Segregation of C and P in Steel Droplets Solidified in Drop Tube

The properties of steels can be improved by adding appropriate amount of alloying elements.However,the quality and properties of steels may be affected due to the segregation of the alloying elements.Rapid solidification was regarded to be an effective method to reduce or eliminate the segregation of alloying elements.While in this paper,the segregation of C and P was also observed in rapid solidified carbon steel droplets (in silicon oil) by drop tube processing.The distributions of alloying elements in 0.2m drop tube samples were similar to those in 50m drop tube samples.While in both 0.2m and 50m drop tube,the segregation of C and P was quite different when the contents of the samples were varied,the segregation profiles were discussed in detail.The microstructures of 50m droplet samples were a little finer than those of 0.2m droplet samples.The solidification speed was approximately the same from the surface to the center of each sample.In high-C samples,the microstructure was also corresponding to the distribution of C.

Compound forming technology of outside 3D integral fin of copper tubes

Using rolling-ploughing-extrusion compound processing methods,a 3D integral-fin structure on outside surface of red copper tube with diameter of 16.0 mm and wall thickness of 1.5 mm was obtained. When both rolling depth and ploughing-extrusion(P-E) depth were 0.2 mm,rotating speed was 50 r/min,feed speed was 0.16 mm/r,3D fin structures with height of 0.25 mm were gotten. Two different fin structures were obtained in grooves formed with rolling-ploughing-extrusion compound forming technology and observed by scanning electron microscope(SEM). One is the compound structure with V-shaped groove and U-shaped groove,and the other is the single structure with V-shaped grooves. Two kinds of groove structures obtained by rolling processing and ploughing extrusion processing are restricted together by groove interval and rolling depth,and pitch and P-E depth,respectively. Based on the analysis of interaction of rolling and P-E processing,it is found from the result that the outside 3D integral-fin can be achieved by rolling-ploughing-extrusion compound processing when single V-shaped groove structures are formed by both rolling and P-E processing.

Inositol (1,4,5)-triphosphate Modulates Pollen Tube Polar Growth

In this article, the functions of D-myo-inositol-1,4,5-trisphosphate (Ins [1,4,5] P3) in regulating pollen tube polar growth were investigated by application of caged version of the phosphoinositides. To increase the intracellular Ins（1,4,5）P3 concentration at the apical region of pollen tube, the caged Ins（1,4,5）P3 loaded by osmotic shock was activated by 10 s 360 nm UV flash at this domain （10 μm from the tip）. More than 70% pollen tubes were induced swelling at apex and/or growth axis reorientation, accompanying temporarily growth arrest, by localized increase of Ins（1,4,5）P3 concentration （n=21）. While, pollen tubes without being loaded with caged Ins（1,4,5）P3 had not response to the same dosage UV flash. With FM 1-43 fluorescent staining, it was found that growth perturbation by UV activated caged Ins（1,4,5）P3 had tight link with membrane trafficking at the apical zone of pollen tubes. Upon UV pulse, the apical V-shaped bright area where was full of secretory vesicles spread to a much broader region, which implied that actin filaments at the apical region were remodeled. It was also observed that the FM 1-43 fluorescence intensity at tip remarkably increased than that before UV flash, which demonstrated that more secretory vesicles were accumulated at this region. To estimate the role of Ins（1,4,5）P3 in modulating intracellular calcium concentration and distribution, dextran conjugated fluorescent dye Calcium Green-1 and Rhodamine B were microinjected into pollen tubes together with caged Ins（1,4,5）P3. The results showed that calcium concentration at the subapical region increased upon UV released Ins（1,4,5）P3. Consequently, the tip-focused calcium gradient under the apical dome of pollen tube was disturbed. Simultaneously, the pollen tube bulged at the apical region and its growth rate decreased. As the tip-focused calcium gradient was reestablished, the pollen tube morphology and growth recovered to the normal level. Therefore, Ins（1,4,5）P3 can modulate pollen tube growth rate and direction through mobilizing intracellular calcium and regulating vesicle trafficking during pollen tube finding its way to the ovary.

