1) MB8 magnesium alloy
MB8镁合金
1.
Microstructure and properties of cathode electrodeposited Ni-SiC nano composite coatings on MB8 magnesium alloy;
MB8镁合金阴极电沉积Ni-SiC纳米复合镀层微观结构及性能
2.
The influences of solution type and solution concentration on the corrosion behavior of the conversion film on MB8 magnesium alloy surface were studied.
通过化学氧化工艺在MB8镁合金表面制备了化学转化膜,研究了氧化液种类、浓度对镁合金及表面转化膜的电化学腐蚀行为的影响,用扫描电镜观察了表面转化膜电化学腐蚀前后的微观形貌,用电化学分析系统测试了不同溶液中的塔菲尔极化曲线,并对MB8镁合金的氧化及电化学腐蚀行为进行了分析。
2) magnesium and its alloys
镁及镁合金
1.
Based on recently published papers and information on magnesium and its alloys, this paper introduced the distribution and exploitation of magnesium over the world, reviewed the product development, application and market of magnesium and its alloys in last century, especially in last two decades.
根据近年来国内外发表和公布的有关镁及镁合金的文章和信息,介绍了世界镁资源的分布及开采,回顾了上个世纪特别是近20年来世界镁合金及产品的发展,使用和市场概况。
2.
This paper reviews corrosion behavior of magnesium and its alloys and the possibility of their application as biomaterials.
对镁及镁合金作为生物材料的可能性和研究进展进行了评述。
4) Magnesium and its alloy
镁及镁合金
1.
The essay overviews the application and consumptive structure of magnesium and its alloys in industry.
综述了镁及镁合金在工业中的应用和消费结构 ,阐述了改善镁合金性能的各种可行性措施 ,及提高镁合金耐蚀性和综合性能的研究进展。
2.
In this paper, surface-alloying modification treatment was used to treat pure magnesium and its alloy(ZM5) through solid-state diffusion-alloying, resulting in alloyed layers on the surface of magnesium(Infiltrate is zinc powder) and its alloy(Infiltrate is zinc & aluminum powder).
本文采用固念扩渗法对镁及镁合金进行表面合金化改性处理,在镁表面(扩渗剂为锌粉)和镁合金(ZM5)表面(扩渗剂为锌、铝混合粉)生成合金化渗层,探讨固态扩渗合金层的形成机制以及温度、时间等不同工艺条件之间的内在联系和影响规律,为镁及镁合金表面合金化改性处理的工艺参数优化提供依据。
5) Al-Mg alloy
铝镁合金
1.
The process of brushing Ni-P compound layer on Al-Mg alloy surface;
铝镁合金表面电刷镀镍-磷复合层的工艺研究
2.
Welding pipe of Al-Mg alloy;
铝镁合金管道的焊接施工
3.
The main materials of the ship made of aluminium are mainly used the hull planks of Al-Mg alloy (5083H226/H321) and the sec- tions of Al-Mg-Si alloy(6082-T2),and the welding technology for the hull is auto and/or semi-auto MIG welding as well as TIG welding(to weld tubes).
某公司承建的一艘全铝制船,其船体材料主要采用5083H116/H321铝镁合金板材与6082-T6铝镁硅合金型材。
6) Mg alloy
镁合金
1.
Study on anodic films on Mg alloy obtained with applied constant current densities at low voltages;
镁合金低压恒流阳极氧化膜研究
2.
Comparison of the(Ti,Al)N coatings on Al and Mg alloy substrate by AIP;
铝和镁合金上电弧离子镀(Ti,Al)N梯度涂层的比较
3.
Study on microarc oxidation processes for Mg alloy;
镁合金微弧氧化膜的制备工艺研究
补充资料:镁铝锌系铸造镁合金
镁铝锌系铸造镁合金
magnesium-aluminium-zinc cast magnesium alloy series
mellUxlnx一zhuzao melhej一n镁铝锌系铸造镁合金(magnesium一alumini-um一Zine east magnesium alloy series)以铝、锌为主要合金化元素的铸造镁合金,可用于砂型和金属型铸造,也可用于压力铸造,具有良好的流动性和焊接性能,热裂倾向性低,但有较大的显微疏松倾向。 中国牌号ZM一5(7.5%一9.0%Al,0.15%一0.5%Mn,0.2%一0.8%Zn,Mg为余量)合金,ZM一10(9 .0%~1 0.2%AI,0.15%一0.5%Mn,0.2%一0.8%zn,Mg余量)合金。zM一5合金为镁铝锌系铸造镁合金的代表,相当于前苏联牌号的M月5合金。合金中杂质为铁、铜、镍、硅、钻等,根据需要可适量加些被。 铝是主要合金化元素并含有锌和锰,通过改变铝、锌含量可改变合金的力学性能、铸造性能及抗蚀性能。铝含量的增加能进一步改善合金的铸造性能和提高合金的强度,但使伸长率和抗腐蚀性能降低。加入少量的锌和锰能显著提高合金的抗蚀性能,还可以提高合金的强度。但锌含量增加会使合金的缩松倾向增加。ZM一5合金的铸态组织由固溶体叔Mg)为基体,沿它的晶界以不连续网状分布着y(Mg‘A13)相,以及分布在固溶体叔Mg)中的Mn一Ai化合物小质点所组成。热处理强化常采用两种规范:(1)淬火(T4):加热到370~380℃保温2一4h,再升温至415士5℃保温12一16h,然后在空气中冷却。(2)淬火时效(T6):淬火后再在175士5℃人工时效16h。ZM一5合金的力学性能见表1。 表1 zM一5合金的力学性能详 镁铝锌系铸造镁合金结晶间隔较大,充型能力良好,铸造工艺性能及物理常数见表2。表2 zM一s合金铸造工艺性能及物理常数}牛粉粉{字朴 镁铝锌系铸造镁合金能铸出外形和内腔形状复杂的铸件,加之镁合金在汽油、煤油、润滑油中很稳定,因而多用于航空工业的燃油系统和润滑系统。还可作为在受冲击载荷时能吸收大量能量的零部件及飞机着陆轮的轮毅。 (杨朴)
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