Analytic equation of state for solids with multi-exponential potential based on analytic mean field potential approach and applied to the epsilon phase of solid oxygen

The thermodynamic properties of the ε phase of solid oxygen are studied by using the analytic mean field approach （AMFP）. Analytic expressions for the Helmholtz free energy, internal energy and equation of state of solid oxygen have been derived based on the multi-exponential potential. The formulism for the case of double-exponential （DE） model is applied to the ε phase of solid oxygen. Its four potential parameters are determined through fitting the experimental compression data of the ε phase of solid oxygen. Numerical results of the pressure dependence of the volume calculated by using the AMFP are in good agreement with the original experimental data. This suggests that the AMFP is a useful approach to study the thermodynamic properties of the ε phase of solid oxygen. Furthermore, we predict the variation of the volume, lattice parameters and intermolecular distances with pressure, and some thermodynamic quantities versus volume, at several higher temperatures.

ε-Fe_(2)O_(3)/FeO界面结构与相变机理研究

本文利用脉冲激光沉积技术在SrTiO_(3)(111)衬底上生长了ε-Fe_(2)O_(3)薄膜,并应用高分辨X射线衍射(HRXRD)、X射线光电子能谱(XPS)和透射电子显微镜(TEM)对薄膜的显微结构进行了系统表征。XRD和XPS的研究结果表明ε-Fe_(2)O_(3)(001)薄膜在SrTiO_(3)(111)衬底上外延生长,薄膜中Fe离子为+3价。TEM的结果表明,在TEM样品制备过程中,由于高能Ar离子束轰击,ε-Fe_(2)O_(3)/SrTiO_(3)界面上容易发生相变形成FeO。ε-Fe_(2)O_(3)/FeO/SrTiO_(3)的外延关系为ε-Fe_(2)O_(3)(001)[110]//FeO(111)[112]//SrTiO_(3)(111)[112]。基于ε-Fe_(2)O_(3)/FeO界面结构与取向关系,分析了离子束辐照诱导ε-Fe_(2)O_(3)→FeO相变的微观机制。

Phase transformation behavior in Al-Zn-Cu alloys by hammering

The 5Cu40Zn55Al and 15Cu20Zn65Al alloys were prepared in the Al-Zn-Cu system. There exist the metastable phases ε and θ in the two alloys after homogenization treatment and furnace cooling,respectively. It is shown that the particles are refined from 3 mm to less than 10 μm after hammering the two alloys but there are still metastable phases. This means that the phase constituents of the two alloys have no changes by the deformation,which is different from that by balling. The phase constituents are not changed at room temperature by hammering,which is dependent on the deformation mechanism of hammering.

First principles study on effect of lanthanum on nitrogen diffusion in ε-Fe_3N phase

The effect of lanthanum(La) on nitrogen atom diffusion in ε-Fe3N phase produced during nitriding with and without rare earth addition were studied based on the density function theory of first principles and the quantum mechanics program CASTEP code of Material Studio software.Calculated results show that the presence of La in ε-Fe3N phase can lead to the shrinks of a and b axis and the elongation of c axis of ε-Fe3N crystal cell.The total energy and the stability of the crystal cell with La are lower and higher than that without La,respectively.Diffusion activation energy of nitrogen atom in ε-Fe3N phase with La is 1.01 eV smaller than that in ε-Fe3N phase without La.This is the main reason why rare earth elements diffusing into compound layer produced during nitriding can accelerate the nitriding process or shorten the nitriding duration.

STUDY ON THE MAGNETISM AND PHASE TRANSFORMATIONIN Fe-Mn-Si-C SHAPE MEMORY ALLOYS

The hyperfine interactions of two shape memory alloys have been studied by Mossbauer effect measurement at various temperatures. The Mossbauer spectra exhibit a mag-netic change from antiferro magnetic state to paramagnetic state when the temperuture rises. The Fe-Mn-Si alloys have a small hyperfine field and silicon element increases the hyperfine field and magnetic susceptibility. Thermo-induced γ→ ε trunsforma-tions are suppressed by Neel transition and by increasing carbon content, whereas stress induced γ→ ε transformation occurs in both alloys. Antiferromagnetic spin order can suppress thermo-induced γ→εtransformations efficiently, but cannot sup-press stress induced γ → ε transformation.

