Effect of electric current pulse on grain growth in superplastic deformation of 2091 Al-Li alloy

The effect of electric current pulse on the grain growth in the superplastic deformation of 2091 Al Li alloy was investigated. Optical metallographic microstructure observation and average linear intercept measuring results show that at same strain, the grain size in the superplastic deformation loaded with electric current pulse is smaller than that unemploying electric current pulse, and so does the grain growth rate. TEM observation shows that the dislocation density at grain boundary in the superplastic deformation applied with electric current pulse is lower than that unemploying electric current pulse.It indicates that electric current pulse increases the rate of dislocation slip and climb in grain boundary, which leads to a decrease of both the density of the dislocation slipping across grain boundary at same strain rate and the driving force for grain growth, therefore the rate of grain growth decreases.The established model for grain growth shows an exponential relation of grain size with strain.

Growth and passivation of aluminum etch tunnels at on-off controlling direct current in 6 wt.% HCI solution

Growth and passivation of tunnels within Al foil by on-off controlling DC etching in 6 wt.% HCI solution has been investigated. It was found that, in a given etchant solution at a special temperature, the longest tunnel length was only a function of the turn-on interval of DC. The potential of Al foil broke at on-off controlling DC by the result from anode polarization curves and potential-time （E-t） responding curves. When DC was switched on, the potential increased abruptly over pitting potential, leading to nucleation of pits at the surface and the growth of tunnels at special length. When DC was switched off, the potential decreased rapidly to a passive value, leading to stoppage of nucleation and death of tunnels. By this way, the longest tunnel length can be controlled and a non-piercing layer can be obtained. Hence, etching of Al foil at this current is beneficial for maintaining a good mechanical strength.

Steady Lateral Growth of Three-Dimensional Particle Laden Density Currents

In this paper the steady lateral growth of three-dimensional turbulent inclined turbidity current is investigated. To simulate the current, an experimental setup is developed to analyze the turbidity current for different regimes in the particle laden density currents environment. The Buckingham’s π theorem together with a dimensional analysis is implemented to derive the appropriate non-dimensional variables. The experimental results were normalized and plotted in the form of non-dimensional graphs from which a theoretical model is developed and analyzed. Based on the results obtained for the steady lateral growth, three different regimes, namely, inertia-viscous one as the first regime, buoyancy-viscous and gravity-viscous as the second and third regimes are distinguished within the current.In these regimes, the force balance is between the driving and resisting forces. Namely, in the first regime, the force balance is between the inertia and viscous forces, in the second regime, the buoyancy and viscous forces, and in the third regime, gravity and viscous forces are balanced. The experimental results indicate that the lateral growth rate in the first regime is smaller than that in the second and third regimes due to the magnitude and type of the forces involved in those regimes. According to the graphical results, the three different lateral growth rates appear when the normalized current length is smaller than about 3, between about 3 and 10, and larger than about 10. In those regions,the slopes of the data are different with respect to one another.

‘唐半夏’无菌繁殖体系建立

以‘唐半夏’块茎为试材,采用组织培养的方法,研究了不同种类及浓度的植物生长调节剂对不定芽诱导、增殖、生根的影响以及电流刺激对不定芽增殖的影响,以期为‘唐半夏’无性快速繁殖体系的建立提供参考依据。结果表明:最适不定芽诱导培养基为MS+1.5 mg·^(L-1)6-BA+0.1 mg·L^(-1)NAA,平均每个外植体诱导的不定芽数最多(9.38个)且诱导率为93.75%;采用电流刺激不仅提高不定芽的增殖倍数,且对‘唐半夏’植株的生长产生明显的促进作用。特别是20 mA、5 min处理下,不定芽增殖倍数最大(13.31倍),组培苗生长健壮且出现生根的现象。最适生根诱导培养基为1/2 MS+0.2 mg·L^(-1)NAA,生根率为100%,生根数为23.75条。

