Production of carbon anodes by high-temperature mould pressing

Laboratory-scale carbon anodes were produced by a new method of high temperature mould pressing, and their physico-chemical properties were studied. The influence of mould pressing conditions and coal pitch addition on the bulk density, crushing strength, and oxidation resistance was analyzed. The mierostructure of carbon anodes was investigated by scanning electron microscopy （SEM）, and the mechanism of producing carbon anodes by high-temperature mould pressing was analyzed. The results show that when the anodes are produced by high-temperature mould pressing, coal pitch can expand into the coke particles and fill the pores inside the particles, which is beneficial for improving the quality of prebaked anodes. The bulk density of carbon anodes is 1.64-1.66 g/cm3, which is 0.08-0.12 g/cm3 higher than that of industrial anodes, and the oxidation resistance of carbon anodes is also significantly improved.

Function of large-volume high-pressure apparatus at SECUF

Pressure allows the precise tuning of a fundamental parameter, the interatomic distance, which controls the electronic structure and virtually all interatomic interactions that determine material properties. Hence, pressure tuning is an effective tool in the search for new materials with enhanced properties. To realize pressure tuning on matter, large-volume press （LVP） apparatuses have been widely used not only to synthesize novel materials but also to implement the in situ measurement of physical properties. Herein, we introduce the LVP apparatuses, including belt-type, cubic anvil, and 6-8 type multi-anvil, that will be constructed at the Synergetic Extreme Condition User Facility （SECUF） at Jilin University. Typically, cell volumes of 1000 mm3 can be obtained at 20 GPa in a belt-type apparatus that is significantly larger than that obtained in a 6-8 type multi-anvil apparatus at the same pressure. Furthermore, the in situ measurement of physical prop- erties, including thermological, electrical, and mechanical behaviors, is coupled to these LVP apparatuses. Some typical results of both synthetic experiments and in situ measurements obtained from the LVP apparatuses are also reviewed.

A method to calculate and counterbalance the inertia force of slider-crank mechanisms in high-speed presses

A new method to calculate and counterbalance the inertia force of slider-crank mechanisms in high-speed mechanical presses was put forward. By analyzing the kinematic characteristics of a center-located slider-crank mechanism whose crank rotates at a constant angular velocity,the kinematic parameters of the slide,connecting rod and crank were formulated approximately. On the basis of the results above,three inertia forces and the input moment in the mechanism during its idle running were investigated and formulated by dynamic analysis. A verification experiment was performed on a slider-crank mechanism at a high-speed press machine. The forces derived from the established formulas were compared respectively with those obtained by the ADAMS software and the classical method of connecting rod mass substitution. It was experimentally found that the proposed formulas have an improved performance over related earlier techniques. By use of these results,a 1 000 kN 1 250 rpm four-point high-speed press machine was designed and manufactured. The slide of this press is driven by four sets of slider-crank mechanisms with symmetrical layout and opposite rotation directions to counterbalance the horizontal inertia forces. Four eccentric counterbalance blocks were designed to counterbalance the vertical force after their mass and equivalent eccentric radius were formulated. The high-speed press machine designed by the proposed counterbalance method has worked with satisfactory performance and good dynamic balance for more than four years in practical production.

Preparation of ZrB_2 Ceramics by Self-propagating High-temperature Synthesis and Hot Pressing Sintering

ZrB2 ceramics were prepared by self-propagating high-temperature synthesis（SHS） and were sintered by hot pressing（HP）.The effects of the granularities and doses of raw materials in Zr-B2O3-Mgon SHS process and product were investigated.XRD and combustion temperature curves prove that the ideal SHS reactants of Zr-B2O3-Mg are 50μm Zr powder,75μm B2O3 powder and 400μm Mg powder with 45% excessive.The particle sizes of SHS product,acid-leached product,sintered product are 2-5μm,0.5-2μm,2-10μm respectively.Chemical analysis indicates that the acid-leached product consists of ZrB2（94.59%）,ZrO2（3.87%）,and H3BO3（1.54%）,The sintered product has a relative density of 95.4%.

