添加Ce与P+Sr复合变质对高硅耐热铝合金组织与性能的影响

研究了添加Ce与P+Sr复合变质对Al-21Si-1．5Cu-0．5Mg-2．5Fe合金显微组织与性能的影响。结果表明:添加1．5％Ce使粗大针状铁相消失,形成富Ce富Fe的鱼骨状相;P+Sr复合变质可使初晶硅平均尺寸由70 mm细化到20mm,共晶硅平均截线长降到2．1 mm,合金室温抗拉强度比未变质前提高21．5％,与P+Sr+Ce复合变质的Al-21Si-1．5 Cu-1．5Ni-2．5Fe-0．5Mg合金相当。     

微量钪对Al-2．5Cu-1．5Mg合金时效特性与微观组织的影响

研究了微量钪对Al-2．5Cu-1．5Mg合金微观组织与时效特性的影响。结果表明，微量钪的添加增强了Al-2．5Cu-1．5Mg合金的时效硬化效果，但并未改变该合金时效硬化的总体规律。透射电镜分析发现GPB在合金时效硬化第二阶段初期才开始析出，并且是该合金第二阶段硬化的主要原因，微量钪的添加促进了Al-2．5Cu-1．5Mg合金中GPB的弥散细小析出。     

均匀化处理对Al-Cu-Mg合金组织和性能的影响

利用光学显微镜、扫描电镜、能谱分析、差热分析、硬度测试和拉伸测试等方法研究了均匀化处理对Al-4.5Cu-0.8Mg合金的组织和性能的影响。结果表明:Al-4.5Cu-0.8Mg铸态组织中存在较严重的枝晶偏析现象,晶界及晶界交汇处有大量Al2Cu相及Al2Cu和Al2CuMg的共晶相,合金经480℃×12 h均匀化处理后,组织中的非平衡相已基本溶解,综合力学性能较好,抗拉强度为320 MPa,屈服强度为246 MPa,伸长率为10.2%,硬度为139.2 HV。     

Regulative effect of Mg/Si ratio on microstructure evolution and mechanical properties of cast Al-Li-Mg-Si alloys

The effect of the Mg/Si ratio of Al-2.5Li-1Cu-0.8Mg-0.8Si,Al-2.5Li-1Cu-1.6Mg-0.8Si,and Al-2.5Li-1Cu-2.4Mg-0.8Si alloys on the microstructure evolution and mechanical properties was investigated.The results show that the primary phases and their morphologies in the as-cast alloys are found to vary with the Mg/Si ratio.The improvement of Mg/Si ratio of as-cast alloys promotes the formation of Mg₂Si primary phase at the expense of the AlLiSi primary phase.Moreover,a tiny amount of T_B-Al_7.5Cu₄Li phase transforms into S-Al₂CuMg phase with the increase of Mg content.In addition,the increase of Mg/Si ratio also causes the Cu-rich intergranular phase distributed along crystal boundary to Si-rich intergranular phase.After ageing treatment,the precipitation sequence as a function of Mg/Si ratio is as follows:δ/δ'+AlLiSi(Mg/Si is~1)→δ/δ'+β'-Mg₂Si+AlLiSi(Mg/Si is~2)→δ/δ'+β'-Mg₂Si(Mg/Si is~3).A good combination of strength and ductility can be obtained in Al-2.5Li-1Cu-2.4Mg-0.8Si alloy after solution and ageing.The rod-likeβ'-Mg₂Si precipitate has a positive influence on the comprehensive mechanical properties of the alloy.     

Y对Mg-3Al-1Zn镁合金铸态组织的影响

研究Y对Mg-3Al-1Zn镁合金铸态组织的影响。结果表明,在Mg-3Al-1Zn合金中加入w(Y)=0.3%和w(Y)=0.6%对合金组织中合金相种类没有影响,但当w(Y)=0.9%时有Al3Y相存在。同时,加入微量Y使合金组织中Mg17Al12相基本上转变为断续状和颗粒状分布,且其分布具有一定方向性,同时其数量也逐渐减少。此外,研究结果还发现微量Y对Mg-3Al-1Zn合金的组织有一定的细化作用。     

Effect of Magnesium on Microstructure Refinements and Properties Enhancements in High-Strength CuNiSi Alloys