微电流对大鹏湾造礁石珊瑚种苗存活率及生长状况的影响

为研究造礁石珊瑚种苗在微电流作用下的存活和生长状况,以深圳市大鹏半岛大鹏湾霜鹿角珊瑚(Acropora pruinosa)、澄黄滨珊瑚(Porites lutea)、盾形陀螺珊瑚(Turbinaria peltata)、十字牡丹珊瑚(Pavona decussata)、膨胀蔷薇珊瑚(Montipora turgescens)为研究对象,在300 d的实验周期内,将电压为6、12、18 V的微电流分别作用于造礁石珊瑚种苗,分析比较不同电压微电流作用下各种造礁石珊瑚种苗的存活率及生长情况。在实验期间海水中pH值、溶解氧和营养盐的变化范围不大,微电流作用后,珊瑚脱落率由3.33%-6.67%降低到0.00%-5.00%,其中澄黄滨珊瑚6、12 V电压实验组的珊瑚脱落率降至0;珊瑚种苗存活率由91.67%-93.33%提升到93.33%-98.33%。不同种类的造礁石珊瑚生长率和生长速度受微电流促进效果不同,霜鹿角珊瑚的生长率最高,十字牡丹珊瑚的生长率最低;当电压为12 V时,微电流对霜鹿角珊瑚、十字牡丹珊瑚、澄黄滨珊瑚、膨胀蔷薇珊瑚、盾形陀螺珊瑚的存活状况和生长速度影响效果最佳。微电流通过促进造礁石珊瑚组织的延伸,降低了造礁石珊瑚种苗培育过程中的脱落率,并提高了造礁石珊瑚种苗的存活率和生长速度。

基于泥沙异重流稳定性与衰减过程的床面淤积特性研究

泥沙异重流在稳定分层和不断衰减的过程中,伴随着床面淤积特征的变化。通过水槽试验观测异重流“稳定-衰减”过程,结合异重分层流运动理论模型,探究该过程对床面淤积特征的影响。研究结果表明,增加异重流层密度或厚度,形成稳定分层形态的时间明显缩短,同时延长了分层形态的维持时间;计算得到的临界雷诺数与扰动波数虚部相应增加,分层形态稳定性得以增强。异重流的稳定行进对于减小床面淤积具有重要作用,试验中临界雷诺数增加568~820,平均淤积厚度降低了42%~46%。因此,提高异重流稳定性并延缓衰减速率,有助于提高输沙率,可以达到减淤的目的。

儿童原发性肾病综合征社会适应性现状及危险因素

目的探讨儿童原发性肾病综合征(primary nephrotic syndrome,PNS)社会适应性现状,并分析其危险因素。方法便利抽样法选取2020年7月至2022年12月河南中医药大学第一附属医院收治的126例PNS患儿为研究对象,采用一般资料调查表、重返学习适应性、创伤后成长、心理弹性量表等对患儿进行调查。应用Pearson相关分析重返学习社会适应性评分与创伤后成长、心理弹性之间的相关性;采用多元线性回归分析儿童PNS社会适应性现状的影响因素。结果PNS患儿重返学习适应性总分为(56.71±9.32)分;创伤后成长总分为(38.65±7.48)分;心理弹性总分为(47.92±8.74)分。Pearson相关分析显示:重返学习适应性评分与创伤后成长评分、心理弹性评分均呈正相关(P<0.05)。多元线性回归分析显示:创伤后成长、心理弹性、年龄、病程、父母文化程度均是影响PNS患儿重返学习适应性水平的危险因素(P<0.05)。结论PNS患儿社会适应性水平较低,与创伤后成长、心理弹性、患儿年龄、病程、父母文化程度等多种因素有关。

水生植被生长特征对渠道水动力学影响研究

为研究渠道水生植被特征对渠内水力特性影响,设计了渠道模型试验,探讨了植被生长间距、入渠流量等因素影响下渠道水位、流速变化。试验表明,入渠流量对渠内断面水位变化特征影响较小,但植被生长间距特征会改变渠内断面水位变化,在间距为10~15、20~30、35~40 mm 3个区段具有不同的水位变化趋势。入渠流量愈大,则水位愈高;但植被生长间距愈大,则渠内水位愈低。当植被生长间距不超过25 mm时,渠内流速变化具有增、降阶段,而在间距为30~40 mm时流速较稳定。植被生长间距愈大,则流速愈高。研究认为渠内水生植被应控制其分布密度与间距,以降低水生植被对渠内动水势能的影响。