Effect of La_2O_3 on microstructure and high-temperature wear property of hot-press sintering FeAl intermetallic compound

FeAl intermetallic compound with different contents of rare earth oxide La2O3 addition was prepared by hot pressing the mechanically alloyed powders.Effect of La2O3 on microstructure and high-temperature wear property of the sintered FeAl samples was investigated in this paper.The results showed that 1 wt.% La2O3 addition could refine the microstructure and increase the density of the FeAl intermetallic compound,and correspondingly improved the high-temperature wear resistance.SEM and EDS analyses of the wo...

Compressive behavior of NiAl/(Cr,Mo)Hf alloy prepared by high-pressure die casting and hot isostatic pressing

The NiAl-28Cr-5.85Mo-0.15Hf alloy was prepared by high-pressure die casting (HPDC) and subsequent hot isostatic pressing(HIP), and tested for compressible strength and fracture behavior at 300-1 373 K. The results show that the elevated temperature 0.2% compressible yield strength as well as the room-temperature compressible fracture strain of as-HIP alloy are larger than those of the same alloy prepared by directional solidification (DS). It suggests that the fine structures with a homogeneous distribution of fine Cr (Mo) and Hf-rich phase created by high-pressure die casting lead to these improvements.

LLDPE/碳纤维网复合膜的制备及性能

为了提高线型低密度聚乙烯(LLDPE)的拉伸强度和模量,将碳纤维(CF)梳理成均匀的碳纤维网,将其作为增强材料与LLDPE复合制备LLDPE/CF复合膜,综合利用热失重分析(TG)、扫描示差量热分析(DSC)、扫描电子显微镜(SEM)及拉伸测试等手段分析碳纤维网含量对复合膜结构及性能的影响。结果表明:与LLDPE膜相比,LLDPE/CF复合膜的拉伸强度和杨氏模量显著提高并随碳纤维网含量增加而增大,当碳纤维网质量分数仅为1%时,拉伸强度从10.6MPa提高到28.7MPa,提高了171%,杨氏模量由75MPa增大到1119MPa,约提高到原来的15倍;碳纤维网的引入有利于LLDPE/CF复合膜热稳定性能的提高,当碳纤维网含量仅为1%时,LLDPE/CF的初始热分解温度和最大热分解速率温度与LLDPE相比分别提高了21℃和11℃;碳纤维网的引入促进了LLDPE分子链的结晶,使LLDPE/CF复合膜的结晶度增大,有利于拉伸强度和模量提高;SEM结果显示碳纤维网与LLDPE基体间的界面结合较强,有利于力学性能的提高。研究成果可为高性能聚合物/碳纤维复合材料的制备提供实验依据和理论指导价值。

高海拔环境下压接式半导体器件的外绝缘特性

压接式半导体器件作为柔性直流输电工程中的核心器件,对电网系统的稳定性和可靠性具有重要意义。目前,关于压接式半导体器件在高海拔环境下外绝缘特性的研究尚且不足,针对市场上主流半导体器件厂家的器件开展外绝缘试验,研究不同海拔环境下半导体器件在不同电压类型下的间隙放电特性和在不同湿度下的沿面绝缘特性。在人工气候罐中模拟的2000、3800和4500 m高海拔环境下,对5种器件进行了雷电冲击电压试验、操作冲击电压试验、直流电压试验及60%、70%和80%湿度下人工污秽试验。试验结果表明,研究的5种器件均能满足3种海拔下的外绝缘要求,且设计裕度均大于17.6%;同时根据试验数据计算出海拔修正系数,对高海拔环境下空气间隙修正具有指导意义。

