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1.
推导陈垃圾在滚筒筛中的运动方程并求数值解,按最大位置角将陈垃圾运动模式划分成滚落、抛落、圆周运动,给出不同筛筒转速、半径、动摩擦因数下的运动模式判别云图. 滚筒筛试验结果显示,陈垃圾运动的最大位置角随转速的升高先增大后不变,转速超过50 r/min后垃圾进行圆周运动. 陈垃圾滚筒筛的筛分效率随转速增大呈先升后降的趋势,随抛落差的增大呈持续上升的趋势,随着原料水的质量分数的增加呈下降的趋势. 基于试验结果,给出滚筒筛最优转速取值云图,在实际工程中可根据垃圾动摩擦因数及滚筒半径选择最优转速,同时减小水的质量分数以提高筛分效率. 相似文献
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Spindle speed variation (SSV) is one of the effective methods which suppresses regenerative chatter. However, regenerative chatter can grow even if SSV is applied. In the previous work, the chatter growth characteristics in SSV were clarified. The chatter frequency changes proportionally to the varying spindle speed, and it causes the change of the magnitude of the dynamic compliance. Hence, chatter can be suppressed through SSV since the dynamic compliance usually reduces as the chatter frequency changes. A greater compliance reduction can be obtained by a higher rate of spindle speeds in two consecutive revolutions at the same angular position, i.e., acceleration rate. From the investigations in the previous work, limitation of the conventionally utilized SSV profiles is found as follows: the acceleration rate always fluctuates with speed variation and the chatter vibration grows where the acceleration rate is insufficient for suppression, and hence suppressing chatter in all sections of SSV is difficult. In this paper, a new SSV profile with a constant acceleration rate, namely CAR-SSV, is proposed to overcome the limitation of chatter stability improvement by utilizing conventional SSV profiles. The magnitude of the acceleration rate is kept constant to realize the chatter suppression effect throughout the cutting process. Through time-domain simulation and cutting experiments, the chatter stability of CAR-SSV is investigated based on the previously introduced chatter stability evaluation indices. Influence of the parameters of CAR-SSV on the stability is investigated, and an appropriate strategy for setting SSV parameters to achieve higher stability is discussed. In addition, in order to verify the effectiveness of the proposed profile, the stabilities of conventional SSV profiles and CAR-SSV are compared through time-domain simulations and cutting experiments. 相似文献
3.
《矿业科学技术学报(英文版)》2021,31(1):33-41
Longwall mining has existed in Utah for more than half a century. Much of this mining occurred at depths of cover that significantly exceed those encountered by most other US longwall operations. Deep cover causes high ground stress, which can combine with geology to create a coal burst hazard. Nearly every longwall mine operating within the Utah's Book Cliffs coalfield has been affected by coal bursts. Pillar design has been a key component in the burst control strategies employed by mines in the Book Cliffs.Historically, most longwall mines employed double-use two-entry yield pillar gates. Double-use signifies that the gate system serves first as the headgate, and then later serves as the tailgate for the adjacent panel. After the 1996 burst fatality at the Aberdeen Mine, the inter-panel barrier design was introduced.In this layout, a wide barrier pillar protects each longwall panel from the previously mined panel, and each gate system is used just once. This paper documents the deep cover longwall mining conducted with each type of pillar design, together with the associated coal burst experience. Each of the six longwall mining complexes in the Book Cliffs having a coal burst history is described on a panel-by-panel basis.The analysis shows that where the mining depth exceeded 450 m, each design has been employed for about 38000 total m of longwall panel extraction. The double-use yield pillar design has been used primarily at depths less than 600 m, however, while the inter-panel barrier design has been used mainly at depths exceeding 600 m. Despite its greater depth of use, the inter-panel barrier gate design has been associated with about one-third as much face region burst activity as the double-use yield pillar design. 相似文献
4.
当FTSC薄板坯连铸机生产拉速提高到4~6 m/min时,浸入式水口通钢量增加,结晶器内流场扰动加剧,卷渣率提高,对生产顺行及铸坯质量都将产生重大影响。因此,为了解结晶器液面流场,根据实际生产情况,制作了1∶1的结晶器水物理模型,并通过Fluent软件对结晶器液面流场进行了数值模拟,研究了水口浸入深度及拉速对液面流场的影响。结果表明,在水模型物理试验中,水口浸入深度恒定为130 mm时,拉速在4~6 m/min范围内,结晶器表面流速随着拉速的提高而增大,其最大值范围为0.401~0.693 m/s;在6 m/min恒定拉速下,水口浸入深度在130~190 mm范围内,结晶器表面流速随着水口浸入深度的增加而减小,其最大值范围为0.503~0.690 m/s。在数值模拟中,水口浸入深度恒定为130 mm时,拉速在4~6 m/min范围内,结晶器表面流速随着拉速的提高而增大,其最大值范围为0.50~0.75 m/s;在6 m/min恒定拉速下,水口浸入深度在130~190 mm范围内,结晶器表面流速随着水口深入深度的增加而减小,其最大值范围为0.65~0.75 m/s。结晶器表面流速随着距水口中心距离的增大有先增加后减小的规律。 相似文献
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《中国有色金属学会会刊》2021,31(7):1939-1950
The isothermal extrusion process of hollow aluminium profile was investigated using incremental proportional–integral–derivative (PID) control algorithm and finite element simulations. The range of extrusion speed was determined by considering the maximum extrusion load and production efficiency. By taking the optimal solution temperature of the secondary phase as the target temperature, the extrusion speed–stroke curve for realizing the isothermal extrusion of the aluminium profile was obtained. Results show that in the traditional constant extrusion speed process, the average temperature of the cross-section of the aluminium profile at the die exit rapidly increases and then slowly rises with the increase in ram displacement. As the extrusion speed increases, the temperature difference at the die exit of the profile along the extrusion direction increases. The exit temperature difference between the front and back ends of the extrudate along the extrusion direction obtained by adopting isothermal extrusion is about 6.9 °C. Furthermore, the heat generated by plastic deformation and friction during extrusion is balanced with the heat transfer from the workpiece to the container, porthole die and external environment. 相似文献
7.
碾压是强化金属表层的一种重要且很有发展潜力的强化方法,工件表层经碾压变形强化后会表层留有应力,能提高表层硬度和强度,同时还能改善工件表面粗糙度。对装备构件进行碾压模拟,模拟结果显示工件表层经碾压后产生较高应力且内部状态无明显变化,强化效果明显。接着改变下压量进行模拟,发现在一定范围内,随下压量增大,碾压强化效果愈好。 相似文献
8.
研究辊速差对连铸连轧7075铝板显微组织、织构及力学性能的影响。采用3种不同上辊/下辊转速比(ω/ω0,ω为上辊转速,ω0为下辊转速)1:1、1:1.2及1:1.4进行多次试验。结果显示,在最大辊速差条件下(ω/ω0=1:1.4),7075铝板在轧制方向的屈服强度和极限抗拉强度分别提高41.5%和21.9%。此外,当辊速比ω/ω0为1:1.4时,成品轧制板的平均晶粒尺寸减小36%,横剖面平均硬度增加约9.2%。织构研究结果显示,辊速差越大,成品各向同性及硬度越大。然而,采用不同辊速度的连铸连轧会导致变形板伸长率降低约6%。 相似文献
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