Linear Analysis of Longshore Currents Instability over Mild Slopes

Longshore current instability is important to nearshore hydrodynamic and sediment transport. This paper investigates the longshore current instability growth model based experimental data with different velocity profiles of slopes1:100 and 1:40 by adopting a linear shear instability model with the bottom friction effects. The results show that:(1)Only backshear mode exists in the instability of longshore current for slope 1:40 and frontshear and backshear modes may exist slope 1:100.(2) The peaks of linear instability growth mode for slope 1:100 correspond to three cases: the dominant peak is formed by the joint action of both frontshear and backshear, or by backshear alone without the existence of the smaller peak or formed by either the frontshear or backshear.(3) Bottom friction can decrease the corresponding unstable growth rate but it cannot change the unstable fluctuation period. The results of fluctuation period, wavelength and spatial variation obtained by the analysis of linear shear instability are in good agreement with experimental results.

Effect of current density on distribution coefficient of solute at solid-liquid interface

When current passes through the solid-liquid interface, the growth rate of crystal, solid-liquid interface energy and radius of curvature at dendritic tip will change. Based on this fact, the theoretical relation between the distribution of solute at solid-liquid interface and current density was established, and the effect of current on the distribution coefficient of solute through effecting the rate of crystal growth, the solid-liquid interface energy and the radius of curvature at the dendritic tip was discussed. The results show that as the current density increases, the distribution coefficient of solute tends to rise in a whole, and when the former is larger than about 400 A/cm 2, the latter varies significantly.

Numerical simulation for isothermal dendritic growth of succinonitrile-acetone alloy

Numerical simulation based on phase field method was developed to describe the solidification of two-dimensional isothermal binary alloys. The evolution of the interface morphology was shown and the effects of phase field parameters were formulated for succinonitrile-acetone alloy. The results indicate that an anti-trapping current(ATC) can suppress many trapped molten packets, which is caused by the thickened interface. With increasing the anisotropy value from 0 to 0.05, a small circular seed grows to develope secondary dendritic, dendritic tip velocity increases monotonically, and the solute accumulation of solid/liquid interface is diminished distinctly. Furthermore, with the increase of the coupling parameter value, the interface becomes unstable and the side branches of crystals appear and grow gradually.

岷江源区两种优势针叶树当年生小枝性状与生物量分配随海拔的分异规律

当年生小枝具有较少的次生组织,同时是植物分支系统中最具活力的部分,木本植物当年生小枝性状与生物量分配的海拔变化是理解物种对不同生境适应策略的重要内容。通过分析青藏高原东缘岷江源区两种优势亚高山针叶乔木(紫果云杉和岷江冷杉)当年生小枝性状(茎长、茎粗、比茎长)与不同部位器官(茎、叶)的生物量随天然生境的海拔(3500—3550 m、3650—3700 m和3800—3850 m)变化,尝试揭示两物种当年生小枝在不同海拔下的生物量权衡及其生长策略。结果表明:(1)不同海拔下茎生物量种间差异大于种内差异,3650—3700 m处的茎生物量变异最大(128.4%)。(2)云杉的茎生物量、总叶生物量与海拔间存在显著的负相关关系(P<0.05),比茎长与海拔呈显著正相关(P<0.05);冷杉的总叶生物量与海拔间为显著负相关关系(P<0.05)。(3)随着海拔的升高,云杉茎生物量分配比逐渐从33.0%降低到27.0%;而冷杉的茎生物量分配比则从23.0%渐增至28.0%。(4)3500—3550 m和3650—3700 m两处的云杉茎生物量与总叶生物量、茎长与茎粗呈异速生长关系;3500—3550 m、3650—3700 m和3800—3850 m三处的冷杉茎生物量与总叶生物量、茎长与茎粗一直呈现异速生长关系。两种针叶树的茎生物量分配比及相关性状随海拔的变化差异表明冷杉更适应高海拔的胁迫环境。

