高校始业教育中团体辅导模式探索

高校始业教育中团体辅导模式对大学生具有的激励和引导作用。应以促进人际关系发展、培养集体归属感、拓展个体视野、提升个体价值等为前提,通过班级辅导、职业规划、自我探索、时间管理等辅导模式,探索团体辅导模式在高校始业教育活动中的积极作用。     

论自备电厂的价税导向政策

自备电厂在能源供给中占有特殊的地位,其存在和壮大既有我国宏观市场经济发展的背景,也有微观企业逐利行为的影响。文章着重从充分发挥价格财税杠杆作用,及时传导电价信号的角度出发,梳理目前自备电厂在节能减排、环保电价、税费政策执行等方面存在的问题,剖析成因,提出以价值导向为核心的解决思路,以期为促进自备电厂的健康发展提出有益的意见和建议。     

论地方本科院校培养目标的定位:技术应用型人才

文章对应用型人才的内涵、界定及分类培养等进行了剖析,基于对"培养高等技术应用型人才"的理解和把握,阐述了地方本科院校培养目标的定位问题。     

基于裂缝柔度和地应力模型的声电测井正、反演方法及应用

电阻率成像探测深度通常为几厘米,超声波成像数据也只能提供井壁的声幅或到时图像。因此,很难评估井壁张开裂缝在地层中的分布情况。声波测井一般应用弹性各向异性表征地应力场和裂缝特性等,通常岩石的固有各向异性、高角度地层层面、裂缝或不平衡应力挤压等都可以导致弹性波表观各向异性,因此往往难以判断各向异性的成因。前人针对单一方位二维裂缝模型进行了声波正演模拟,但不适用于井筒含多组任意方位裂缝介质的弹性波模拟。为此,首先拾取井壁成像测井中导致声波表观各向异性的三类结构特征(天然裂缝、层面缝(或薄层)和钻井应力诱导缝)信息,同时定量化层理结构信息(如倾向、方位等),并将裂缝分层、分组;然后从声波全波列中提取地层的快、慢横波慢度及各向异性方位;接着在岩石和裂缝信息井壁成像建模基础上,通过裂缝附加柔度模型、层面伪裂缝模型和非线性应力场弹性波动理论正演模拟岩石的声波属性;最后通过对比声波速度及各向异性方位等信息的模型预测结果与实测结果,利用最小误差拟合反演确定井壁图像表征的裂缝类型与各向异性的成因,并对比、分析了频散曲线特征。将所提方法应用于花岗岩潜山裂缝型气田生产测试井以验证方法合理性,实际模拟结果表明：...     

Phase evolution and <110>-orientation mechanism in RTGG-processed BaTiO3 ceramics with electrical properties

The <110>-oriented BaTiO₃ ceramics were fabricated using BaCO₃ matrix and H_1.08Ti_1.73O₄.nH₂O (HTO) template particles, and the mechanism of BaTiO₃ phase formation was investigated. The dielectric, ferroelectric, and piezoelectric properties were also investigated. The transformation of the HTO phase into the TiO₂ bronze or TiO₂ (B) phase was observed at 600°C, where the BaTiO₃ nucleation was accompanied by the formation of a Ba₂TiO₄ phase. The TiO₂ phase reacted with the Ba₂TiO₄ phase at 800°C to give a BaTiO₃ phase, whereas its reaction with the BaTiO₃ resulted in the formation of BaTi₂O₅ phase that got decomposed into BaTiO₃ and Ba₆Ti₁₇O₄₀ phase at sintering temperature ≥1300°C. Sintering with samples’ embedding in BaTiO₃ powders prevented the formation of the Ba₆Ti₁₇O₄₀ secondary phase. The crystallographic orientation along the <110> direction (F₁₁₀) was developed by the epitaxial grain growth mechanism. In addition to the contribution of the grain-size increment for enhancing the F₁₁₀, the preservation of the platelike structure was also found to have a significant impact. The ceramics prepared by the embedded sintering (grain size ≈12.4 µm and F₁₁₀ = 83%) exhibited the room-temperature dielectric constant of 1708 and piezoelectric strain constant of 445 pm/V, which are higher than those of the BaTiO₃ ceramics with randomly oriented grains.     

