| 1. | The reaction between molten aluminum and silica glass 石英玻璃与铝液的反应 |
| 2. | A study on iron - based alloy aluminum liquid corrosion mechani sm 铁基合金铝液腐蚀机理的研究 |
| 3. | Experimental investigation to molten aluminium infiltration in porous aluminium preparation 泡沫铝制备过程中铝液渗流的模拟试验研究 |
| 4. | Study of interface eroding between liquid aluminum and tib2 bn evaporator during plating aluminum by evaporation 蒸发镀铝过程中铝液对蒸发舟表面腐蚀的研究 |
| 5. | In addition , some advice was given on soluting the axygenated burning loss of liquid aluminium surface and the erosion of crucible 此外,对解决铝液表面氧化烧损和坩埚内壁腐蚀问题提出了参考意见。 |
| 6. | Pressure relief hydrogen tester is used to test [ h ] content in aluminum liquid by vacuumizing to relieve pressure and blow up bubble , which can be mainly finished within 5 minutes 减压测氢仪通过抽真空减压放大气泡的方法来测量铝水含氢量, 5分钟即可大致测铝液中含氢值。 |
| 7. | Especially aiming at the asymmetric structure of the cast , the allocation of aluminous liquid during the filling process was presented and the concept of structure mass fraction was inducted 针对铸件的不对称结构提出了充型过程中铝液的分配问题,引入结构质量分数的概念。 |
| 8. | Comparing the micro - structure and properties of sicp / al composites and sicp / al - si composites , we know that the addition of 11 - 13 % si can counteract the fragile al4cs phase obviously 脆性相的量,增加铝液的流动性,提高h颗粒与基体之间的浸润性,对sicp八复合材料的性能有明显的改善作用。 |
| 9. | Abstract : iron - based alloy aluminum liquid maceration experiment is done . transmission ele ctron microscope ( tem ) and energy dispersive spectrometer ( eds ) are employed to in vestigate the characteristics of microstructure and the distrbution of compone nts . based on fe - al alloy phase diagram and the experiment results , a model is propo sed for iron - based alloy aluminum erosion 文摘:进行了铁基合金铝液浸蚀实验,利用透射电镜和能谱仪对腐蚀试样进行微观组织观察和成分分析,结合铁铝相图和实验结果.论述了铁基合金铝液腐蚀过程 |
| 10. | The results show that the heat preservation coating and its proper thickness are favorable to the enhancement of filling mold speed of aluminium alloy ; the higher the pouring temperature is and the larger the ratio of hollow areas of vertical pouring is , the faster the speed of filling mold of aluminium alloy is ; if the mold is too thick or too thin , it may decrease the speed of filling mold ; the proper length and the area of vertical pouring are favorable to the enhancement of the speed of filling mold ; although negatire - pressure may improve filling the speed , too high negatire - pressure may enlarge the flaw in casting 结果表明:保温涂料及一定的涂层厚度有利于提高铝液的充型速度;浇注温度越高、直浇道空心面积率越大,铝液充型速度越快;模样厚度太厚或太薄,均会使铝液充型速度降低;一定的直浇道长度及直浇道面积有利于提高铝液的充型速度;施加负压会使铝液的充型速度大大提高,但负压过大会增大铸造缺陷。 |