共聚焦生物芯片扫描仪中PMT电流增益的自动控制

根据共聚焦生物芯片扫描仪获得的图像 ,设计了计算机控制下的PMT电流增益自动控制系统 根据计算生物芯片图像的灰度分布与期望灰度分布的差异 ,得到期望灰度分布时PMT的期望电流增益 ,进而获得PMT的期望控制电压 一个 1 2位数模转换器产生期望控制电压 ,自动控制PMT电流增益的调节 ,控制电压精度高达 2mV 实验结果表明 ,所设计的PMT电流增益自动控制系统可快速、准确地实现PMT电流增益调节 ,并具有稳定性高。

利用花粉管通道法将叶片衰老抑制基因P_(SAG12)-IPT导入普通小麦的研究

利用花粉管通道法将叶片衰老抑制基因PSAG12 IPT导入普通小麦品种西农 1376 ,经PCR、GUS组织化学染色、点杂交和Southern杂交分析 ,证明带有特异启动子的目的基因已整合到 5个植株的基因组中 ,且在大部分转基因植株中能够稳定遗传。通过叶片细胞分裂素含量、叶绿素含量、叶片衰老进程及农艺性状分析 ,初步证明PSAG12 IPT基因在部分转基因小麦的衰老叶片中特异表达 。

P110油管钢表面镀Cu与镀Ni-P摩擦磨损性能的比较

在P110油管钢表面分别制备了Cu镀层和Ni-P镀层,采用SEM、EDS和STM等方法对比研究了P110油管钢基体、Cu镀层和Ni-P镀层的摩擦磨损性能,分析了磨痕形貌、磨损率和摩擦系数的异同,探讨了磨损机理.结果表明:Cu镀层和Ni-P镀层的耐磨性均明显优于P110油管钢基体,且Ni-P镀层的耐磨性优于Cu镀层;P110油管钢基体的磨痕呈磨坑形貌,磨损机理为剥层磨损和磨粒磨损;Cu镀层的磨痕表面附着Cu磨屑,磨屑受压发生塑形变形,磨损机理为疲劳磨损和黏着磨损;Ni-P镀层的磨痕呈细小的犁沟形貌,磨损机理为轻微磨粒磨损.

人工神经网络方法预测P110油套管钢稀土渗铬层的厚度

利用人工神经网络原理,建立了反映P110油套管钢(P110钢)稀土渗铬工艺参数与渗铬层厚度关系的预测模型。结果显示:该模型可以对选定工艺条件下渗铬层厚度进行良好的预测,预测结果在合理的误差范围内,建立的模型是可靠的,可以通过此模型优化工艺参数,实现P110钢稀土渗铬层厚度预测。

miR-129-1-3p在浆液性卵巢癌中的表达及临床意义

目的:检测miR-129-1-3p在浆液性卵巢癌组织与正常输卵管伞端组织中的表达,并分析miR-129-1-3p与卵巢浆液性上皮性癌临床病理特征之间的关系。方法:采用实时荧光定量聚合酶链反应(qRT-PCR)定量分析100例浆液性卵巢上皮性癌组织、50例正常输卵管伞端组织中miR-129-1-3p的表达,并将检测结果与临床和病理特征资料进行统计学分析。结果:浆液性卵巢癌组织中的miR-129-1-3p表达量显著低于正常输卵管伞端组织(P<0.01)。miR-129-1-3p的表达与FIGO分期、患者年龄、病理分化程度、淋巴结转移、血清CA125值无统计学差异(P>0.05)。结论:miR-129-1-3p可能作为抑癌因子参与了卵巢上皮性癌的发生发展,对卵巢上皮性癌具有潜在的辅助诊断意义,为寻找卵巢上皮性癌的生物靶向治疗提供理论依据。

20例原发性输卵管癌组织中ER、PR与p^(53)蛋白的表达

目的：分析原发性输卵管腺癌的ＥＲ、ＰＲ及ｐ５３蛋白的表达，研究其与该肿瘤的临床分期、病理分级及患者预后的关系。方法：材料选自２０份原发性输卵管腺癌及１０份正常输卵管组织的存档石蜡包埋标本，采用免疫组化法检测。结果：在２０份原发性输卵管癌标本中，ＥＲ、ＰＲ的阳性表达率分别为２５％和１５％，稍高于正常输卵管组的１０％，但差异无显著性（Ｐ＞０．０５）；ｐ５３蛋白在癌症组的阳性表达率为４０％，对照组则无１例阳性表达，差异有显著性（Ｐ＜０．０５）；ｐ５３蛋白在晚期、分化差及预后不良的输卵管癌病例中的表达呈上升趋势，但未达到统计学意义（Ｐ＞０．０５）；对侧输卵管炎症的存在与ｐ５３蛋白的阳性表达呈负相关（Ｐ＜０．０５）。结论：在原发性输卵管癌中，ＥＲ、ＰＲ有一定程度的表达，但均较低；ｐ５３基因的突变可能参与了该肿瘤的发生，并可作为综合判断其恶性程度及患者预后的指标之一。