Mechanical behavior and molecular orientation of polycarbonate plates prepared by press-induced deformation

Through a uniaxial hot compression method, polycarbonate (PC) plates were self-reinforced effectively by press-induced deformation. Relationships between macroscopic mechanical properties including tensile, impact as well as viscoelastic properties, and microscopic status such as morphologies and orientation were obtained in deformed PC plates. Results showed that PC plates which were compressed at appropriate temperatures (20°C–120 °C) obtained simultaneous enhancements in tensile strength (28%), elastic modulus (38%) and impact strength (700%), compared with the original plate. The impact fracture morphologies of deformed PC plates revealed evident ductile breakage. Wide-angle X-ray diffraction investigations were conducted to attribute mechanical behavior to molecular segment orientation, which was more sensitive to temperature. Self-reinforced mechanism was proposed to analyze the high correlation between various orientations of molecular segments and corresponding mechanical performance, explained by storage and loss moduli in dynamic mechanical analysis as supplemental verification. Press-induced deformation was proved to be a potentially effective method for the self-reinforcement treatment for PC transparent products.     

Effect of molecular weight on molecular orientation and morphology of polypropylene sheets containing a β-nucleating agent

In this study, polypropylene (PP) films containing the β nucleating agent, N,N′-dicyclohexyl-2,6-naphthalenedicarboxamide, were prepared using PP with three different molecular weights (low, medium, and high) by extrusion process with T-shaped die. The structure and morphology of the films were studied after stretching. It was found that a unique molecular orientation, in which both the c-axis and crystalline lamellae were oriented perpendicular to the flow direction, was formed in all undrawn film samples, irrespective of the molecular weights of the PP. In the PP sheets stretched in the machine direction, the low-molecular-weight sample containing the nucleating agent exhibited brittle properties owing to a lack of tie chains in the stretching direction. In contrast, cavitation was prominent in the medium (M-PP)- and high (H-PP)-molecular-weight samples. Notably, M-PP containing the nucleating agent, with a high degree of molecular orientation, promoted the formation of a large number of voids. In H-PP containing the nucleating agent, the presence of numerous tie chains inhibited cavitation, resulting in fewer voids. The experimental results demonstrated the influence of the molecular weight on the void structure, which will be useful in the field of microporous membranes.     

Detection and evaluation of the fibers' deposition parameters during wet filament winding

Wet filament winding technology has been extensively used for the manufacture of rotationally symmetric parts made of fiber-reinforced plastics (FRP). As the design and modeling of FRP-parts require numerous assumptions, deviations between calculated and achieved mechanical properties are expected. One aspect that contributes to this discrepancy is the assumption of a homogeneous rectangular cross-section of the fiber-band. In this work, the fiber-band geometry in a wet-winding process of carbon fiber cylinders is analyzed. An Infrared-optical system for the detection of the fiber bandwidth and winding-angle is implemented. The influence of the winding speed and the resin temperature is analyzed. An image processing algorithm for the automatic measurement of the fiber's bandwidth and winding-angle is developed. Manual and adaptive gamma corrections are implemented to improve image quality. A parameter study for the suitable selection of image processing parameters is performed.     

碳纳米纤维增强聚甲醛复合材料制备及性能

通过纳米碳纤维(CNFs)在聚甲醛(POM)基体中的均匀分散以及取向,制备了具有优异力学性能和热性能的POM/CNFs复合材料。利用扫描电子显微镜、透射电子显微镜、拉伸性能测试、热重分析、动态热机械分析测试表征了POM/CNFs复合材料的结构和力学、热学性能。结果表明,CNFs与POM分子链形成氢键相互作用,促进了CNFs在POM基体内分散,同时使POM/CNFs复合材料的结晶度显著提高。随着CNFs含量增加,POM/CNFs复合材料的拉伸强度、储能模量和损耗模量均得到提高。当添加0.5%的CNFs时,拉伸强度、储能模量及损耗模量分别提高了20.5%,127%和58%。进一步研究了高温拉伸对POM/CNFs复合材料性能的影响。结果表明,CNFs沿拉伸方向定向排列,同时复合材料拉伸后结晶度提高,拉伸强度显著增加。     

几种常见给水PVC工程管道的对比分析

从混配料技术要求、允许内压及抗外压能力、设备要求、性能指标要求及接口形式5个方面分别介绍并对比了硬聚氯乙烯（PVC-U）给水管、高性能硬聚氯乙烯（PVC-UH）给水管、抗冲改性聚氯乙烯（PVC-M）给水管及双轴取向聚氯乙烯（PVC-O）给水管4种硬质聚氯乙烯管材,并重点总结了PVC?UH管道的选取优势和应用案例,最后针对PVC?UH管道的施工给出了实践性建议。