Mechanisms by which fibroblast growth factor 20 improves motor performance in a mouse model of Parkinson’s disease

Genome-wide studies have reported that Parkinson’s disease is associated with abnormal expression of various growth factors. In this study, male C57 BL/6 mice aged 10 weeks were used to establish Parkinson’s disease models using an intraperitoneal injection of 60 mg/kg 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine. 28 days later, 10 or 100 ng fibroblast growth factor 20 was injected intracerebroventricularly. The electrophysiological changes in the mouse hippocampus were recorded using a full-cell patch clamp. Expression of Kv4.2 in the substantia nigra was analyzed using a western blot assay. Serum malondialdehyde levels were analyzed by enzyme-linked immunosorbent assay. The motor coordination of mice was evaluated using the rotarod test. The results showed that fibroblast growth factor 20 decreased A-type potassium current in neurons of the substantia nigra, increased long-term potentiation amplitude in the hippocampus, and downregulated Kv4.2 expression. A high dose of fibroblast growth factor 20 reduced serum malondialdehyde levels and enhanced the motor coordination of mice. These findings confirm that fibroblast growth factor 20 has a therapeutic effect on the toxicity induced by 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine, and its mechanism of action is associated with the inhibition of A-type K+ currents and Kv4.2 expression. All animal procedures were approved by the Animal Care and Use Committee of Qilu Hospital of Shandong University, China in 2017(approval No. KYLL-2017-0012).

铜集流体在碱金属电池中的应用及研究进展

碱金属(Li和Na)电池的高比容量、高能量密度和低电位使其成为未来储能设备的重要候选之一,但其本身存在严重的枝晶生长问题,导致库伦效率低、电池寿命短,甚至会造成电池短路发热,引起事故。集流体作为电极材料的支撑基底和连通内外电子通路的部件,占据了电池大部分的体积和质量,影响电池的能量密度。本文介绍了铜集流体在金属电池中存在的问题及其产生原因,并讨论了近年来针对铜集流体的改性方法,目前常见的改性方法是集流体表面改性和结构化改性,两种方法都能很好解决枝晶生长问题。最后对铜集流体改性方法进行了总结,并对其未来研究方向进行了展望。

VA、VD同补联合tDCS对发育指标延迟儿童的疗效

目的探讨维生素A(VA)、维生素D(VD)同补联合经颅直流电刺激(tDCS)在发育指标延迟儿童治疗中的效果。方法选取2020年1月~2021年12月在我院治疗的生长发育迟缓儿童140例,将患儿随机分为观察组(n=70)和对照组(n=70),观察组给予VA、VD同补联合tDCS,对照组给予VA、VD同补治疗,比较两组身高、体重、生长速率(GV)及身高标准差积分(HtSDS)的生长相关指标、Gesell量表评分、血常规指标及VA、VD、IGF-1等。结果观察组治疗后身高、体重、GV及HtSDS分别为(105.40±3.18)cm、(17.01±1.92)kg、(9.95±1.02)cm/年和(-1.12±0.44),明显高于对照组(P<0.05)。观察组治疗后Gesell量表适应性行为、大运动行为、精细动作、语言能力和个人社交能力发育商(DQ)分别为(82.34±5.83)分、(86.60±7.02)分、(84.45±6.84)分、(86.10±6.02)分和(83.30±7.12)分,明显高于对照组(P<0.05)。观察组治疗后血红蛋白(Hb)、红细胞平均体积(MCV)、平均红细胞血红蛋白(MCH)及平均红细胞血红蛋白浓度(MCHC)分别为(119.20±3.10)g/L、(90.31±2.08)fL、(32.29±2.12)pg和(36.69±2.04)%,明显高于对照组(P<0.05)。观察组治疗后VA、VD和胰岛素样生长因子-1(IGF-1)分别为(0.40±0.11)mg/L、(30.10±2.08)mg/L和(185.53±12.83)mg/L,明显高于对照组(P<0.05)。结论VA、VD同补联合tDCS治疗发育指标延迟儿童有较好的效果,明显改善患儿生长发育及血常规指标,值得临床使用。

