KEY TECHNIQUES IN R&D OF OUT-SIZE EXTRUSION PRESS WITH OIL-DRIVEN DOUBLE ACTION

A modem design method, in which traditional design formulas are conjoined with numerical simulation and optimization, is successfully used to design the out-size extrusion flame precisely so that the press cost can be saved. A new technology used for decompressing by a multi-steps dynamical mode is put forward, which makes it possible to decompress the large flow-volume high-pressure oil in the main cylinders. In addition, a method for realizing the fixed mandrel process by hydraulic support is proposed and its control equation is established. Pre-tightening frame tests are carried out by over-operating pressure on 100 MN aluminium extrusion press with oil-driven double action, which is developed based on the above key techniques and is the largest press so far in the world, and the results show that the frame structure designed is reasonable and reliable, and the modem design method used is an useful tool for designing large and out-size heavy plastic forming machinery. The results of decompressing curve in main cylinder and noise inspection indicate that multi-steps dynamical mode for decompressing the large flow-volume high pressure oil is valid and reliable. Meanwhile, the fixed mandrel process is well realized based on the control equation. These key techniques have been used in the development of 125 MN aluminium extrusion press with oil-driven double action.

COERCIVITY AND ITS GRAIN SIZE DEPENDENCE IN CAST-HOT PRESSED Pr-Fe-B MAGNETS

Characteristics of magnetic hardening in cast-hot pressed magnet Pr_(19)Fe_(74.5)B_5Cu_(1.5)were stu- died.The microstructure features and virgin magnetization curve reveal a nucleation control- led coercivity mechanism.Regression analysis shows that the intrinsic coercivity varies inversely as the logarithm of the average grain size: _iH_c(MA/m)=1.7312-0.48161nd(μm) which confirms the randomness of nucleation of reversed domains and the statistical nature of coercivity,indicating that the decrease of grain size would reduce the average number of de- fects on its surface and lower the probability of magnetization reversal of a grain and the cu- mulative fraction of the grains that have reversed their magnetization.Coercivity is thus en- hanced.

不同尺寸HMX基压装装药的烤燃特性

为了研究装药尺寸对压装装药烤燃特性的影响,针对HMX基压装装药,建立了压装装药烤燃过程的计算模型,利用Fluent软件对不同装药尺寸的烤燃样弹进行了数值模拟,计算了不同升温速率下装药尺寸对压装装药点火位置、响应温度和响应时间的影响规律。结果表明:在同一升温速率下,HMX基压装炸药装药长径比为1.0时,装药中心响应温度均为最高;装药长径比大于1.0时,装药中心点火温度均随长径比的增加而降低;当长径比增大到一定程度时,装药中心的响应温度趋于恒值。装药的点火位置由升温速率和装药尺寸共同决定,且装药端面与曲面的传热量之比与长径比的平方成反比。当升温缓慢或长径比较小时,装药的点火位置位于装药中心;当升温速率较高且长径比较大时,装药的点火位置逐渐远离装药中心。

SiC_(p)/2024铝基复合材料冷压成形致密化特性研究

采用单轴模压法,以50μm、10μm双粒径SiC_(p)和2024铝粉混合粉末为原料,研究在102、204和306 MPa冷压条件下混合粉的冷压致密化行为、机理。采用粉末冶金法制备了SiC_(p)含量为20vol%的SiC_(p)/Al基复合材料,研究了热压烧结成形复合材料的组织和断口特征。结果表明,随着冷压压力的增大,冷压坯和复合材料的致密度均增加,204 MPa之后冷压坯致密度的增幅不明显,306 MPa冷压条件下冷压坯致密度最高达到85.8%,烧结后铝基复合材料的致密度最高达到99.87%。铝基复合材料的双粒径SiC_(p)与Al基体界面呈冶金结合,未出现SiC/Al界面脱粘现象及孔隙产生,复合材料断口中SiC_(p)均发生穿晶断裂,显示出良好的界面结合性能。

基于ANSYS的粉末精整压机主机结构设计与分析

粉末精整液压机的机架刚度和强度直接影响到设备的性能以及制件的精度,本文首先通过理论经验计算对5000 kN粉末精整液压机机架的各组成部分设计结果进行了初步定量分析,其次利用有限元分析软件ANSYS Workbench在施加工况载荷条件下对主机进行仿真,得到主机机身详细的应力、应变分布云图和最大变形情况.实验结果表明液压机主机在承受工况载荷的情况下,刚度和强度能够满足设计要求,仿真结果对粉末精整液压机机架的结构优化设计有一定的指导作用,同时也为工程实践提供定量的分析参考依据.

