Plate Contact问题的混合有限元逼近

论文考虑了Plate Contact问题的混合有限元逼近,其变分问题为第二类四阶椭圆变分不等问题.首先,根据正则化方法,得到原问题的正则化问题.再根据网格依赖范数技巧,考虑了正则化问题的Ciarlet-Raviart混合有限元逼近,并证明了真解与逼近解之间的误差估计.最后通过数值算例验证了理论分析的结果.

Elastic-plastic contact force history and response characteristics of circular plate subjected to impact by a projectile

A new elastic-plastic impact-contact model is proposed in this paper. By adopting the principle of minimum acceleration for elastic-plastic continue at finite deformation, and with the aid of finite difference method, the proposed model is applied in the problem of dynamic response of a clamped thin circular plate subjected to a projectile impact centrally. The impact force history and response characteristics of the target plate is studied in detail. The theoretical predictions of the impact force and plate deflection are in good agreements with those of LDA experimental data. Linear expressions of the maximum impact force/transverse deflection versus impact velocity are given on the basis of the theoretical results.

Tensionless contact of a finite circular plate

A general formulation is developed for the contact behavior of a finite circular plate with a tensionless elastic foundation. The gap distance between the plate and elastic foundation is incorporated as an important parameter. Unlike the previous models with zero gap distance and large/infinite plate radius, which assumes the lift-off/separation of a flexural plate from its supporting elastic foundation, this study shows that lift-off may not occur. The results show how the contact area varies with the plate radius, boundary conditions and gap distance. When the plate radius becomes large enough and the gap distance is reduced to zero, the converged contact radius close to the previous ones is obtained.

ADHESIVE CONTACT PROBLEM OF AXISYMMETRIC MINIATURE CIRCULAR PLATES WITH CENTRAL RIGID BUMP

Considering the adhesive effect and geometric nonlinearity, the adhesive contact between an elastic substrate and a clamped miniature circular plate with two different central rigid bumps under the action of uniform transverse pressure and in-plane tensile force in the radial direction was analyzed. And an analytical solution is presented by using the perturbation method. The relation of surface adhesive energies with critical load to detach the contacted surfaces is obtained. In the numerical results, the effects of adhesive energy, in-plane tensile force, rigid bump size and contact radius on the critical load are discussed, and the relation of critical contact radius with the gap between the central rigid bump and the substrate for different adhesive energies is investigated.

UNIQUENESS FOR THE SOLUTIONS OF ELASTIC THIN PLATES AND SHALLOW SHELLS AS WELL AS THEIR CONTACT PROBLEM WITH HALF SPACE

The uniqueness for the solutions mentioned in the subject is proved by using the uniqueness of the solution for the internal boundary problem of Laplace and bi-Laplace equations of the first kind as well as of the second.

Internal Energy Losses and Contact Duration About a Circular Plate Colliding to a Half-Plane Target

Collisions between multibody systems are irreversible processes which cause loss of internal energy by a stress wave that propagates in the impacting bodies away from the region of impact. A coefficient of restitution relating to approach velocity is introduced to denote the losses of translational kinetic energy. A parameter β involved in internal energy losses has been obtained to calculate the coefficient of restitution. As a result, the internal energy losses caused by elastic stress waves and the contact duration in metals can be calculated numerically for the collision between circular cylinder and half plane. The metals include aluminum alloys, steel-mild 1020, steel-stainless austenitic 304, tungsten alloys, copper alloys, nickel alloys and titanium alloys. By introducing a coefficient of velocity-frequency, an exponential aggression equation related the normalized oscillating frequency and normalized approach velocity has been obtained by the numerical method.

Microstructure and Contact Fatigue Behavior of Nano-SiO_2/Ni Coating Prepared by Electro-Brush Plating

The composite coating nano SiO 2/Ni was prepared by co depositing nano SiO 2 particles with pure nickel through electro brush plating. By taking into account the effect of microstructure, heat treatment and load on the contact fatigue life, the anti contact fatigue behavior of the composite coating was examined and compared with that of nickel coating. As a result, the contact fatigue life decreased with the increasing of load. The contact fatigue lives of nano SiO 2/Ni coating were 16.5% and 45.2% higher than those of nickel coating respectively under the loads of 60 N and 140 N, and 326.3% higher than its counterpart of nickel coating after annealed under the load of 140 N. From the SEM image of fatigue fracture, it has been observed that the fatigue fracture of the composite coating initiated in the sub surface as well as at the track surface due to the huddling of units, and propagated along the interface between grain units.