轻质高强异形管件充液压制成形技术

目的针对轻质高强异形管状构件的迫切需求,研发了充液压制成形技术,以在低载荷下成形出具有高强度、大尺寸、小圆角等特征的异形空心薄壁管状构件。方法给出了充液压制成形的力学原理,建立了成形过程压制力计算模型与临界支撑内压理论模型,分析了充液压制成形过程失稳屈曲/起皱规律、圆角充填机理与壁厚分布规律。结果当管材充液压制过程所需的支撑内压为内高压成形压力的1/10~1/20时,就可以避免管坯发生失稳屈曲与起皱,同时使压制力大幅降低。在弯曲与压缩应力复合作用下对管坯进行圆角充填,充液压制成形得到的管件壁厚减薄非常小。结论利用小吨位合模压力机在超低压条件下可以充液压制成形出具有小圆角与均匀壁厚的轻质高强异形管件,解决了传统内高压成形压力高、易发生开裂等难题。

6000t自由锻造水压机改油压机关键技术研究

本文提出了6000t自由锻造水压机升级改造的必要性,介绍了6000t自由锻造水压机升级改造的路径及改造后主要参数,阐述了控制系统升级改造方案及其关键技术。

西藏谷露地热田ZK401高温地热井钻井工艺技术

谷露地热田是西藏那曲—尼木地热带上的典型水热型高温地热田,安全、经济和高效的钻井工艺技术很大程度上决定了其高温地热资源的可开发利用潜力。ZK401井是在谷露地热田实施的一口优质高产探采结合井,地层以花岗岩类为主,其岩石硬度大,机械钻速低,钻头使用寿命短。自上而下揭露多层热储,其35~41m即可揭露124.8℃中温地热流体,汽水总量约40 t·h^(-1);50~320 m揭露超过120℃的中温热储,汽水总量约30~35 t·h^(-1);320~1320 m揭露186.9℃高温热储,汽水总量高达348 t·h^(-1),具有热储埋深浅、温度高,断裂构造发育,地层出水量大的特点,高温及水侵作用致使钻井液极易失效,井喷风险大,安全钻井难。为解决上述钻井施工难点,进行了高温地热钻井关键技术研究。通过采用异形齿PDC钻头和岩石热裂提速技术,使单只异形齿PDC钻头进尺较同规格牙轮钻头提高了23%~48%,使三开井段花岗岩类地层的平均机械钻速提升至3.18 m·h^(-1)。通过优化井身结构,采用简易控压钻井技术,利用低温清水作为二开及三开钻进循环钻井液,达到了及时发现并有效保护热储层和控制井喷风险的目的;实现了ZK401井在520 m揭露186.9℃高温热储且汽水总量达348 t·h^(-1)苛刻条件下的安全、持续钻进,且非生产时间较采用常规钻井技术的邻井缩短了37%,极大地降低了钻井成本,提高了高温地热资源的可开发利用潜力。为后续该区域乃至其他地区解决高温地热井钻井施工提供参考。

高速精密压力机多杆机构弹性动力学研究

高速精密压力机机构运动精度是冲压产品质量关键影响因素,机构弹性动力学研究对提高冲压机构运动精度有重要意义。以高速压力机双滑块六杆机构为研究对象,基于弹性动力学理论建立多杆机构弹性变形分析数学模型,提出考虑弹性变形冲压机构运动精度求解方法。以梁单元作为等效单元,综合考虑了横向位移、纵向位移、转角位移以及曲率的影响,建立机构运动微分方程,利用实振型叠加法进行求解。最终确定构件弹性变形及其导致的下死点精度误差,同时获得弹性构件最大动应力。分析结果表明弹性变形是精密冲压机械运动精度主要影响因素,高速精密压力机弹性动力学研究对运动精度设计具有理论指导意义。