新型HFW焊管的耐腐蚀性能

目的 研究采用高频直缝焊接(HFW)制成新型含Cu焊管母材和焊接接头在硫酸盐还原菌(SRB)环境中的腐蚀行为,为含Cu焊管提供基础数据。方法 通过失重法获得含Cu钢母材、接头及对比材料L360在SRB中的腐蚀速率,采用光学电子显微镜(OM)和透射电子显微镜(TEM)研究了含Cu钢的微观组织结构和析出相成分。通过扫描电子显微镜、激光共聚焦显微镜对腐蚀后的表面腐蚀形貌、细菌形貌和点蚀深度进行分析,利用EDS区域扫描和面扫描对腐蚀产物成分及元素分布状态进行分析。结果 新型含Cu钢金相组织为粒状贝氏体、多边形铁素体和少量的珠光体,透射电镜观察发现表面析出了大量弥散分布的ε-Cu相。在SRB环境中,含Cu钢母材、焊接接头和L360的腐蚀速率分别为0.007 1、0.0239、0.010 0 mm/a。通过腐蚀产物、细菌分布及形态的扫描电镜观察发现,在含Cu钢母材表面未发现结构完整的生物膜,腐蚀介质中的材料表面水解产生的Cu离子有效破坏腐蚀初期快速附着在金属表面的生物膜,从而形成“包状物”残留在金属表面,附近发现萎缩和组织液溢出的细菌,含Cu钢焊接接头焊缝区域生物膜结构完整,有大量细菌吸附且生物活性良好,微生物膜下产生腐蚀坑造成局部膜层破裂,点蚀严重。结论 在SRB环境中新型HFW焊管材料的平均腐蚀速率、点蚀密度和点蚀深度均低于L360,即Cu合金化处理金属表面析出ε-Cu相具有优良杀菌性能,从而减缓含Cu钢的腐蚀,经过HFW焊接后,接头焊缝区域点蚀敏感性增强,耐蚀性能下降。

Preparation of Composite Particles Made of Biodegradable Polymer and a Few Additives with Phase Separation Followed by Drying-in-Liquid

It was tried to prepare the biodegradable composite particles by the phase separation method followed by the drying-in-liquid method. The composite particles were made of poly-ε-caprolac-tone, quaternary ammonium, carbon black and wax. In the experiment, acetone and water were selected as a good solvent and a poor solvent for poly-ε-caprolactone, quaternary ammonium and wax, respectively. The composite particles were prepared by changing the surfactant species and their concentration, the feeding velocity of water and the weight ratio of poly-ε-caprolactone with larger molecular weight to one with smaller molecular weight. The composite particles with the inner structure in which carbon black, quaternary ammonium and wax were coated well with poly-ε-caprolactone could be prepared by the preparation method presented in this study. The structure and the mean diameter of composite particles were strongly affected by the feeding velocity of water. The higher the feeding velocity of water, the larger the mean diameter of composite particles. The mean diameter was drastically decreased with the surfactant concentration and increased with the added amount of poly-ε-caprolactant with larger molecular weight.

环己酮肟气相贝克曼重排S-1分子筛催化剂研究

采用水热法合成S-1分子筛,并引入助剂Fe调节分子筛不同硅羟基的比例,经含氮化合物缓冲溶液后处理后获得S-1催化剂;采用X射线衍射、N 2吸附-脱附、傅里叶变换红外光谱、等离子体电感耦合原子发射光谱、扫描电子显微镜等手段对合成分子筛进行表征,进而考察了助剂Fe含量和含氮化合物缓冲溶液后处理对分子筛物化性质及其催化环己酮肟气相贝克曼重排制ε-己内酰胺性能的影响。结果表明:助剂Fe最佳质量分数为254μg g,经过含氮化合物缓冲溶液处理后,合成分子筛的相对硅羟基总量和巢式硅羟基比例显著增加,其催化环己酮肟气相贝克曼重排转化率和己内酰胺选择性最高,分别达到99.9%和95.0%。

