镁板

  • 网络magnesium board
镁板镁板
  1. 利用有限元模拟软件ANSYS对镁板带超声铸轧的温度场进行模拟仿真,得出了不同前箱温度、铸轧速度和超声波功率下的温度场分布规律。

    Simulating the temperature field of ultrasound roll-casting by using the ANSYS to get the regularities of distribution of the temperature field under the conditions of different former case temperature , speed and ultrasonic power .

  2. 镁板的拉伸性能和压缩性能存在差异,且差异与退火处理密切相关。

    There are differences between uniaxial tension and uniaxial compression in mechanical properties , and the differences are closely dependent of annealing .

  3. 本文针对某钢框架-中心支撑结构玻镁板内隔墙的开裂,通过现场的调查与取样检测,分析了墙体开裂的原因,同时对结构作出安全性评价,并提出处理意见。

    This paper analyzed the causes of crack on Bo-mei board partition wall of steel frame central sustained structure by a in situ investigation and sample test , at the same time evaluated the safety of structure , and made a suggestion for settlement .

  4. AZ31镁合金板热拉深成形工艺研究

    Research on the Thermal Deep-Drawing Process of ( AZ31 ) Magnesium Alloy Sheets

  5. 在材料模型的基础上,利用DEFORM有限元软件对AZ31变形镁合金板温拉深笔记本外壳实验做了模拟。

    In the base of the flow stress model of AZ31 , finite element analysis software DEFORM was used to research the drawing of the notebook PC case with magnesium alloy AZ31 sheet .

  6. 本课题是郑州大学与美国通用汽车公司合作的美国通用联合基金项目JoiningofDissimilarMaterialswithCrash-ToughenedAdhesives的一部分,其目的是探索镁合金板料在汽车工业中应用的可能性。

    This paper is a part of GM Joint Funding Project " Joining of Dissimilar Materials with Crash-Toughened Adhesives " carried out by Zhengzhou University and General Motors Corporation , which aims to explore the possibility of applying magnesium alloy in the automobile industry .

  7. 对ME20M镁合金板料进行了热拉深成形性能实验与数值模拟。

    The experiment and numerical simulation of hot deep drawing forming properties of ME20M magnesium alloy sheet are researched in this paper .

  8. 试验结果表明,对厚为3mm的MB2镁合金板,当焊接速度为95mm/min和搅拌头旋转速度为1600r/min时,可以获得良好的焊接质量。

    The basic characteristics , the micro structures and the mechanical properties of the weld joint were discussed . The results showed that good weld quality may be obtain when weld speed is 95mm / min and rotating rate of welding pin is 1 600 r / min.

  9. 镁合金板料温冲压成形数值模拟技术

    Numerical Simulation Technology of the Warm Pressing of Magnesium Alloy Sheet

  10. 镁合金板料成形数值模拟参数化设计及实现

    Parametric Design and Achieve for Magnesium Alloy Sheet Forming Numerical Simulation

  11. 变形镁合金板料冲压成形性能的实验研究不同压头形状下板料渐进成形性能研究

    An Experimental Study of Stamping Formability of Wrought Magnesium Alloy Sheet

  12. 镁合金板件温热成形技术的几个新进展

    Several New Progresses in Warm Forming Processes of Magnesium Alloy Sheet Parts

  13. 半固态镁合金板带铸轧数值模拟

    Simulation on Roll - casting of Semi - solid Magnesium Alloy Strip

  14. 镁合金板料拉深技术现状

    Status of Study on Magnesium Alloy Sheet Deep Drawing Technique

  15. 湖北剧院铝锰镁合金板斜屋面施工

    Construction of Al-Mn-Mg alloy board pitched roofing of Hubei Theater

  16. 半固态镁合金板带连续铸轧机的速度控制

    Velocity Control in Thin Slad Continuous Casting Machine of Semi-solid Magnesium Alloy

  17. 概述了镁合金板带轧制的新进展。

    It also summarizes the new progress in magnesium plate and strip rolling .

  18. 镁合金板料成形性能及计算机模拟研究

    Research on Magnesium Alloy Sheet Formability and Computer Simulation

  19. 双辊铸轧对热轧Mg-5.45%Al-1.36%Si镁合金板组织和性能的影响

    Effect of Twin Roll-casting on Microstructure and Performance of Hot Rolling Mg-5.45 % Al-1.36 % Si Magnesium Alloy Plate

  20. 结果表明,铸造镁合金板残余应力和塑性应变在温度相同时,随着冲击速率的增大而增加;

    Results indicate that at the specific temperature condition the residual stress and plastic strain increases with impact velocity increases .

  21. 这里详述了镁合金板带的双辊铸轧技术进展情况,概述了镁合金板带的其他生产工艺。

    The new progress in magnesium strip roll casting is dwelled on , other magnesium plate and strip producing technologies are summarized in this part .

  22. 利用自行研制的摩擦测试装置进行了镁合金板温成形过程模具圆角部位摩擦测试试验。

    The tribotest experiments were carried out for testing the coefficient of friction in die corners during the warm forming process of magnesium alloy sheets .

  23. 本新工艺采用耐热固体颗粒代替刚性凸模(或弹性体、液体)的作用对镁合金板料进行热拉深成形。

    This new process using the effect of the heat-resistant solid granules medium to replace rigid punch ( for example : elastic body or liquid ) to forming the magnesium alloys sheets .

  24. 对于镁合金板料,其塑性成形通常都是在一定温度条件下(大约150-300℃)进行的,并且工件内部受力主要为拉应力,成形方式与体积成形不同。

    For the magnesium alloy sheet , forming usually carried out in certain temperature conditions ( approximately150to300 ℃) and the stress of workpiece is mainly tensile stress . This is different with bulk forming .

  25. 氯氧镁水泥装饰板的生产技术与质量控制

    Production Technique and Quality Control on Magnesium Oxychloride Cement Adornment Board

  26. 适用于镁橄榄石绝热板的保护渣

    Protecting slag applicable to MG-OLIVING insulating plate

  27. 并对镁合金蜂窝板的应用前景进行了初步讨论。

    The future application respects of magnesium alloy honeycomb panels is discussed in the thesis .

  28. 制备镁合金蜂窝板。

    Assembling magnesium honeycomb panels .

  29. 通过试验证明了氯氧镁复合水泥板具有良好的保温性与耐水性。

    The experiment proves that compound floor slab of magnesium oxychloride cement features for good heat preservation and water resistance .

  30. 当撞击速度达到超高速撞击时,弹坑体积是镁合金靶板的主要侵彻方式,与碰撞副的类型无关。

    When the impact velocity was speeded up to the hypervelocity impact , the crater volume was the main penetration behaviors in Mg alloy target impacted by various projectiles .