Surface stability and conductivity of a high Cr and Ni austenitic stainless steel plates for PEMFC

In order to use stainless steel as bipolar plate for PEMFC, electrochemical behavior of a high Cr and Ni austenitic stainless steel was studied in the solutions containing different concentration of H2SO4 and 2 mg·L-1 F-, and interfacial contact resistance was measured after corrosion tests. The experimental results show that the passive current density lowers with decreasing the concentration of H2SO4. The interfacial contact resistance between carbon paper and passive film formed in the simulated PEMFC environment is higher than the goal of bipolar plate for PEMFC. Surface conductivity should be further reduced by surface modification.

Plain carbon steel bipolar plates for PEMFC

Bipolar plates are a multifunctional component of PEMFC. Comparing with the machined graphite and stainless steels, the plain carbon steel is a very cheap commercial metal material. In this paper, the possibility of applying the plain carbon steels in the bipolar plate for PEMFC was exploited. In order to improve the corrosion resistance of the low carbon steel in the PEMFCs′ environments, two surface modification processes was developed and then the electrochemical performances and interfacial contact resistance (ICR) of the surface modified plate of plain carbon steel were investigated. The results show that the surface modified steel plates have good corrosion resistance and relatively low contact resistance, and it may be a candidate material as bipolar plate of PEMFC.

FRICTIONAL CONTACT MULTIPOLE-BEM AND 3-D ANALYSIS OF SCREWPAIRS

The 3-D traction field in the pressure screw-pair of a 3 500 heavy and mediumplate mill press down system is successfully calculated by applying the 3-D frictional contactmultipole-BEM and the corresponding program that has been developed. The computing results show themedium diameter orientation is unreliable, especially under the interference of an outer forcecouple. Under such working conditions, the circumferential traction distribution on the screw teethis extremely uneven, which is the main reason for the destruction and short life time ofscrew-pairs. When utilizing the same precision (the relative tolerance is 10X10^(-5)), themultipole-BEM uses almost the same CPU time as used by the FEM, but the needed computer memory sizeis only one eightieth of that needed by the FEM (10 MB vs. 800 MB). The multipole-BEM is well suitedfor computing large-scale engineering problems.

TORSIONAL VIBRATIONS OF A RIGID CIRCULAR PLATE ON SATURATED STRATUM OVERLAYING BEDROCK

The torsional vibration of a rigid plate resting on saturated stratum overlaying bedrock has been analysed for the first time. The dynamic governing differential equations for saturated poroelastic medium are solved by employing the technology of Hankel transform. By taking into account the boundary conditions, the dual integral equations of torsional vibration of a rigid circular plate are established, which are further converted into a Fredholm integral equation of the second kind. Subsequently, the dynamic compliance coefficients of the foundation on saturated stratum, the contact shear stress under the foundation and the angular amplitude of the foundation are evaluated. Numerical results indicate that, when the dimensionless height is bigger than 5, saturated stratum overlaying bedrock can be treated as saturated half space approximately. When the dimensionless frequency is low, the permeability of the soil must be taken into account. Furthermore, when the vibration frequency is a constant, the height of the saturated stratum has a slight effect on the dimensionless contact shear stress under the foundation.

基于电接触强化的铝合金表面电刷镀镍层改性研究

[目的]对铝合金进行表面处理可提高其硬度和耐磨性,拓宽铝合金材料在机械零件方面的应用。[方法]采用电刷镀技术在1060铝合金表面制备Ni镀层,再通过电接触强化技术对Ni镀层进行改性。采用扫描电子显微镜和维氏硬度计考察了Ni镀层电接触强化前后的微观组织和显微硬度。通过摩擦磨损试验对比了1016铝合金及Ni镀层电接触强化前后的耐磨性。[结果]经电接触强化后,Ni镀层内部的裂纹及孔洞类缺陷减少,晶粒间隙减小,致密性提高,显微硬度增大到524.4~560.3 HV0.1范围内。1016铝合金在摩擦磨损试验后存在较深的犁沟和剥落,耐磨性较差。Ni镀层的耐磨性优于1016铝合金,但在摩擦过程中会发生剥落。经电接触强化的Ni镀层在摩擦过程中摩擦因数平稳,表面只是轻微擦伤,耐磨性最佳。[结论]结合电刷镀镍和电接触强化技术可显著提高铝合金的表面性能。

