察尔汗盐湖镁资源的开发及展望

察尔汗盐湖不仅具有丰富的镁资源，而且具有开发盐湖的能源，政策优势，由脱水氯化镁可制得多种镁产品。氯化镁脱水技术，氯化镁制金属镁技术是综合开发盐湖水镁资源的关键技术，将纳米技术应用于盐湖镁资源的开发，使镁产品高值化，精细化，将是察尔汗盐湖镁资源的开发方向。     

The distribution of nutrient elements in cell wall and other fractions of the herbage of some grasses and legumes

The distribution of 10 nutrient elements was assessed in three fractions of herbage samples of perennial ryegrass, tall fescue, white clover and lucerne. The cell wall fraction, prepared by mechanical disintegration of undried material, contained the following proportions of the total herbage content of the major elements: N, 2.9–16.4%; P, 3.0–6.9%; S, 3.6–17.2%; Ca, 11.3–51.8%; Mg. 6.4–27.6% and K, 0.1–1.7%. Substantial though more variable proportions of the trace element cations, Fe, Mn, Zn and Cu were also present in the cell wall fraction. The extent to which the elements were soluble in water was assessed by analysis of the water-insoluble fraction prepared from freeze-dried samples of each herbage. The proportions of the total herbage content of the major elements soluble in water were: N, 30–57%; P, 80–92%; S, 35–71%; Ca, 48–69%; Mg. 65–83% and K, 90–96%. With the trace element cations the proportions soluble in water were more variable, though they were generally less than 70% of the total. The extent to which the various elements were soluble in 80% aqueous ethanol was assessed by analysis of the insoluble fraction prepared from freeze-dried materials. With each of the major elements, smaller proportions of the total herbage content were soluble in 80% ethanol than in water, which may reflect in part the lower solubility of proteins and pectin. With the trace element cations, the differences in solubility between 80% ethanol and water were generally small and inconsistent.     

磷酸镁水泥制备试验研究

基于水工建筑物的应急抢险与快速修补加固处理的需要,运用常规的水泥凝结时间、强度等基本性能试验,研究各材料组成对磷酸镁水泥性能的影响,确定磷酸镁水泥配方,并对不同粒径砂土的磷酸镁水泥砂浆水胶比、养护条件、强度等进行了试验研究。结果表明,硼砂是磷酸镁水泥的有效缓凝剂;氧化镁细度对水泥性能有明显影响,氧化镁越细水泥早期强度越高,但细度过细凝结时间将难以满足施工要求;磷酸镁水泥配方为:P/M值1∶3,硼砂掺量10%,氧化镁细度宜为195 m~2/kg左右;磷酸镁水泥砂浆抗压强度与胶水比具有线性相关性,与龄期呈对数关系;水中养护与标准养护相比,抗压强度降低约6%～27%,磷酸盐水泥在长期水下环境中的适用性需论证。研究成果可为水工建筑物的应急抢险与快速修补加固处理提供参考和依据。     

阻燃型氢氧化镁制备及其影响因素探讨

以七水硫酸镁为原料、氨水为沉淀剂、选择适宜的表面活性剂。以样品XRD图中（001）面与（101）面衍射峰的相对强弱为考察指标，通过单因素实验，分别考察了反应温度、恒温反应时间、陈化时间、表面活性剂用量及氨镁摩尔比等因素对氢氧化镁样品XRD图中（001）面与（101）面衍射峰相对强弱的影响。实验结果表明，制备阻燃氩氧化镁较适宜的工艺条件为：反应温度40℃、恒温反应时间40min、陈化时间120min、表面活性剂A体积用量4ml、氨镁摩尔比6：1.     