高海拔隧道喷浆出碴过程风速场及粉尘分布规律数值模拟研究

为明确气压等环境参数对粉尘运移的影响,掌握高海拔隧道空间重点产尘工序粉尘质量浓度分布,使用Fluent软件模拟隧道喷浆和出碴阶段风速场和粉尘质量浓度场,分析海拔对隧道空间内风流和粉尘质量浓度波动性的影响。通过曲线拟合风速场和粉尘质量浓度场的沿程分布,建立隧道粉尘质量浓度预测模型。引入风速不均匀度和粉尘质量浓度不均匀度参数,构建海拔与风速、粉尘质量浓度不均匀度的线性回归方程。研究结果表明:1)高海拔地区隧道通风过程中,粉尘运移速度接近风速所用时间相比平原地区较长;低海拔地区风流接近直线沿全断面流出隧道,随着海拔升高,风流覆盖范围逐渐缩小,风流在水平方向逐渐沿S型流出隧道。2)喷浆过程中,距掌子面40 m以内风速较高,40 m以外风速迅速下降,在距掌子面60~180 m均匀波动;隧道整体粉尘质量浓度随海拔上升而发生波动性变化,在距掌子面20~180 m均匀下降,呈近似线性降低。3)出碴过程中,海拔上升,断面平均风速和呼吸面平均粉尘质量浓度值无明显变化,风速不均匀度和粉尘质量浓度不均匀度逐渐呈线性升高;海拔每上升1 000 m,风速不均匀度上升0.156 m^(2)/s^(2),粉尘质量浓度不均匀度上升4.42×10^(-6)kg/m^(3)。

应用响应面法优化超薄高密度纤维板饰面胶合板的热压工艺参数

为提高超薄高密度纤维板饰面胶合板的性能,利用响应面法(Box-Behnken)优化其热压工艺参数。以杨木单板(替代胶合板)、超薄高密度纤维板为试验材料,以热压温度(120、130、140、150、160℃)、热压时间(50、100、150、200、250 s)、热压压力(0.4、0.6、0.8、1.0、1.2 MPa)为影响因素,以超薄高密度纤维板饰面表面胶合强度、浸渍剥离长度为评价指标,采用单因素试验分析热压工艺(热压温度、热压时间、热压压力)对超薄高密度纤维板饰面的表面胶合强度和浸渍剥离长度的影响;采用响应面法设计多因素正交旋转组合试验,对试验设计范围内的影响因素进行优化热压参数组合、确定最优工艺参数。结果表明:热压温度对表面胶合强度的影响极显著,热压温度和热压压力对浸渍剥离长度影响极显著,热压时间和热压压力对浸渍剥离长度有显著的协同作用,共同影响板材的性能;试验范围内的最优工艺参数:热压温度150℃、热压时间210 s、热压压力0.8 MPa,板材的表面胶合强度为1.49 MPa、浸渍剥离长度为15 mm。

铸造镍基高温合金K417G中高温拉伸断裂机理研究

研究了高温合金K417G热等静压热处理后700℃和950℃时拉伸的断裂机制,使用万能试验机进行中高温拉伸试验,通过扫描电子显微镜对组织、断口形貌、断口纵截面进行观察。结果表明:热处理后试样枝晶形貌明显,枝晶干上γ′相立方度较高,尺寸为0.4~0.5μm,且排列整齐,枝晶间有尺寸为1.5~2.6μm的花瓣形γ′相析出。与700℃时试样的拉伸性能相比,950℃时抗拉强度降低了46.3%,而伸长率提高了200%,这说明高温拉伸强度降低,塑性增加。中温拉伸时,枝晶间长条形碳化物是断裂的主要裂纹源及扩展通道。而高温拉伸时,晶界处的碳化物、共晶成为裂纹源,裂纹沿晶界扩展,形成了沿晶断裂形貌。

超高压隔膜压滤机在煤泥脱水工艺中的应用研究

本文采用超高压隔膜压滤机对陕西省延安市某选煤厂洗选过程中产生的煤泥水进行深度脱水处理,得出以下结论:超高压隔膜压滤机配套滤布采用单丝滤布PA800比配套丙纶复丝750B滤布的脱水效果更好且泥饼的脱落率更高;在压榨压力为8MPa的情况下,煤泥深度脱水后的含水率在17%左右,能够提高煤泥的发热量、应用价值,同时稳定性好、较经济;随着压榨时间的延长,煤泥出泥含水率可降低1%~2%;进泥压力的变化对煤泥出泥含水率的影响较小,可忽略。