钙钛矿晶体高性能γ射线光子计数探测器

射线光子计数探测在医疗诊断、航天和环境监测等领域有重要的应用。钙钛矿是一种新型的光电材料,它对γ射线光子具有优秀的吸收和光电转换特性。本文以高品质钙钛矿晶体作为γ射线光子吸收体,利用溶液外延掺杂的方法生长钙钛矿晶体半导体结。通过调控晶体杂质浓度,使钙钛矿本征层获得很高的电位降落,并利用超厚的本征层充分吸收γ射线光子;通过本征层两侧的p型和n型薄层建立适当的阻挡势垒,抑制暗态载流子的注入,从而降低探测器的暗电流和噪声。研究结果表明,通过溶液法外延掺杂制备钙钛矿晶体γ射线光子计数探测器,可以明显抑制γ光子探测噪声和暗电流,具有较高的γ光子能量以及同位素源活度的识别能力。

水流对凡纳滨对虾幼虾生长和存活的影响

研究了水流及水平流速对凡纳滨对虾幼虾生长存活的影响，试验结果表明：水流及其流速、流向是影响凡纳滨对虾幼虾生长存活的重要环境因子。静水环境不利于对虾的增长、增重和存活，易加大对虾个体间体长规格的差异；水平水流与曝气垂直水流均具有促进对虾生长和存活的作用，特别是水平水流环境更有利于养殖对虾的生长、规格整齐和存活，同时在0．63～2．78mm／s流速范围内，对虾的生长随着水平水流的流速增大而加快，规格越整齐；，检验表明，分别在静水、水平水流、曝气垂直水流环境中生长的对虾体长、体重增长量与成活率间存在显著差异；2．78mm／s流速的水平水流是1—3cm体长对虾最佳生长生存水流。

马鹿对植物当年枝利用率的六种估计方法的评价

目前,估计马鹿对饲料植物利用率的一种简便和较为准确的方法,是通过对植物当年枝的直径与长度或干重间存在的相关关系进行计算。这些计算方法可概括为6种:(1)100D_p/D_b;(2)100(D_p-D_t)/(D_b-D_t);(3)100(L_b-L_a)/L_b;(4)100(W_b-W_a)/W_b;(5)100L_p/L_b;(6)100W_p/W_b上述公式中,D_p——啃食端直径;D_b——当年枝基径;D_t——未被啃食的当年枝顶端(顶芽下第一节间)的平均直径;L_a(Wa)——当年枝被啃食后剩余部分的长度(干重);L_p(W_p)

鼻咽癌组织微电流、表皮生长因子受体与鼻咽癌分化的关系

目的研究微电流在鼻咽癌组织中变化特点及表皮生长因子受体(EGFR)在鼻咽癌组织中的表达情况,探索微电流和EGFR对鼻咽癌分化程度的意义。方法应用微电流检测仪和免疫组织化学方法检测37例鼻咽癌组织、15例鼻咽黏膜慢性炎组织的微电流及EGFR水平。结果鼻咽癌组微电流阳性率为70.3%,EGFR阳性率为13.3%,均高于鼻咽黏膜慢性炎组的13.3%、20.0%(P<0.05)。鼻咽癌颈淋巴结转移者EGFR阳性率明显高于无转移者(P<0.05)。结论检测鼻咽组织微电流对判断组织良恶性有一定价值。微电流和EGFR与鼻咽癌的分化程度无关。

影响仿刺参生长的主要因子研究进展

仿刺参（Apostichopus japonicus）主要分布于山东半岛和辽东半岛,在中国20多种食用海参中质量最好[1-3],被列为我国海产“八珍”之一,有“海中人参”之美誉[4]。随着人民生活水平的提高和对营养健康食品的关注,仿刺参的消费市场不断扩大。