1) cast aluminum
铸铝
1.
Corrosion inhibition behavior about organic carboxylic acid on cast aluminum in neutral corrosion medium;
有机羧酸在中性腐蚀介质中对铸铝的缓蚀性能研究
2.
The galvanic corrosion behavior of cast aluminum-cast iron were studied by means of weight loss,galvanic corrosion and measurement of released gas.
研究了中性冷却水介质中,铸铝-铸铁偶接状态下各自的腐蚀特点。
3.
A series of inhibitors were made from different organic carboxylic acids as monoacid and binary acid to prevent the corrosion of cast aluminum in neutral cooling water.
为了提高中性冷却水系统中铸铝的耐腐蚀性能,通过极化电阻、稳态极化曲线和交流阻抗等电化学方法研究了不同比例一元、二元有机羧酸混合溶液对铸铝的缓蚀性能。
2) Cast aluminium
铸铝
1.
Factors that effect cast aluminium positive pole oxidizing colouring;
影响铸铝阳极氧化染色的因素
2.
Thick alkaline copper coating with a special nickel transition-layer was prepared on cast aluminium alloys substrate of a axis sheath on the gear-box of a heavy load tracked vehicle by electro-brush plating.
通过刷镀特殊镍过渡层的方法,在铸铝基体上成功刷镀了较厚的碱性铜镀层,并对镀层的基本性能及摩擦学性能进行了测试和分析。
3.
On the basis of the fabrication for Ni-P-diamond composite electroless plating coat on the surface of cast aluminium.
通过在铸铝表面制备Ni-P-金刚石化学复合镀层,研究了镀液中硫酸高铈含量对镀层复合量、硬度及镀液稳定性的影响,测定了复合镀液中硫酸高铈添加前后制备的Ni-P-金刚石复合镀层的耐蚀性及耐磨性,并与Ni-P镀层进行比较。
4) casting aluminum
铸铝
1.
The process conditions of preparation for black molybdate conversion film on casting aluminum surface were introduced: 3 g/L ammonium molybdate,3 g/L cobalt sulphate,1~2 g/L ammonium bifluoride,pH 4~5,θ 55 ℃,t 20 min.
介绍了在铸铝表面制备黑色钼酸盐转化膜的工艺条件:3 g/L钼酸铵,3 g/L硫酸钴,1~2 g/L氟化氢铵,pH 4~5,温度55℃,时间20 m in。
2.
Based on the cutting experiment,the changing rule of the cutting force in the high-speed milling of casting aluminum ZL101 by the end mill with three edges is discussed.
通过切削实验,研究了用三齿立铣刀高速铣削ZL101铸铝时切削力的变化规律。
5) die-cast aluminum
压铸铝
1.
Technics for improving die-cast aluminum case electroless nickel coating quality;
提高压铸铝外壳化学镀镍层质量工艺
6) aluminium continuous cast rolling process
铝铸轧
1.
2C grain refiner was applied in two aluminum fabrication industries such as the aluminum alloy wheel hub and the aluminium continuous cast rolling process.
2C晶粒细化剂在铝合金轮毂和铝铸轧两大铝加工行业进行工业应用试验,效果非常明显,是替代铝钛硼晶粒细化剂的理想产品,具有很好的发展前景。
补充资料:高强度铸造铝合金
分子式:
CAS号:
性质:用于制造承受较大载荷的航空、航天及其他机械构件的铸造铝合金。大致可分为两种类型:一类是以Al-5Cu为基的固溶体型合金(Al-Cu-Mn-Ti,Al-Cu-Mn-Cd,Al-Cu-Mg-Ag),具有高的强度、塑性和韧性,室温拉伸强度可达440~500MPa,但其抗腐蚀性能和铸造工艺性能较差;另一类是以Al-7Si为基的亚共晶型合金(Al-Si-Mg,Al-Si-Cu-Mg),兼有较高的强度(σb280-320MPa)和良好的铸造工艺性能。高强度铸造铝合金需严格控制杂质含量,控制熔铸及热处理工艺,能生产高强度优质铸件、部分锻件,降低材料消耗,节省加工工时,并改善产品性能。
CAS号:
性质:用于制造承受较大载荷的航空、航天及其他机械构件的铸造铝合金。大致可分为两种类型:一类是以Al-5Cu为基的固溶体型合金(Al-Cu-Mn-Ti,Al-Cu-Mn-Cd,Al-Cu-Mg-Ag),具有高的强度、塑性和韧性,室温拉伸强度可达440~500MPa,但其抗腐蚀性能和铸造工艺性能较差;另一类是以Al-7Si为基的亚共晶型合金(Al-Si-Mg,Al-Si-Cu-Mg),兼有较高的强度(σb280-320MPa)和良好的铸造工艺性能。高强度铸造铝合金需严格控制杂质含量,控制熔铸及热处理工艺,能生产高强度优质铸件、部分锻件,降低材料消耗,节省加工工时,并改善产品性能。
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