Preparation of micro-arc oxidation coatings on magnesium alloy and its thermal shock resistance property

1. Introduction Due to their high specific strength, good electro-magnetic shielding characteristics, high damping characteristics, good cast ability, and excellent pol-ishing capability, magnesium alloys are extensively used in aeronautical, automobile, and electro- communication industries [1-3]. But magnesium has some disadvantages, such as low chemical stability, high negative electric potential, and low hardness, so it is necessary to use surface disposal to accommo-date the demand for re…     

Mg-Nd-Zn-Zr稀土镁合金的热变形行为

采用GLEEBLE-1500热模拟机对Mg-Nd-Zn-Zr稀土镁合金在温度为250～450.℃、应变速率为0.002～0.100.s-1、最大变形程度为60%的条件下, 进行高温压缩模拟实验研究. 分析了实验合金在高温变形时的流变应力和应变速率及变形温度之间的关系, 计算了变形激活能和应力指数, 并研究了在热压缩过程中组织的变化, 为确定该稀土镁合金的挤压温度提供了实验依据. 结果表明: 合金的峰值流变应力随应变速率的增大而增加, 随温度的升高而降低; 合金的变形激活能在300～400.℃内变化不大, 而在400～450.℃时增加很大; 根据实验分析认为该稀土镁合金挤压温度定在350～400.℃左右为宜; 在350.℃左右顺利挤出的实验合金有很好的力学性能: σb=275.5.MPa, δ=13.5%.     

新型铸造镁合金开发现状

总结了近年来镁合金在高温抗蠕变、高韧性、高强度、高耐蚀性、降低成本和改善工艺性六大热点研究方向上取得的典型研究成果，重点阐述了对高温抗蠕变铸造镁合金的研究。并从热力学角度分析了镁合金中可能出现的各相对镁合金高温蠕变过程的影响，叙述了Mg-Al、Mg-Zn和Mg-RE系耐热合金的最新发明。     

分流挤压镁合金管材工艺研究

用分流挤压方法可生产挤压比不大于68，壁厚不小于1．5mm的非薄壁镁合金管材，其表面基本上无烧损、无横裂纹等缺陷。主要工艺参数：挤压筒温度250-350℃，镁棒温度320-380℃，模具预热温度300-380℃。模具及其内残余镁合金重复加热可保证模具多次使用，不用清洗。     

Thermal cross-linking and anti-meltdrop properties of copolyester containing phosphorus/magnesium salt composites by in situ polymerization

Polyester is widely used in household products because of its good mechanical properties and wears resistance, but polyester is easy to ignite and inclined to produce droplet, so its application range is limited. The cross-linkable magnesium hydroxide nanoparticles were incorporated into flame-retardant polyester, which enables the phosphorus-containing copolyester with thermal cross-linking and anti-meltdrop properties. The nanoparticles were achieved by in situ polymerization and acted as a nucleating agent for improving the crystalline properties of the copolyester. Furthermore, the nanoparticles also enhanced anti-meltdrop properties and reduced the heat and gas release during the combustion process of the copolyester. The maximum heat release rate and total smoke release reduced by 39.8% and 74.4% compared with pure polyester. Specifically, the combustion products of the nanoparticles and phosphorus flame retardant could act a barrier role by covering the carbon layer to isolate air and heat, thereby resulting in excellent anti-meltdrop properties. The simple modification method reported here realizes the collaborative modification of flame retardant and anti-meltdrop properties of phosphorous flame-retardant copolyesters by thermal cross-linking.     

Mg-Al-Zn（RE）镁合金轧制变形行为及强化机制

针对典型的Mg-Al-Zn系AZ31变形镁合金以及添加了0．8％Ce和0．8％Nd的AZ31镁合金，研究了合金在轧制加工过程中组织与性能的变化以及稀土元素对合金的影响，并探讨了合金的主要强化机制。结果表明：Mg-Al-Zn系合金轧制加工过程中加丁硬化严重，容易发生脆性断裂。添加稀土元素后的合金强度和塑性都有明显提高，稀土元素可形成Al4ce等含稀土化合物，起到细晶强化和第二相强化作用。