CaO/MgO对黄兔毫釉毫纹的影响研究

兔毫釉属高温钙釉,实验以红土、草木灰、石灰石等为主要原料,采用电窑在氧化气氛中烧制,研究了不同CaO和MgO的相对含量对釉面毫纹的影响。实验结果表明:当CaO和MgO的摩尔比为(0.40∶0.38)~(0.45∶0.33)时,釉中显微结构析出枝状ε-Fe_(2)O_(3)晶体较少,尺寸约150nm~250nm,釉面呈颜色较浅的毫纹;当CaO和MgO的摩尔比增至(0.50∶0.28)~(0.55∶0.23),釉中所析出的ε-Fe_(2)O_(3)晶体呈短柱状,尺寸约70 nm~150 nm,釉面毫纹数量增加;当CaO和MgO的摩尔比增至(0.60∶0.18)~(0.65∶0.13),釉中所析出形态为枝状晶花ε-Fe_(2)O_(3)晶体数量较多,釉面呈现数量多、形态粗的黄色毫纹;当CaO和MgO的摩尔比增至0.70∶0.08,釉中析出了钙长石晶簇和黄色ε-Fe_(2)O_(3)枝状晶花,钙长石周围易形成富Ca、Fe的分相结构,促进了ε-Fe_(2)O_(3)枝状晶花的析出,导致釉面形成形态较粗的橘黄色兔毫纹。

风雨场条件下汽车乘员舱气动噪声数值模拟

本研究以某汽车为研究对象,基于数值模拟探讨不同降雨量工况下的汽车乘员舱气动噪声声压级水平。采用Realizable k-ε/LES湍流模型来模拟无雨时的单相流流场,再添加离散相模型(DPM)来模拟有雨时的两相流流场,以声类比(FW-H)方法获得了不同降雨量下车身表面各子系统的1/3倍频程平均输入激励,采用混合有限元-统计能量分析(FE-SEA)方法获得了驾驶员耳旁气动噪声声压级水平。仿真结果表明:在20-1000Hz频段内,有雨工况下的驾驶员耳旁的声压级在各中心频率处都低于无雨工况,小雨工况和中雨工况下的驾驶员耳旁总声压级较为接近,大雨工况下的驾驶员耳旁总声压级最低。

40Cr钢离子渗氮层ε相转变机理研究

借助 X射线分析方法 ,研究了 4 0 Cr钢经不同时间渗氮处理后渗氮层ε相的形成以及经不同氨流量和温度渗氮后的转变。结果表明 ,在渗氮温度和氨流量相同的条件下 ,渗氮层深度和ε相体积分数随渗氮时间的延长而增加 ,在一定时间后 ,渗氮层深度增加缓慢 ,相组成几乎不再随渗氮时间变化。调整渗氮温度和氨流量 ,通过渗氮温度和气氛氮势的变化 ,可有效地控制渗氮层形成和转变 。

含铜马氏体抗菌不锈钢的研究

在马氏体不锈钢中添加适量铜,经过固溶和时效处理,在不锈钢中弥散析出ε-Cu相,可赋予不锈钢优良的抗菌性能。用透射电镜观察了析出相的形貌分布,还用电子能谱分析了析出相的组成。抗菌检测结果表明,含铜马氏体不锈钢对大肠杆菌和金黄色葡萄球菌具有高效杀灭作用,而仅经过固溶处理的不锈钢则没有杀菌作用。耐蚀性测试结果表明,含铜不锈钢的耐点蚀性能下降,其原因在于钝化膜与ε-Cu相之间存在腐蚀电位而发生电偶腐蚀。

抗菌处理对含铜铁素体不锈钢组织和性能的影响

试验钢进行了固溶及时效的抗菌处理,分析和研究了处理后含铜铁素体不锈钢组织和性能。采用不锈钢电解抛光技术与背散射电子的晶体取向衬度成像原理相结合,利用扫描电子显微镜(SEM)、透射电子显微镜(TEM)及能谱仪(EDS)对析出相形状、大小、分布及其成分进行了研究,测定和对比了试验钢抗菌处理前后的力学性能、杯突值和硬度值。研究结果表明:抗菌处理后试验钢具有优良的抗菌性能和深冲性,为该种材料用于抗菌制品工业化生产提供了依据。

Mn-30Al中间合金对镁合金的晶粒细化

采用真空淬火炉制备出含ε-AlMn相的Mn-30Al中间合金和含γ2-Al8Mn5相的Mn-30Al中间合金,观察了两种中间合金的组织,并探讨ε-AlMn相、γ2-Al8Mn5相、Mn和Al对镁合金的晶粒细化效果。试验表明,相比添加Mn、Al,含γ2-Al8Mn5相的Mn-30Al中间合金对AZ31镁合金存在一定的细化效果,含ε-AlMn相的Mn-30Al中间合金对AZ31镁合金具有更好的细化效果。当含ε-AlMn相的Mn-30Al中间合金添加量为0.4%时,AZ31镁合金的晶粒尺寸由原来的898μm减小至320μm,Mg-Zn合金晶粒尺寸由原来的320μm减小至180μm。通过面错配度计算,ε-AlMn可以成为初生α-Mg晶粒的良好异质形核核心。

