镁锭

  • 网络Magnesium ingot
镁锭镁锭
  1. ICP-AES法测定镁锭中铁铝铜锰硅镍

    ICP-AES Determination of Fe , Al , Cu , Mn , Si and Ni in Magnesium Ingot

  2. 目前,传统镁合金生产是以粗镁精炼后的镁锭为原料,需经两次熔化,能源浪费大,烧损严重,熔剂消耗量大,生产成本高。

    At present , most magnesium alloy production is based on pure magnesium ingot by smelting of crude magnesium . So it needs melting twice , wasting energy , seriously burning , consumption of flux , seriously environmental pollution and the product quality is not stable , high production costs .

  3. 用无Ni耐热蚀坩埚炼制镁锭,提高了镁锭的品级。

    The quality grade of Mg ingots were raised when the smelting crucible was made of non - nickeled heat-erosion resistant steel .

  4. GB/T3499-1995重熔用镁锭

    Unalloyed magnesium ingots for remelting

  5. 结果表明,适量添加这三种元素的镁锭显微组织得到显著的细化。

    The results show that an amount of addition of these elements to Mg resulted in significant grain refinement in cast ingots .

  6. 镁合金锭品质控制

    Quality Control for Magnesium Alloy Ingots

  7. 电磁场施加方式对半连续铸造镁合金锭坯组织与性能的影响

    Effect of Different Electromagnetic Field Application Ways on Microstructures and Mechanical Properties of Semi-Continuous Cast Magnesium Alloy Billets

  8. 通过与普通连续铸造铸锭对比的方法,对电磁铸造镁合金圆锭的显微组织及力学性能进行了分析。

    Cast . Microstructure and mechanical properties of the EMC billets are compared with the billets cast by the direct chill method .

  9. 采用先进技术,利用低成本将加工性能良好的镁制造出有很好延伸率和冲击抗力以及较高性能的镁锭。

    Using advanced technology , the use of low-cost , good processing properties will produce magnesium has very good elongation and impact resistance and high performance magnesium .

  10. 采用较高镁含量的电极和较高的重熔电流有助于获得设计镁含量的重熔锭。

    The higher magnesium content of electrode and higher remelting current is beneficial for obtaining remelting ingots with predicted magnesium content .

  11. 采用在底流式镁合金熔炼炉中施加不锈钢丝网过滤的方法在半连续铸造工艺中实现镁合金熔体净化,以达到提高镁合金锭坯质量的目的。

    In order to improve the quality of magnesium billets , magnesium melt for DC casting was purified by using stainless steel mesh in the magnesium melting furnace with bottom apex .