TORSIONAL VIBRATIONS OF RIGID CIRCULAR PLATE ON TRANSVERSELY ISOTROPIC SATURATED SOIL

An analytical method was presented for the torsional vibrations of a rigid disk resting on transversely isotropic saturated soil. By Hankel transform, the dynamic governing differential equations for transversely isotropic saturated poroelastic medium were solved. Considering the mixed boundary-value conditions, the dual integral equations of torsional vibrations of a rigid circular plate resting on transversely isotropic saturated soil were established. By appropriate transform, the dual integral equations were converted into a Fredholm integral equation of the second kind. Subsequently, the dynamic compliance coefficient, the torsional angular amplitude of the foundation and the contact shear stress were expressed explicitly. Selected examples were presented to analyse the influence of saturated soil＇s anisotropy on the foundation＇s vibrations.

Influence of Deposition Temperature on the Electrical and Electrochemical Properties of Carbon-Based Coatings for Metallic Bipolar Plates, Prepared by Cathodic Arc Evaporation

Cathodic arc evaporation is a well-established physical vapor deposition technique which is characterized by a high degree of ionization and high deposition rate. So far, this technique has been mainly used for the deposition of tribological coatings. In this study, anti-corrosive and electrical conductive carbon-based coatings with a metallic interlayer were prepared on stainless steel substrates as surface modification for metallic bipolar plates. Hereby, the influence of the deposition temperature during the deposition of the carbon top layer was investigated. Raman spectroscopy revealed differences in the microstructure at 200°C compared to 300°C and 100°C. Measurements of the interfacial contact resistance showed that the deposited coatings significantly improve the electrical conductivity. There are only minor differences between the different carbon top layers. The corrosion resistance of the coatings was studied via potentiodynamic polarization at room temperature and 80°C. Experiments showed that the coating with a carbon top layer deposited at 200°C, considerably reduces the current density and thus corrosion of the substrate is suppressed.

接触爆炸下聚脲涂层增强钢板的抗爆性能

为满足装甲车等武器装备在接触爆炸下的防护需求,通过实验与数值模拟开展单层钢板及迎/背爆面聚脲增强钢板接触爆炸下的抗爆性能研究,分析不同面密度、不同聚脲涂覆位置下钢板的破坏模式及防护机理,探究在一定面密度下钢板-聚脲厚度比对复合结构抗爆性能的影响。研究结果表明:背爆面涂覆等厚度聚脲能够有效减小钢板背面穿孔及拉伸破坏,降低结构残余位移,迎爆面涂覆等厚度聚脲能够显著增强结构抗爆能力,使接触爆炸下的钢板损伤大大降低;相同面密度下,聚脲吸能性能与聚脲厚度正相关,但是聚脲过厚会导致复合结构变形加大,稳定性降低;综合考虑聚脲增强钢板结构的破坏变形、速度衰减以及能量吸收情况,在研究范围内,钢板迎爆面涂覆厚度比为1∶0.78的聚脲层具有最佳的抗爆性能。

混合板换热器板片结构对流道内触点分布及流动换热性能的影响

混合板式换热器作为余热利用系统中高效节能设备,其换热性能对系统效率及稳定性有重要影响。该研究基于RNG k-?湍流模型,对M型和H型板式换热器流道内流动及传热过程展开数值模拟,研究板片结构对板间触点分布的影响,及雷诺数Re和板片组合对横向流道内流动及换热特性的影响规律。结果表明:M型板间触点呈“方格”,H型呈“菱形”,且H型流流体速度较大、温度场分布较均匀。随Re数增大,压降△P及平均努塞尔数■均增大;Re数较低时,H型的■明显提高,且△P增幅较小;而高Re数(Re=6000)时,与M型相比,H型■的增幅仅为△P的25%左右。随波纹间距s减小,触点数明显增多,△P和■均增大;s为12~16 mm较合适。研究结果为混合板式换热器的设计及优化提供理论依据。