奥氏体钢层错能与ε马氏体相变

导出了在奥氏体钢中相变驱动力与层错能的关系以及层错能和应变能对马氏体形态的影响规律。估算了低碳、氮含量的低温奥氏体钢中层错扩展时的晶格摩擦阻力(约为相变驱动力的18%)。临界层错能约为150mJ/m2。

马氏体抗菌不锈钢的微观组织及其抗菌性能

含Cu马氏体抗菌不锈钢经特殊的抗菌热处理析出-εCu相,采用覆膜法研究其抗菌性能。实验结果表明:马氏体抗菌不锈钢对大肠杆菌和金黄色葡萄球菌易于杀灭;鼠伤寒杆菌需要一定时间杀灭;白色念株菌需要较长时间杀灭。这与细菌的细胞壁组织结构、细胞壁厚度和其属性有关。抗菌不锈钢对细胞壁较薄、肽聚糖含量较低、组织疏松、金属离子易穿透细胞壁的细菌易于杀灭;反之,细菌不易于杀灭。随着抗菌作用时间的延长,铜离子浓度的提高,抗菌不锈钢的杀菌效力显著提高。马氏体抗菌不锈钢经表面打磨或磨损仍然具有相同的抗菌性能。

S30432锅炉管高温服役后磁性转变试验研究

采用磁感应强度测量仪、奥氏体氧化物检测仪、光学显微镜、扫描电镜、透射电镜和X射线衍射仪等仪器对较高磁性的S30432高温过热器管进行了取样对比试验研究.结果表明:新管无磁当量和磁感应强度,服役1.9×105 h的运行管出现了较高的磁当量和磁感应强度,磁当量和磁感应强度在管子环向变化较大,服役时间长的管子的磁当量显著大于服役时间短的;引起运行管出现高磁性的原因是管子室温组织中存在一定量的马氏体,马氏体组织呈条带状分布在紧邻晶界两侧,服役时间长的管子中马氏体组织的量明显多于服役时间短的;与新管相比,S30432运行管组织中弥散分布在晶内ε-Cu相的尺寸明显增大、形态也由不规则转变为圆形颗粒.

聚己内酯/聚乳酸共混体系的相形态及其流变行为

通过熔融共混制备了生物可降解的聚己内酯(PCL)/聚乳酸(PLA)共混体系,采用扫描电镜(SEM)和旋转流变仪分别研究了共混体系不相容的相形态及结构流变学。结果表明,共混体系的相形态强烈依赖于组分比。随PCL组分含量的增加,体系内部球形分散的形态逐渐向纤维状和部分双连续的相形态转变。两相界面的存在增加了体系动态弹性响应,并使体系出现了动态形状松弛。但从共混物模量对频率的依赖性仅能够判断体系是否存在不相容的相界面,相形态的差异则需通过松弛曲线来反映。

奥氏体抗菌不锈钢的微观组织及抗菌性能

含Cu奥氏体抗菌不锈钢经特殊的抗菌热处理析出ε-Cu相,采用覆膜法研究其抗菌性能。实验结果表明:奥氏体抗菌不锈钢易于杀灭大肠杆菌和金黄色葡萄球菌;杀灭鼠伤寒杆菌需要一定时间;杀灭白色念株菌需要较长时间。这与细菌的细胞壁组织结构、细胞壁厚度及其属性有关。抗菌不锈钢对细胞壁较薄、肽聚糖含量较低、组织疏松、金属离子易穿透细胞壁的细菌易于杀灭;反之,细菌不易于杀灭。随着抗菌作用时间的延长,溶液中铜离子浓度的提高,抗菌不锈钢的杀菌效力显著提高。奥氏体抗菌不锈钢经表面打磨或磨损仍然具有同样的抗菌性能。

1,6-己二醇气相催化脱氢合成ε-己内酯的研究

以1,6-己二醇为原料,自制的CuO/Cr2O3/Al2O3为催化剂,通过气相催化脱氢的方法合成了ε-己内酯,研究了反应温度、重时空速、氢醇比等因素对反应的影响,获得了最佳反应条件(反应温度为300℃,HDO重时空速为0.08 h-1,氢醇比为8.2),此时HDO转化率达到100%,CL产率高达66.2%。