孕妇血清淀粉样P物质作为神经管缺陷产前标志物的研究

目的验证血清淀粉样P物质(SAP)在正常孕妇和有神经管缺陷患儿的孕妇血清中的表达情况,探讨其作为神经管缺陷产前诊断标志物的可能。方法于清晨空腹抽取病例组(12例胎儿患神经管缺陷的孕妇)和对照组(12例胎儿正常的孕妇)外周静脉血5 mL后静置离心,抽取上层血清,用Western blotting方法检测SAP表达水平,并计算受试者操作特征(ROC)曲线,评估SAP诊断神经管缺陷的价值。结果在妊娠12~19周、21~28周时,病例组孕妇血清中SAP表达明显下调,差异有统计学意义(P<0.05)。ROC曲线下面积(AUC)=0.770 8(95%CI:0.573 9~0.967 8,P<0.05)。当敏感度为83.33%时,其特异度为66.67%。结论胎儿神经管缺陷的孕妇血清中SAP表达显著降低,提示SAP有作为神经管缺陷的产前诊断标志物的潜在可能。

碳纳米管改性P(VDF-HFP)基聚合物电解质的电学性能研究

制备了以偏二氟乙烯-六氟丙烯共聚物P(VDF-HFP)为基质的聚合物电解质,并掺入碳纳米管,测定该电解质的交流阻抗特性和直流伏安特性。结果表明,加入适当碳纳米管可以提高电解质的离子电导率,改善电解质的电学性能。

基于COPRA的P形管辅助设计

根据异形管的设计方法,并结合客户的要求,应用冷弯成型专业设计软件COPRA对P形管进行辅助设计;建立了考虑各种必要因素的精确计算模型,并进行了计算机模拟,通过分析模拟结果改进了初始设计方案,并配置了成型轧辊。结果表明:计算机辅助设计可以大大减少调试时间,缩短设计周期,提高设计可靠性;既降低了设计过程中的经济损失,又提高了长期生产的经济效益。

强对流条件下使用p-VOF方法的低温圆管二维结霜模拟

为进行强对流条件下低温表面的结霜模拟,新发展了称为p-VOF方法的结霜模拟方法,该方法是一种用于有相变发生的多相流模拟的伪VOF方法:通过显式求解简化的质量守恒方程得到霜相的体积分数变化,替代CFD软件中原有的体积分数方程的求解。使用p-VOF方法对强对流条件下低温圆管的二维结霜进行了模拟,分析了强对流条件下低温圆管结霜的大致规律与特征。在常物性霜层条件下,来流湿度越大或管壁温度越低,霜层生长速率越快,霜层越厚;来流速度越大,在结霜初期的霜层生长速率越大,但霜层生长速率明显减慢的时间越早,最终的霜层也越薄。研究表明p-VOF方法能够正确反映圆管外形下流动、传热与霜层形貌变化的相互耦合关系,可用作强对流下的低温圆管二维动态结霜模拟的基础方法。

管材拉拔变形的Q-λ-P图及其应用

在拉拔管材时,管材的变形参数,如延伸系数λ、截面变形指数Q,变形差值P以及减壁和缩径变形存在着确定的关系,可以用Q-λ-P图表示,将管材变形后的性能指标填入图中,可以清楚地看到性能变化的趋势,并且很方便地确定有利的变形参数,以期实现控制某项性能指标的目的。

孕妇胎儿神经管缺陷易感性与MTHFR基因C667T位点突变、TYMS基因rs3819102位点突变及血清SAP水平的关系

目的研究孕妇胎儿神经管缺陷易感性与5,10-亚甲基四氢叶酸还原酶(MTHFR)基因C667T位点突变、胸苷酸合成酶(TYMS)基因rs3819102位点突变及血清淀粉样P物质(SAP)水平的关系。方法前瞻性选择2017年12月至2019年12月在四川省雅安市人民医院产检的159例胎儿神经管缺陷的孕妇为观察组,159例胎儿健康的孕妇为对照组,采用酶联免疫吸附试验法(ELISA)检测并比较两组血清SAP水平,采用聚合酶链式反应-限制性片段长度多态性(PCR-RLFP)法对MTHFR基因C667T位点、TYMS基因rs3819102位点多态性进行检测分析,比较两组各位点的基因型和等位基因分布频率,采用Spearman相关性分析MTHFR基因C667T位点突变、TYMS基因rs3819102位点突变及血清SAP水平与孕妇胎儿神经管缺陷的相关性,采用Logistic回归分析孕妇胎儿神经管缺陷的危险因素。结果观察组血清SAP水平明显低于对照组,差异有统计学意义(P<0.05);观察组MTHFR基因C667T位点的CC、CT、TT基因型频率及T、C等位基因频率与对照组比较,差异有统计学意义(P<0.05);观察组TYMS基因rs3819102位点的AA、GG、AG基因型频率及A、G等位基因频率与对照组比较,差异有统计学意义(P<0.05);血清SAP水平与孕妇胎儿神经管缺陷呈负相关关系(r=-0.647,P<0.05);MTHFR基因C667T位点TT基因型频率及T等位基因频率与孕妇胎儿神经管缺陷呈正相关关系(r=0.205,P<0.05);TYMS基因rs3819102位点的GG基因型频率及G等位基因频率与孕妇胎儿神经管缺陷呈正相关关系(r=0.204,P<0.05);血清SAP低水平、MTHFR基因C667T位点T等位基因突变、TYMS基因rs3819102位点G等位基因突变是孕妇胎儿神经管缺陷的危险因素。结论血清SAP低水平、MTHFR基因C667T位点T等位基因突变、TYMS基因rs3819102位点G等位基因突变可能增加孕妇胎儿神经管缺陷易感性。