Microalloying is an effective method to improve the comprehensive properties of copper alloys.The effects of magnesium on the microstructure,mechanical properties and anti-stress relaxation properties of CuNiSi alloys have been investigated.Results demonstrated that magnesium plays significant roles in refining the dendritic microstructure of the as-cast ingot,accelerating the precipitation decomposition,improving the mechanical properties and increasing the anti-stress relaxation properties.The incremental strength increase is due to the Orowan strengthening from the nanoscale Ni_2 Si and Ni_3 Al precipitates.As compared with the Cu-6.0 Ni-1.0 Si-0.5 Al(wt%) alloy,the ultimate tensile strength of the designed Cu-6.0 Ni-1.0 Si-0.5 Al-0.15 Mg(wt%) alloy increases from 983.9 to 1095.7 MPa,and the electrical conductivity decreases from 27.1 to 26.6% IACS,respectively.The stress relaxation rates of the designed Cu-6.0 Ni-1.0 Si-0.5 Al-0.15 Mg alloy are 4.05%at 25℃,6.62% at 100℃and 9.74% at 200℃after having been loaded for 100 h,respectively.Magnesium significantly promotes nucleation during precipitation and maintains small precipitate size.     

Al-Cu-Ce合金的微观组织与力学性能

采用X射线衍射、金相显微镜、扫描电镜、能谱分析及拉伸性能测试等方法,研究3种成分Al-Cu-Ce合金的显微组织与力学性能。结果表明:铸态Al-14Cu-7Ce合金由α-Al+Al8CeCu4片状共晶组成,而Al-10Cu-5Ce、Al-18Cu-9Ce合金中除含有α-Al+Al8CeCu4共晶组织外,还分别含有α-Al和Al8CeCu4初生相。铸态Al-14Cu-7Ce合金具有优良耐热性能,即使550℃×3 h退火后仍能保持约360 MPa的抗拉强度,退火导致合金强度下降的主要原因是高温下共晶Al8CeCu4相的球化。经充分球化退火后,Al-Cu-Ce合金能获得良好的热轧、冷轧变形能力,并且变形态合金也具有良好的耐热性能,因而Al-Cu-Ce合金有望成为一种兼具铸造和变形两用的新型耐热铝合金。     

氧化硅气凝胶对Al-4Cu-0.1Sn合金组织与性能的影响

采用铸造、冷轧和T6热处理制备了SiO₂气凝胶(SA)增强铝基复合材料。研究了SA含量对Al-4Cu-0.1Sn合金显微组织(铸态与冷轧T6态)与力学性能的影响。结果表明,SA能有效地加入到Al-4Cu-0.1Sn合金中,并以球状形式均匀的分布在晶粒内部。铸态下,随着SA含量的增加,合金的显微硬度呈上升趋势。当SA含量为0.02%时,合金平均硬度(HV)达到最高85,相对于未添加SA的合金提升了49%,但铸态下添加SA的合金拉伸性能略微下降;冷轧T6态下,当SA含量为0.02%时,合金硬度(HV)为138。随着SA增加,合金的屈服强度与抗拉强度先升高后降低,当SA含量为0.04%时,合金屈服强度达到320 MPa,抗拉强度达到401MPa,相比于未添加SA的合金提升了10.3%和10.7%。添加SA能够提高铸态Al-4Cu-0.1Sn合金硬度的机理是其细化了铸态合金的晶粒,并使晶界处第二相由粗大的骨骼状变成细小的非连续状。添加SA提高冷轧T6态强度的机理是细化了Al₂Cu相并消除了Al₇Cu₂Fe相。     

锆元素对Mg_(97)Y_2Zn_1镁合金微观组织和力学性能的影响(英文)

研究锆元素对Mg97Y2Zn1镁合金微观组织和力学性能的影响。锆元素的添加可以细化铸态Mg97Y2Zn1合金的组织。在挤压过程中,Mg97Y2Zn1镁合金在原始晶界和第二相周围优先形核。锆元素的添加促进合金的再结晶过程,这是因为锆元素的添加使合金形成更多的晶界,从而提高了再结晶的形核率。此外,锆元素的添加还能够提高合金的强度和伸长率等力学性能。     

Effect of Scandium on Microstructure and Mechanical Properties of Cast Al-Si-Mg Alloy

Microstructural modification and grain refinement due to addition of scandium in Al-6Si-0.3Mg alloy has been studied in this article. It is seen from the microstructure that the dendrites of the cast Al-6Si-0.3Mg alloy have been refined significantly because of addition of scandium. Increasing amount of scandium leads to a greater dendrite refinement. The age hardening effect has been studied by subjecting the alloys containing varying amounts of scandium ranging from 0.2 to 0.6?wt.% to isochronal and isothermal aging at various temperatures for different times. It is observed that addition of scandium is the most effective in suppressing the softening effect during prolonged aging treatment.     

