1) casting alloy crown
铸造合金冠
2) Cast Alloy
铸造合金
1.
On the basis of orthogonal experiment, the effect of Mg content and heat treatment on mechanical properties of near eutectic Al Si cast alloys modified with Sr has been investigated.
以正交试验为基础 ,通过调整Mg含量和热处理工艺 ,分析它们对Sr变质近共晶Al Si铸造合金力学性能的影响。
2.
The effect of carbon content on element segregation and corrosion resistance of the cast alloy Fe 30Ni 20Cr 6Mo has been investigated.
研究了Fe-30Ni-20Cr-6Mo铸造合金中微量元素C对合金元素偏析和耐蚀性的影响。
3.
Effect of microstructure and element distribution of an iron base cast alloy Cr30Nil7Mo2Cu solidified at different rates upon the erosion-corrosion behaviour in flowing suspension of solid particles in strong acidic medium has been investigated by metallograph, XRD, EPMA and hardness tests.
用扫描电镜、X射线衍射、电子探针等手段测定及分析了Fe基铸造合金Cr30Ni17Mo2Cu以不同速度凝固后的显微组织和主要合金元素分布,在含固相颗粒的强酸性双相流介质中测定了冲刷腐蚀性能。
4) casting alloy
铸造合金
1.
A new type of multi-function system for testing linear shrinkage, stress and hot cracking of casting alloy is introduced in the paper.
介绍一种新型铸造合金线收缩-应力-热裂特性综合测试系统。
2.
Transformation of the microstructure and the hardness of Gx180CrWV-20 casting alloys during different heat treatments were studied and analyzed.
研究了Gx180CrWV 20铸造合金在不同热处理条件下组织结构和硬度的变化以及热处理温度和磨损试验温度对其高温磨损性能的影响。
3.
To test solidification characteristics of various casting alloy accurately is very significant for optimizing casting technique and getting castings with sound property and appropriate dimensions.
精确测定不同铸造合金的凝固特性对于优化铸造工艺、获得满足性能和尺寸要求的铸件具有十分重要的意义。
5) Casting metal full crown
铸造金属全冠
1.
Useing the casting metal full crown treat the forward impacted mandibular third molars
铸造金属全冠修复成人下颌近中阻生智齿
2.
Influence of three categories of casting metal full crowns on apoptosis of lymphocytes in peripheral venous blood
3种铸造金属全冠戴用后对外周静脉血淋巴细胞凋亡的影响
6) Casting metal inner-crown
铸造金属内层冠
补充资料:铸造合金
分子式:
CAS号:
性质:合金化程度较高,不易变形而采用精密铸造成型的合金,属于高温合金中高温强度最高的一种。按基本元素分类有镍基的、钴基的和铁基的。铸造高温合金主要用作燃气涡轮机的涡轮叶片。
CAS号:
性质:合金化程度较高,不易变形而采用精密铸造成型的合金,属于高温合金中高温强度最高的一种。按基本元素分类有镍基的、钴基的和铁基的。铸造高温合金主要用作燃气涡轮机的涡轮叶片。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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