Influence factors on stress corrosion cracking of P 110 tubing steel under CO2 injection well annulus environment

Stress corrosion cracking （SCC） behavior of P 110 tubing steel in simulated C02 injection well annulus environments was investigated through three-point bent tests, potentiodynamic polarization and EIS measurements. The results demonstrate that SCC of P110 tubing steel could occur in acidulous simulated environment, and the sensitivity of SCC increases with the decrease ofpH, as well as increase of sulfide concentration and total environmental pressure. Both anodic dissolution and hydrogen embrittlement make contributions to the SCC. Adequate concentration of corrosion inhibitor can inhibit the occurrence of SCC on account of the inhibition of localized anodic dissolution and cathodic hydrogen evolution.

大功率双P型燃气辐射管的实验及仿真

通过实验和仿真研究大功率双P型辐射管的温度分布,设计的辐射管功率为200kW,在3. 2m×1. 2m×2. 3m的全纤维内衬实验炉上进行测试,采用k-ε湍流模型、非预混燃烧模型、DO辐射模型进行仿真,对比实验值和仿真值。当炉温为900和1000℃时,各测点管壁温度的仿真值和实验值相比,误差小于5%;空气预热温度为20、400、600℃时,管壁温度和最大温差逐渐增加;在烧嘴额定功率的100%、50%、30%、20%时,随着功率的降低,各测点管壁温度逐渐降低,最大温差逐渐减小;随着热值的增加,管壁高温区的温度越高,管壁最大温差逐渐增加。

电站锅炉12Cr1MoVG/TP347H异种钢接头断裂分析

某电站锅炉高温再热器进口管12Cr1MoVG/TP347H接头运行1.7万h发生断裂,断裂发生在12Cr1MoVG侧焊缝熔合线处,对该管断口处经过成分分析、力学性能试验、金相组织检验,结果表明:母材的成分、强度、塑性、硬度等均满足相关标准要求;管段母材和热影响区金相组织未发现异常;焊缝的主要成分未见异常;焊缝宏观无明显的台阶和塑性变形,为脆性断口特征。认为该接头断裂为典型的A/P类异种钢接头早期失效,该接头早期失效断裂主要由于接头两侧母材运行中产生脆化层和软化层,力学性能差异导致的三轴拉应力所致,在接头焊接工艺中焊缝成形不良,接头坡口设计不合理、结构突变大(如焊瘤、背凸过大等)导致的应力集中促进了该接头早期失效。

TP2铜管的上引生产工艺探讨

本文介绍采用上引法生产冷凝器用 TP2紫铜管的工艺方法。采用分步加入 P-Cu 的工艺来实现管材含磷量均匀的要求;采用分段加入 B-Ce 复合细化剂来抑制磷对结晶组织的负面影响,同时起到细化晶粒、净化铜液的作用。检测结果表明,采用本工艺生产的铜管各项性能完全达到了冷凝器和通气管的标准要求。

基于p-u探头测试法的双层微穿孔吸声体吸声性能试验研究

微穿孔吸声体广泛应用于建筑、汽车、航空航天等领域。文章基于p-u探头测试法研究双层微穿孔吸声体声腔体积对其吸声性能的影响。通过与阻抗管中测量得到的吸声系数对比,验证了p-u探头法测量双层微穿孔吸声体的吸声系数的适用性,弥补了传统阻抗管测试法无法测试真实尺寸试件的缺点。测量结果表明双层微穿孔吸声体板后声腔共振能提升吸声体的吸声性能,因此可以将合理设计声腔共振频率作为微穿孔吸声体优化设计的新思路。