Grain size dependence of flow stress in ECAPed Ti with constant texture

The effect of grain size on the flow stress in an ECAPed Ti with a constant texture was investigated,assuming that 2,4,5 and 6 passes microstructures have a similar texture.The average size of recrystallized grains decreased to 0.5 μm,0.4 μm,and 0.3 μm with respect to the ECAP pass number of 2,4,and 6,respectively.The ultimate tensile strength (UTS) and yield strength (YS) increase with an increase in the number of pressing.The UTS and YS of the 6 passes ECAPed sample were found to be 740.2 MPa and 580.3 MPa,respectively.An equation for the flow stress of an ECAPed Ti with a constant texture as a function of the strain and grain size was derived for the ECAPed metal.The following equation was finally obtained:σ(ε)=103.9+1825ε-9.6ε1/2·d-1/2+8.3d-1/2.

Effect of Mechanical Treatment Temperature on Electrical Properties and Crystallite Size of PVDF Film

Fabrication of PVDF films has been making using Hot Roll Press. Preparation of samples carried out for nine different temperatures. This condition is carried out to see the effect of temperature fabrication on electrical properties and crystallite size of PVDF films. The electrical properties like as surface resistivity are discussion focus in this paper. Surface resistivity properties of PVDF can be improved by mechanical treatment on the varying film thickness and the temperature. To obtain the diffraction pattern of sample characterization is performed using X-Ray Diffraction. Crystallite size of PVDF films calculate from broadening pattern of X-Ray Diffraction. Furthermore, from the diffraction pattern calculated β fraction and crystallite size, for calculation to determine the crystallite size of the sample by using the Scherrer equation. Has been obtained an increase piezoelectric properties of PVDF films that characterized by increasing β fraction. Have been obtained β fraction increased from 25.4% up to 44% for temperatures of 130°C up to 170°C, respectively. Resistivity value has been obtained at temperature 130°C up to 170°C, decreased from 1.23 × 104 Wm up to 0.21 × 104 Wm respectively. From the experimental results and the calculation of crystallite sizes obtained for the samples with temperature 130°C up to 170°C respectively are increased from 7.2 nm up to 20.54 nm. These results indicate that mechanical treatment caused increase β fraction and decrease surface resistivity. Increasing temperatures will also increase the size of the crystallite of the sample. This happens because with the increasing temperature causes the higher the degree of crystallization of PVDF film sample is formed, so that the crystallite size also increases.

Microstructure and tensile properties of ultrafine grained copper processed by equal-channel angular pressing

相等隧道的尖紧迫(ECAP ) 过程被用于 12 公里 x 12 公里 x 在房间温度的纯铜(99.98 wt.%) 的 80 公里营舍。shear 变丑特征，微观结构进化，和张力的性质被调查。高力量的联合(～ 4 20 MPa ) 并且高延伸到失败(～ 2 5%) 在房间温度在八 ECAPpasses 以后被完成。与 nanocrystalline 谷物混合极其细小的谷物(～ 0 .2 μ m )(～ 8 0 nm ) 导致了高张力的力量和韧性。

非对称条件下定宽机板坯镰刀弯生成规律

针对某1580热轧定宽过程中产生的板坯镰刀弯现象,在考虑多辊弯曲和弹性压扁变形情况下,建立了启停式定宽压力机多柔体有限元模型。系统研究了板坯两侧温度分布不均、来料倾斜、板坯中心线不对中、锤头中心线不对中、锤头水平倾斜、绕导向辊轴线竖直倾斜以及绕轧制中心线竖直倾斜这7种情况下板坯镰刀弯的生成规律。结果表明,锤头水平倾斜会加剧出口镰刀弯,对镰刀弯的影响最大;在相同偏移量下,板坯偏移比锤头偏移对镰刀弯的影响大;锤头绕导向辊轴线竖直倾斜以及来料倾斜量在30 mm以内变化时,对镰刀弯影响小;而锤头绕轧制中心线竖直倾斜时,对板坯镰刀弯的影响较小,板坯两侧温度分布不均时,对板坯镰刀弯的影响最小。进一步通过建立镰刀弯量化计算公式,对比了有限元模拟结果和现场实测镰刀弯数值,得知其误差率保持在5%以内,验证了模型的准确性及合理性。

