1) Al-Li Alloy
铝-锂合金
1.
Study on Analysis of Li-Element in Al-Li Alloy by Photoelectric Spectrometry;
光电法分析铝-锂合金中锂元素的研究
2.
The dynamic shearing strength of Al-Li alloy under different strain rate was determined useing split-Hopkinson torsional bar (SHTB) facility with tubular specimens and the frac-tographyic observations were carried out with SEM.
利用霍普金森扭杆(Torsional Split-Hopkinson Bar)技术对三种不同成份或状态的铝-锂合金材料的动态应力-应变-应变率关系进行了实验测定。
2) aluminum-lithium alloy
铝锂合金
1.
Thermomechanical treatment of high strength Al-Cu-Li-X aluminum-lithium alloy;
高强Al-Cu-Li-X铝锂合金形变热处理
2.
Effects of aging treatment on microstructure and properties of 2A97 aluminum-lithium alloy;
时效制度对2A97铝锂合金组织和性能的影响
3.
Mechanical properties of 1420 aluminum-lithium alloy friction stir welding
1420铝锂合金搅拌摩擦焊接力学性能
3) Al-Li alloys
铝锂合金
1.
1 at%) of certain elements to Al-Li alloys can cause marked changes to the microstructure and properties of these alloys.
铝锂合金中添加某些微量或痕量(~0。
2.
The anisotropy in mechanical properties is impeding practical engineering applications of Al-Li alloys.
针对当前困扰铝锂合金实际应用的各向异性问题,概述关于铝锂合金中各向异性的表现规律、产生机理及对于降低各向异性所采用的方法等方面的研究现状和进展,对铝锂合金各向异性表现与微观组织结构的关系以及目前克服各向异性所采用方法的局限性进行分析。
4) Al-Li alloy
铝锂合金
1.
Porosity prevention of 1420 Al-Li alloy for laser welding;
1420铝锂合金激光焊接气孔抑制技术
2.
Study on fatigue capability of joint 1420 Al-Li alloy with laser welding;
1420铝锂合金激光焊接接头疲劳性能分析
3.
Study on tensile property of 1420 Al-Li alloy laser welding joint;
1420铝锂合金激光焊接接头拉伸性能分析
5) aluminium-lithium alloy
铝锂合金
1.
The effects of scandium on the recrystallization of aluminium-lithium alloy are investigated by measuring the vickers hardness of the testing alloys and by observing their microstructures.
通过硬度测量和微观金相观察,研究了钪对铝锂合金再结晶过程的影响。
2.
The measuring of characterizing the T1 phase in an aluminium-lithium alloy is established by analyzing the relationship between electron diffraction patterns and micrographs of T1 phase in aluminium-lithium alloy.
通过对铝锂合金T1相电子衍射谱与形貌像之间关系的分析,建立了定量测定T1相尺寸的方法。
6) Al Li alloy
铝锂合金
1.
The variation laws of microstructure and strength of 1420 Al Li alloy ingot during the heating were studied.
研究了 14 2 0铝锂合金铸锭在加热过程中组织和强度的变化规律。
2.
By the means of tensile testing and fractography observation, the level and behavior of anisotropy of mechanical properties in 1420 Al Li alloy rolled sheet was investigated.
以 14 2 0铝锂合金为研究对象 ,通过拉伸力学性能测试和拉伸断口形貌观察比较全面地研究了板材力学性能的各向异性水平及其表现规律 ,并探讨了各向异性在时效过程中的演化及产生各向异性的主要因素。
3.
The influence of cerium on depletion layer of the surface of Al Li alloys and the influence of the depletion layer on the corrosion morphology of the alloys were studied.
研究了稀土元素铈对铝锂合金表面贫化层的影响以及表面贫化层对合金腐蚀形态的影响。
补充资料:铝锂合金
分子式:
CAS号:
性质:以锂作为主要合金元素的新型铝合金。最突出的优点是密度小,弹性模量高。锂的含量范围在1.1%~2.8%。工业生产的铝锂合金主要是Al-Li-Mg-Zr系列。铝锂合金具有高的屈服强度和良好的高温和低温性能。其室温力学性能与一般高强度铝合金相当,而高温和低温性能优于一般高强度铝合金。铝锂合金的熔炼和铸造工艺困难,现已能用半连续铸造方法生产出质量良好的铸锭和各种半成品材料,但铸造铝锂合金尚处于起步阶段。
CAS号:
性质:以锂作为主要合金元素的新型铝合金。最突出的优点是密度小,弹性模量高。锂的含量范围在1.1%~2.8%。工业生产的铝锂合金主要是Al-Li-Mg-Zr系列。铝锂合金具有高的屈服强度和良好的高温和低温性能。其室温力学性能与一般高强度铝合金相当,而高温和低温性能优于一般高强度铝合金。铝锂合金的熔炼和铸造工艺困难,现已能用半连续铸造方法生产出质量良好的铸锭和各种半成品材料,但铸造铝锂合金尚处于起步阶段。
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