1) Al-Ti-C-Y master alloy
Al-Ti-C-Y中间合金
1.
Al-Ti-C-Y master alloy was prepared by SHS technique and melting-casting method.
采用自蔓延+熔铸法制备了Al-Ti-C-Y中间合金,并利用各种测试方法研究了Al-Ti-C-Y中间合金对AM50合金的显微组织和力学性能的影响。
2) Al-Ti-C master alloys
Al-Ti-C中间合金
1.
This technology offers many advantages to synthesize Al-Ti-C master alloys according to a wide choice in titanium and carbon content and a fast and an energy efficient production.
特别是铝及铝合金的新一代晶粒细化剂Al-Ti-C中间合金的制备中显示出独特的优越性,自蔓延合成方法较好地解决了产物TiC含量低、细化相TiAl_3、TiC分布不均等问题。
2.
This technique offers many advantages to synthesize Al-Ti-C master alloys according to a wide choice in titanium and carbon content and a fast and a energy efficient production.
特别是在新一代铝及铝合金晶粒细化剂Al-Ti-C中间合金的制备中显示出独特的优越性,燃烧合成方法较好地解决了产物TiC含量低、细化相Al_3Ti、TiC分布不均等问题。
3) Al-Ti-C Master alloy
Al-Ti-C中间合金
1.
Effects of Ignition Mode on Microstructure of Al-Ti-C Master Alloy Prepared by SHS;
引燃模式对自蔓延高温合成Al-Ti-C中间合金的影响
2.
Grain refining effect of Al-Ti-C master alloy on Mg-Al alloys;
Al-Ti-C中间合金对Mg-Al合金的晶粒细化作用
3.
Grain refining effect of Al-Ti-C master alloy on industry pure magnesium has been examined by using Al-Ti-C with different Ti/C ratio.
采用不同Ti/C比制备Al-Ti-C中间合金晶粒细化剂,检验其对纯镁的细化效果,并通过光学显微镜(OM)等手段研究了不同相组成的中间合金对纯镁的细化效果的影响。
4) Al-Ti-C-Sr master alloy
Al-Ti-C-Sr中间合金
5) Al-Ti-C-B master alloy
Al-Ti-C-B中间合金
1.
The research focuses on the microstructure and grain refining performance of Al-Ti-C-B master alloy.
对Al-Ti-C-B中间合金的微观组织和细化行为进行了研究。
6) Al-Ti-CN master alloy
Al-Ti-CN中间合金
补充资料:Ti_(3)Al基合金(金属间化合物)涡轮导风板
Ti_(3)Al基合金(金属间化合物)涡轮导风板
TiaA,基合金(金属间化合物)涡、、风*。利;:,
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