成型位置对硬质合金数控刀片微结构的影响

以数控刀片SPMT120408-PM为对象,通过扫描电镜与电子背散射衍射技术,研究成型位置(刀尖与中性层)对合金内部微结构的影响。研究结果显示,成型位置对碳化钨(WC)颗粒形貌无明显影响,对粒度分布、∑2晶界、Co相类型影响显著。其成型位置刀尖的WC当量粒径分布宽度显著大于中性层,中性层粒度更均匀且亚晶比例更高。刀尖与中性层重位点阵(CSL点阵)晶界均以∑2晶界为主,且刀尖∑2晶界长度百分比显著高于中性层。此外,成型位置影响高温稳定相fcc-Co向低温稳定相hcp-Co的转变,刀尖以fcc-Co与hcp-Co两相混合为主,中性层以hcp-Co为主。

FILTER PRESSING BEHAVIOUR OF ALUMINA DISPERSIONS

Studies of pressure-volume curves have shown that the filter pressing behaviours depend on pH values of the alumina dispersion. Densimetry and porosimetry of the filter cakes have revealed that higher density, smaller mode pore size and lower specific volume of total pores can be achieved by controlling electrostabilization. (Author abstract) 9 Refs.

揿针疗法联合口肌训练治疗小儿脑瘫流涎及构音障碍的疗效观察

目的探讨揿针疗法联合口肌训练治疗小儿脑瘫流涎及构音障碍的临床效果。方法以河北省儿童医院2022-01—2022-12收治的105例小儿脑瘫流涎合并构音障碍的患儿为对象,口肌训练组52例,揿针联合口肌训练组53例。评价2组患儿流涎治疗效果、教师流涎分级(TDS)及构音障碍治疗效果。结果揿针联合口肌训练组流涎总有效率(96.23%)高于口肌训练组(84.62%),差异有统计学意义(P<0.05);揿针联合口肌训练组教师流涎分级低于口肌训练组,差异有统计学意义(P<0.05);揿针联合口肌训练组构音障碍总有效率(90.74%)高于口肌训练组(80.77%),差异有统计学意义(P<0.05)。结论揿针疗法联合口肌训练治疗小儿脑瘫流涎及构音障碍效果显著,能够有效改善患儿流涎症状,改善患儿的构音功能。

定宽机侧压过程运动锤头温度应力研究

定宽机锤头在侧压过程中的温度分布是研究锤头温度应力的关键。采用有限元间接耦合法,用重启动方法先计算锤头温度场,改变锤头和板坯的位置,由于重启动载荷步的限制,对侧压仿真流程进行了改进,有效模拟侧压多块板坯的工艺流程,仿真得到锤头在不同时刻的瞬态温度场。在此基础上,综合仿真结果的温度和温度梯度,判断最大温度应力出现的时刻,计算得到锤头的最大温度应力,为分析运动物体的温度及温度应力提供参考。

制备工艺对粉末冶金FeCrNi中熵合金耐腐蚀性能的影响

分别采用包套热挤压和热压烧结法制备FeCrNi中熵合金,研究制备工艺对合金组织结构及耐蚀性能的影响。结果表明:采用热挤压工艺制备的FeCrNi中熵合金平均晶粒尺寸为13μm,且存在粗大的退火孪晶,而热压烧结工艺制备的FeCrNi中熵合金晶粒组织更细小,平均晶粒尺寸为6μm。在0.5 mol/L H_(2)SO_(4)+2×10^(-6)mol/L HF溶液中,热压烧结FeCrNi中熵合金表现出更好的耐蚀性,即更高的击穿电位(0.979 V)、更低的腐蚀电流密度(7.68×10^(-6)A/cm^(2))以及更宽的钝化区ΔE(1.011 V)。热挤压FeCrNi中熵合金钝化膜中Cr元素主要以Cr(OH)3形式存在,而热压烧结FeCrNi中熵合金钝化膜中Cr元素主要以Cr_(2)O_(3)形式存在。这是因为热压烧结FeCrNi中熵合金的细晶组织具有高密度晶界,能够为Cr提供更多扩散通道,从而促进钝化膜中Cr_(2)O_(3)的形成,提高钝化膜的稳定性和耐腐蚀性。

