造的纳米复合材料来实现,该复合材料由定制的共聚物聚己内酯-共聚(乙二醇)-共聚-聚己内酯 (PCL-PEG-PCL) 和表面改性氧化镁 (MgO) 纳米粒子组成。 [14] 采用改性镁注塑成型,将活性二氧化碳引入气缸的热区,与部分熔融的镁合金进行可控的氧化反应。 [15] 在本报告中,通过引入改性氧化镁(MgO)和铝酸盐,成功制备了具有油水分离性能和承载能力的坚固超疏水织物。 [16] 基于其微观结构和析出物形态研究了钙改性镁合金增强抗蠕变性的原因。 [17] 受生物材料疏水表面结构的启发,将疏水炭化剂N-甲基三嗪-哌嗪共聚物(MTPC)和改性氧化镁(MgO)组装在聚磷酸铵(APP)表面制备疏水膨胀型阻燃剂(HIFR)体系. [18]
Surface Modified Magnesium
In this work, we studied the effects of hot isostatic pressing and surface anodizing on the behavior of an in-situ surface modified magnesium matrix nano-composite with different wt. [1] From confirmation experiment, the optimised condition shows an improved wear resistance obtained from the surface modified magnesium alloy. [2]在这项工作中,我们研究了热等静压和表面阳极氧化对不同 wt 的原位表面改性镁基纳米复合材料行为的影响。 [1] 从验证实验来看,优化条件表明表面改性镁合金的耐磨性有所提高。 [2]
modified magnesium oxide
This study is, focused on the synthesis of magnesium oxide (MgO) and chitosan-modified magnesium oxide (CMgO) nanoparticles (NPs), via a green precipitation process. [1] The concept can be realized by using a newly fabricated nanocomposite comprising of custom-made copolymer polycaprolactone-co-poly(ethylene glycol)-co-polycaprolactone (PCL-PEG-PCL) and surface-modified magnesium oxide (MgO) nanoparticles. [2] In this report, a robust superhydrophobic fabric with oil/water separation property and load carrying capacity had been successfully prepared by introducing the modified magnesium oxide (MgO) and aluminate. [3] Inspired by the hydrophobic surface structure of biomaterials, the hydrophobic charring agent N-methyl triazine-piperazine copolymer (MTPC) and modified magnesium oxide (MgO) were assembled on ammonium polyphosphate (APP) surface to prepare the hydrophobic intumescent flame retardant (HIFR) system. [4]本研究的重点是通过绿色沉淀工艺合成氧化镁 (MgO) 和壳聚糖改性氧化镁 (CMgO) 纳米颗粒 (NPs)。 [1] 该概念可以通过使用新制造的纳米复合材料来实现,该复合材料由定制的共聚物聚己内酯-共聚(乙二醇)-共聚-聚己内酯 (PCL-PEG-PCL) 和表面改性氧化镁 (MgO) 纳米粒子组成。 [2] 在本报告中,通过引入改性氧化镁(MgO)和铝酸盐,成功制备了具有油水分离性能和承载能力的坚固超疏水织物。 [3] 受生物材料疏水表面结构的启发,将疏水炭化剂N-甲基三嗪-哌嗪共聚物(MTPC)和改性氧化镁(MgO)组装在聚磷酸铵(APP)表面制备疏水膨胀型阻燃剂(HIFR)体系. [4]
modified magnesium alloy
The corrosion resistance of the modified magnesium alloy was significantly better than that of the control according to the results of electrochemical tests. [1] From confirmation experiment, the optimised condition shows an improved wear resistance obtained from the surface modified magnesium alloy. [2] The reason for the enhanced creep resistance of Ca-modified magnesium alloys is investigated based on their microstructure and precipitate morphology. [3]根据电化学测试结果,改性镁合金的耐腐蚀性能明显优于对照。 [1] 从验证实验来看,优化条件表明表面改性镁合金的耐磨性有所提高。 [2] 基于其微观结构和析出物形态研究了钙改性镁合金增强抗蠕变性的原因。 [3]
modified magnesium slag
The crystal phase composition, crystal structure parameters and crystal morphology of different modified magnesium slags were studied by various characterization analysis methods. [1] TGA are used for analysis of magnesium slag desulfurization performance; XRD, SEM, EDS and BET are used for analysis of modified magnesium slag composition, surface morphology and microscopic characteristics, respectively, obtaining the modification mechanism of different additives on the quenching hydrated magnesium slag. [2]通过各种表征分析方法研究了不同改性镁渣的晶相组成、晶体结构参数和晶体形貌。 [1] TGA用于镁渣脱硫性能分析; XRD、SEM、EDS和BET分别对改性镁渣成分、表面形貌和微观特征进行分析,得出不同添加剂对淬火水化镁渣的改性机理。 [2]