大体积压机的技术发展及未来展望

大体积静高压技术是进行高压科学研究与工业生产的一种有效手段,目前已被推广应用至材料工程、能源科学、地质科学及生物科学等领域。经过近一个世纪的发展,大体积静高压装置及技术经历了数次变革与创新,如今取得了突破性进展和成果,其中以国产铰链式六面顶压机为代表的大体积静高压装置与技术已处于国际领先水平。文章对国内外大体积压机从起步研制到现今的发展历程、装置原理及技术特点进行了详细介绍,也是对前人研究工作的总结。最后,结合国内外大体积静高压装置及技术的发展现状,对其未来进行了展望。

罗浮锥薄木饰面胶合板生产工艺研究

为提升罗浮锥木材的高附加值,以桉木胶合板为基材,基于正交试验设计,研究施胶量与热压工艺参数(温度、时间和压力)对罗浮锥饰面板的含水率、浸渍剥离和表面胶合强度的影响,探明罗浮锥饰面板的优化生产工艺,明确不同类型清漆(硝基清漆、水性清漆和聚氨酯清漆)涂饰工艺对罗浮锥饰面板的色差和漆膜理化性能的影响。结果表明:罗浮锥饰面板的含水率、浸渍剥离强度及表面胶合强度均符合国标要求,其最佳施胶量为120 g/m^(2),最佳热压温度、热压时间和热压压力分别为160℃、60 s和0.3 MPa;其经硝基清漆涂饰样品的漆膜抗冲击、耐磨、附着力等性能均符合家具表面漆膜理化性能的相关国标要求,经聚氨酯清漆涂饰样品的漆膜抗冲击性不符合家具表面漆膜理化性能相关国标要求,经水性清漆涂饰样品的漆膜耐磨性不符合家具表面漆膜理化性能相关国标要求,但具有最好的附着力和抗冲击性能。罗浮锥木材纹理美观,胶合、热压和涂饰性能优良,作为高端饰面板开发潜力大。

高阶变性Pascal蜗线齿轮生成机制分析

为满足多样性变速传动的设计要求,文章在研究Pascal蜗线非圆节曲线的基础上,通过引入高阶和变性原理,建立了高阶变性Pascal蜗线型非圆齿轮节曲线数学模型及其凹凸性判别公式。为分析高阶变性Pascal蜗线型非圆齿轮传动特性,利用MATLAB编写可视化设计分析平台,对影响高阶变性Pascal蜗线型非圆齿轮形状和传动特性的因素进行分析,为后续高阶变性Pascal蜗线型非圆齿轮的设计及应用提供了便捷的设计参考;将Pascal蜗线非圆齿轮驱动的曲柄滑块式压力机与对心曲柄滑块式压力机进行对比分析,验证了Pascal蜗线型非圆齿轮的优势和在实际应用中的可行性。

热等静压对激光选区熔化成形GH4169合金组织与高温性能的影响

GH4169合金通常于高温环境下服役,增材制造的GH4169合金高温性能往往低于锻件标准,影响其服役安全性,有必要通过热处理手段提高其安全性。采用激光选区熔化技术(SLM)制备GH4169合金,利用金相显微镜(OM)、扫描电子显微镜(SEM)、X射线能谱分析(EDS)等表征手段,探究热等静压热处理工艺对SLM成形GH4169合金微观组织、高温拉伸性能和高温持久性能的影响。结果表明:与常规热处理工艺相比,经过热等静压处理后的GH4169合金晶粒为等轴晶,气孔基本消失,Laves相基本消失,短棒状δ相在晶界处更加连续,颗粒状γ''相在晶粒内部大量析出,晶粒得到明显细化。热等静压处理后GH4169合金在扫描方向与沉积方向上的650℃抗拉强度分别为1053 MPa和1051 MPa,断后伸长率分别为8.6%和8.5%;高温持久时间分别为1620 min和2065 min,高温持久时间分别提升了90倍和30倍。高温抗拉强度和高温持久时间均高于锻件的性能指标,断后伸长率尚未超过锻件标准。