合成聚晶金刚石过程的颗粒冷压破碎

为提升聚晶金刚石的致密度,研究在初装、冷等静压后以及六面顶压机内等不同压力条件下,不同金刚石粉体粒径和配比在加压前后的粉体密度、粒径分布及重排微观结构变化,发现金刚石粉体的变化规律。合成过程包括初装料的无序排列到220 MPa等静压后的细颗粒填充孔隙与重排,再到超高压力下大颗粒被挤压破碎,孔隙被逐步填充。由于细颗粒的缓冲效应,大颗粒G_(20~30)在双粒径配方G_(2~4)和G_(20~30)中比在单一粒径G_(20~30)配方中破碎更少,更有利于提升金刚石粉体堆积密度。

铼酸铵粒度对铼粉压制性能的影响

铼粉作为铼制品的基础原料,其压制性能是影响产品质量和服役性能的关键因素之一。分别以4种不同粒度的铼酸铵作为原料,通过两步氢还原法制得铼粉,后续以场发射扫描电镜(SEM)、X射线衍射仪(XRD)、费氏粒度仪、粉体物性仪等设备,表征和测试粉体的微观形貌、物相、粒度以及物性指标,进而综合研究粒度对铼粉压制性能的影响规律。结果表明:铼酸铵粒度变小对前驱体粉的微观形貌影响很大,粉体整体从颗粒状演变为片状,最终呈树枝状;同时铼酸铵的粒度降低使制得铼粉的费氏粒度和激光粒度皆变小(最低为2.53μm和24.1μm),振实密度和填充密度也相应降低,进而使粉体的压制性能得到改善。

碱性物料药柱压制工艺研究

二氧化碳对人体生理健康有重要影响,超过一定的体积分数会危害人体健康和生命安全。密闭空间中容易积聚二氧化碳而使其体积分数升高,必须采取措施控制二氧化碳体积分数,使其在允许的体积分数范围内。碱性物料药柱是一种宇航密闭空间用二氧化碳吸收剂。碱性物料药柱的生产工艺采用了压制成型工艺。对压制工艺的主要影响因素进行研究,有利于优化压制工艺过程。研究表明,原材料粒径目数增加,所需成型压力增大;在相同粒径和保压时间时,成型压力增加,药柱密度随之增加后变化很小;相同粒径和成型压力时,随着保压时间的增加,药柱密度随之增加后变化较小。碱性药柱压制工艺宜选择一定粒径分布的原材料和与之相匹配的成型压力及保压时间。

纳米晶Cu-Co合金在不同浓度H_(2)SO_(4)溶液中耐蚀性能研究

为探究纳米晶Cu-Co合金在H_(2)SO_(4)溶液中的腐蚀机理以及纳米化对其耐蚀性能的影响机制,采用电化学方法通过测定Cu-50Co纳米晶和粗晶块体合金在不同浓度H_(2)SO_(4)溶液中的极化曲线、活化能曲线和电化学阻抗谱,研究了2种Cu-50Co合金的耐蚀性能以及纳米化对其耐蚀性能的影响。结果发现:溶液浓度升高,2种Cu-50Co合金的腐蚀电流密度均变大;溶液浓度相同,晶粒尺寸降低,Cu-50Co合金的腐蚀电流密度变小。2种Cu-50Co合金均能产生钝化,溶液浓度升高,维钝电流密度均变小;溶液浓度相同,Cu-50Co纳米晶合金的维钝电流密度比相应的粗晶合金小。2种Cu-50Co合金的电化学阻抗谱均由单一容抗弧构成,溶液浓度升高,电化学反应电阻和活化能均降低;溶液浓度相同,Cu-50Co纳米晶合金的电化学反应电阻和活化能比相应的粗晶合金大。这些都说明,2种Cu-50Co合金的腐蚀速率均随H_(2)SO_(4)溶液浓度的升高而变大,其耐蚀性能下降;Cu-50Co合金纳米化后,其腐蚀速率降低,耐蚀性能提高。

SP定宽机侧压冲击力的有限元模拟及试验研究

采用有限元法,对上海宝钢集团公司1580车间SP定宽机进行了侧压冲击力的有限元模拟,给出板坯侧压过程冲击载荷的变化规律,计算了板坯的应力变化与金属三维流动状态,并分析了板坯缺陷形成的原因。通过对 SP定宽机侧压过程的动态测试,分析了侧压过程中模块加速度的变化,给出冲击力的试验结果,并对有限元模拟结果进行验证。由模块的动态特性实测曲线发现了设备存在的问题。研究结果为SP定宽机的设计与维护提供了重要依据。

调宽压力机—热轧板带调宽技术的新进展

本文介绍了国外开发的新型板坯调宽压力机的结构特点、主要参数及在热轧带钢轧机粗轧机组的应用。