Al-4.5Cu-3.5Zn-0.5Mg铸造铝合金的均匀化工艺及组织演变

对Al-4.5Cu-3.5Zn-0.5Mg铸态合金进行不同双级均匀化处理,采用扫描电镜、电子探针显微分析仪、差示扫描量热仪和光学显微镜等,研究了该合金的铸态组织及其在均匀化过程中的组织演变。结果表明:铸态组织主要由α-Al、粗大Al₂Cu相以及少量AlZnMgCu、Al₇Cu₂Fe相组成,合金元素枝晶偏析严重。经470 ℃×12 h均匀化处理后,AlZnMgCu相已基本回溶至基体;第二级均匀化温度由490 ℃逐渐升高到520 ℃或者延长保温时间,Al₂Cu相逐渐回溶至基体,合金元素分布趋于均匀。合金过烧温度为520 ℃,最佳双级均匀化制度为470 ℃×12 h+510 ℃×32 h,该制度与均匀化动力学计算结果基本一致。     

复合添加Sc、Zr、Ti对Al-Mg合金组织与性能的影响

采用布氏硬度计、金相显微镜、扫描电镜(SEM)和透射电镜(TEM)研究了微量Sc、Zr、Ti以及Mg含量对Al-Mg合金的显微组织与布氏硬度的影响。结果表明,单独添加Sc、Zr元素的合金与未添加的Al-Mg合金的铸态组织相比,合金的晶粒组织得到了一定的细化,复合添加Sc、Zr、Ti3种元素的合金铸态组织的晶粒细化程度更为明显。同时在Sc、Zr、Ti相同含量下,Mg元素的增加也能进一步细化合金的晶粒组织,这是由于Mg元素固溶强化的结果,使得合金的布氏硬度提高。对Al-10Mg-Sc-Zr-Ti合金进行均匀化退火处理后,合金的硬度较铸态组织提高了10%,这是Al3(Sc1-xZrx)、Al3(Sc1-xTix)及Al3(Sc1-x-yZrxTiy)大量沉淀相二次析出,弥散度增大、分布更加均匀的结果。     

Zr对电磁连续铸造Al-4.0Cu-1.4Mg-0.5Mn 合金铸态组织与力学性能的影响

采用金相、硬度测量、拉伸试验、扫描电镜,XRD等测试手段,研究了Zr对电磁连续铸造Al-4.0Cu-1.4Mg-0.5Mn系高强铝合金铸态下显微组织和力学性能的影响。结果表明,添加微量Zr可明显细化合金铸态组织,且可显著提高合金力学性能,其作用机理主要为Al3Zr造成的细晶强化和弥散强化作用;含Zr的合金在室温下比不含Zr的合金宏观硬度提高3.91%,抗拉强度提高3.90%,屈服强度提高4.82%,伸长率提高48.66%;合金的断裂方式均属韧性断裂,但韧窝分布不均匀,在韧窝中心及边缘处都有第二相。     

铸态Mg-4Al-4Si合金的显微组织与力学性能

摘 要:采用重力铸造法制备Mg-4A1-4Si(AS44)镁合金,研究铸态合金的显微组织和室温力学性能.结果表明,铸态AS44合金主要由α-Mg基体、β-Mg17Al12相及Mg2Si相组成;Mg2Si粗大的呈树枝状、块状和汉字状3种形态;铸态合金的硬度为66.5 HV3,室温抗拉强度为108.8 MPa,屈服强度为72.3 MPa,伸长率为2.6％;拉伸断裂形式为准解理脆性断裂.     

镁与热处理对Al-4Si-(xMg)合金导电性及力学性能的影响

利用SEM、XRD、EDS、硬度计及电阻率测试仪等方法分析Mg元素和不同热处理对Al-4Si-(xMg)(x=0~1.5%,质量分数)系列合金导电率及硬度的影响。结果表明:随Mg添加量增加,铸态合金的导电率和硬度先增后减,最佳添加量为1.1%。Mg使铸态合金硬度显著增加,但恶化了其导电率。Al-4Si-(xMg) 合金经不同热处理后,合金导电率大幅提高,硬度略有降低。其中,固溶时效对合金导电率的提高最显著,硬度降低幅度最小,使Al-4Si-1.1Mg合金导电率和硬度匹配关系最好。通过Mg元素和固溶时效的协同作用,可使铸态Al-4Si合金导电率由43.3%IACS提高至50.9%IACS,硬度由41.5 HV0.5增加至84.3 HV0.5。     