具有低接触电阻的燃料电池双极板用Ti-Al-Ta合金

表面制备涂层后的钛及钛合金作为质子交换膜燃料电池双极板具有优良的综合性能,但裸板在服役过程中会形成导电性不良的钝化膜,降低了整机效率。通过研究α型耐蚀钛合金Ti35(Ti5Ta)及其Al合金化的可行性,在保证耐蚀性的前提下,提高裸板的导电性。利用团簇式成分设计方法,结合相图上的最高固溶度,设计了成分为Ti-7Ta,Ti-8.3Ta,Ti-9.6Ta的三种Ti-Ta合金以及成分为Ti-2.6Al-5.8Ta,Ti-3.8Al-8.6Ta,Ti-5Al-11.3Ta的三种Ti-Al-Ta合金。测试结果可知,在模拟阴极服役环境(0.5 mol/L H_(2)SO_(4)+2×10^(-6)HF)0.6 V(vs.SCE)下恒电位极化4 h,所设计合金阴极极化电流密度均小于参照合金TC4,其中Ti-8.3Ta合金最小为0.72μA·cm^(-2)。在1.5 MPa加载压力下,随着Ta含量的增加,接触电阻(ICR)值逐渐降低,且均优于纯钛和TC4合金,Ti-5Al-11.3Ta合金的ICR值最小,为18.3 mΩ·cm^(-2),其阴极极化电流密度为0.91μA·cm^(-2)。综上表明,Ta和Al的适量添加能够有效提升钛合金双极板的服役性能,有望实现无涂层制备的钛合金双极板材料。

双极板表面润湿性能的研究进展

双极板作为气、水通道,将质子交换膜燃料电池(PEMFC)内部的液态水排出,其原材料选择、表面形貌特征及表面润湿性能都会影响PEMFC内部的水管理。针对调节、改善双极板表面润湿性能的问题,综述双极板的表面润湿性能对PEMFC电流密度与功率密度的影响,以及表面粗糙度对表面润湿性能的影响;介绍通过不同类型的表面涂层改善金属双极板表面润湿性能的方法;对于复合双极板表面润湿性能,详细分析不同树脂类型对表面润湿性能的影响,列举适合复合双极板的表面涂层,同时指出清理双极板表面富树脂层的方法。展望具有较好润湿性能的双极板的研究方向和发展应用。

锁定加压钢板与有限接触动力加压钢板治疗胫骨干骨折后骨不连的效果及安全性比较

目的比较锁定加压钢板(LCP)与有限接触动力加压钢板(LC-DCP)治疗胫骨干骨折后骨不连的效果及安全性。方法60例胫骨干骨折后骨不连患者,按照随机数字表法分为研究组与对照组,每组30例。对照组采用LCP内固定治疗,研究组采用LC-DCP内固定治疗。比较两组临床疗效、围术期指标、术后并发症发生率。结果研究组Johner-Wruhs评分优良率93.33%高于对照组的73.33%(P<0.05)。研究组住院时间(14.82±3.01)d、手术时间(124.21±6.15)min、骨折愈合时间(25.81±3.00)d短于对照组的(18.21±4.52)d、(145.84±7.10)min、(29.20±4.51)d,术后7 d视觉模拟评分法(VAS)评分(4.62±0.05)分低于对照组的(6.42±0.15)分(P<0.05)。研究组术后并发症发生率13.33%低于对照组的36.67%(P<0.05)。结论LC-DCP内固定在胫骨干骨折后骨不连中的临床治疗效果较好,能够显著促进患者骨结构恢复,减轻术后疼痛,改善预后,且治疗安全性和实用性较高。

质子交换膜燃料电池金属双极板表面改性研究进展

质子交换膜燃料电池(PEMFC)在缓解全球能源危机和解决环保难题方面提供了创新性的解决方案。在PEMFC中,双极板作为关键组件备受关注。其中,金属双极板因其成本低廉、材料容易获取、导电性能卓越以及易于机械加工而备受关注。然而,金属双极板目前仍然面临耐久性和导电性方面的挑战。为解决这些问题,通常采用表面改性涂层的方法对金属双极板进行处理。综述了近年来关于金属双极板表面改性涂层的研究进展,涵盖了材料设计、沉积工艺和涂层性能等多个方面。在此基础上,基于导电性、耐蚀性、膜基结合力以及疏水性等测试结果,分析了不同涂层对金属双极板表面改性效果的影响。同时,展望了各种类型改性涂层未来的研究趋势。这些研究成果为改善金属双极板的性能、进一步推动PEMFC表面改性技术的发展提供了有益的指导和启示。