Sb对Mg-5Sn-2Al-1.5Zn-0.8Si合金组织和性能的影响

在熔炼时以单质形式加入Sb元素,研究了不同含量的Sb对Mg-5Sn-2Al-1.5Zn-0.8Si合金显微组织和力学性能的影响。结果表明,Sb能与Mg基体结合生成Mg3Sb2相。加入0.9%(质量分数)的Sb对Mg2Si相的汉字状结构具有强烈变质作用,Mg2Si中的Si能与Sn发生取代作用,生成Mg2(Si,Sn)复合相,该相的物理性能介于Mg2Si与Mg2Sn之间。随着Sb含量的增加,铸态合金和挤压态合金的延伸率逐渐减小,而抗拉强度呈现先增加后降低的趋势。挤压态合金的强度和塑性明显优于铸态合金,并且Sb含量的增加有利于改善Mg-5Sn-2Al-1.5Zn-0.8Si合金的耐热性能。     

Effects of minor Y,Zr and Er addition on microstructure and properties of Al-5Cu-0.4Mn alloy

The effect of different contents of Y, Zr and Er on microstructure and properties of Al-5 Cu-0.4 Mn alloy was investigated. T6 heat treatment, OM, SEM and EDS methods were applied to the alloy. The results showed that fluidity and elongation of alloy adding Y, Zr and Er were improved, while with the increase of addition amounts, θ phase increased and grains were trended to grow up gradually. The Al-5 Cu-0.4 Mn alloy presented the maxed style of ductile and brittle fracture. After T6 heat treatment, the precipitation amounts of θ phase decreased dramatically and tensile strength and hardness significantly increased. Especially when addition contents were among 0.1-0.3 wt.%, tensile strength and hardness of heat-treated alloy increased greatly, almost doubled as that of the as-cast state. The tensile strength reached its maximum of 378.43 MPa when the addition amount was 0.3 wt.%. With the further increase of addition amounts, the elongation deteriorated and the proportion of ductile fracture reduced due to the limited dispersion strengthening effect of θ phase and Al_8Cu_4 Er. It demonstrated that addition of 0.1-0.3 wt.% Y, Zr and Er would generate positive effects and influences on Al-5 Cu-0.4 Mn alloy, which is significant for optimizing components and improving properties of Al-5 Cu-0.4 Mn alloy.     

热处理对不同冷速Al合金共晶相形貌及含量的影响

选取成分为Al-5.17Cu-2.63Si(合金A)、Al-4.29Cu-1.09Mg(合金B)和Al-2.09Si-1.66Mg(合金C)三元铝合金,分别进行不同冷速下的凝固实验。对比研究不同凝固速率下得到的共晶相形貌与含量在接近各合金体系三元共晶温度下热处理前后的变化行为。结果表明:同一合金冷速越慢,得到的原始组织二次枝晶间距越大,合金A的石墨型、砂型、保温型冷却组织的二次枝晶间距分别为24.17、63.32和99.88μm,合金B的二次枝晶间距分别为24.35、82.78和139.42μm。均匀化热处理的热扩散过程可以明显地溶解非平衡共晶相,由于原始组织的尺度不同,共晶相所处的溶解阶段与溶解程度不同。合金A的石墨型、砂型、保温型组织热处理后与热处理前的共晶相含量比值分别为0.44、0.49和0.68,合金B的共晶相含量比值分别为0.084、0.30和0.38。     

Cu-0.35Zr合金热处理后的显微组织研究

用光学显微镜(OM)、X射线衍射仪(XRD)和电子探针(EPMA)研究了在大气环境下采用普通中频感应炉制备的Cu-0.35Zr合金的显微组织.结果表明,铸态合金中的Zr以Cu3Zr形式存在;固溶时效处理后合金中的Zr元素以Cu5Zr及Cu51Zr14等形式析出,并弥散分布于铜基体上.     

均匀化热处理对易切削Zn-10Al-1.0Cu-0.1Bi-0.1Sn变形合金组织与性能的影响

对自行研制的易切削Zn-10Al-1.0Cu-0.1Bi-0.1Sn变形合金铸态样品进行均匀化热处理,并采用力学性能测试、扫描电镜分析、钻削试验等手段,研究了热处理对该合金显微组织与力学性能和切削性能的影响。结果表明,试验合金铸态组织中存在较严重的枝晶偏析及非平衡共晶组织,经均匀化退火后,枝晶偏析和非平衡β+η共晶组织基本消除,组织分布更加均匀;其中经360℃保温12 h炉冷热处理后合金的抗拉强度降低,伸长率升高53.94%,塑性明显提高,有利于后续的热塑性加工;均匀化热处理对合金的切削性能影响不大。