饲料加硼对摄入过量氟的实验大鼠骨损伤的预防作用

目的探讨饲料加硼对过量氟摄入的大鼠骨损伤的预防作用。方法24只4-5周龄Sprague-Dawley(SD)大鼠分为:对照组(喂饲基础饲料,饮蒸馏水)、过量氟组[喂饲基础饲料,饮含100mg/LF-(氟化钠221mg/L的蒸馏水)]、硼预防组(喂饲加硼饲料,饮含100mg/LF-的蒸馏水)。实验3月后测量大鼠血清氟、硼含量及血清碱性磷酸酶(alkaline phosphatase,AKP)活性、骨氟和骨总RNA含量、胫骨纵径横径和干重及骨密度(bone mineral density,BMD),并检测大鼠股骨生物力学特性。结果和对照组比较,过量氟组大鼠血清氟、骨氟含量和血清AKP活性显著增高;骨总RNA含量、全身骨骼平均BMD和胫骨BMD降低;胫骨纵径、横径和干重减小;股骨最大负荷减低,最大形变增加。相比过量氟组,硼预防组大鼠血清氟和骨氟含量及AKP活性明显下降;骨总RNA含量、全身骨骼平均BMD、腰椎和胫骨BMD显著增高;胫骨纵径、横径和干重,股骨最大负荷明显增加。3组大鼠血清硼含量无显著性差异。结论大鼠摄入过量氟可出现明显的骨损伤,饲料加硼对此有一定的预防作用。     

海底埋设管线平管起吊运动分析

基于有限元软件OrcaFlex,充分考虑不规则波浪、海流、管土相互作用以及船舶管线耦合运动,建立海底埋设管线平管起吊模型。参考DNV-RP-F110计算埋深管道受到的土壤阻力,依据DNV-RP-C205确定相关水动力系数。通过数值模拟研究分析管线在平管起吊过程中管道的运动响应以及吊绳张力的时间历程变化,为实际海底管线平管起吊提供一定理论参考。     

Application of H infinite control to ship steering system

1Introduction Whensailinginwaves,thestateofshipsteeringisina constantdirectionmostly.Intheconditionofexisting thedisturbanceofwave,windandflow,theship shouldkeepacertainheadingprecisionunderthecon trolofauto pilot.Alongwiththevariationofshipload condition…     

公路隧道安全模糊评价方法

分析了公路隧道安全评价方法,针对公路隧道事故的多发性及其安全的重要性,提出对于公路隧道安全这个复杂的多因素、多变量、多层次的人机系统,运用模糊数学方法进行安全评价,建立评价模型,并运用该模型对运营中的公路隧道进行安全评价,得到了符合实际的安全现状评价结果。     

基于设施属性的城市轨道交通融资模式

以项目区分理论为理论基础,从轨道交通的基本属性入手,按照可经营性和可拆分性对轨道交通基本设施进行分类,对不同属性的设施进行组合.按照所有权和经营权是否转移,将各种适用于轨道交通的融资方式进行分类;并将两者进行匹配,提出了符合轨道交通客观发展规律、可供轨道交通建设发展采用的多元化融资模式及其评价方法.     

Virtual prototype simulation on underwater hydraulic impingement shovel

The virtual prototype technology is applied to the design of the hydraulic impingement shovel, which is to increase the reliability of the design. The work principle of hydraulic impingement shovel is expatiated, and its dynamic equations are established. The 3D model of virtual prototype is built by PRO/E. Then the couple between the mechanical body of prototype and the hydraulic system is completed by virtue of ADAMS. Finally, the simulation is made on the virtual prototype. The simulation results show that the design of underwater hydraulic impingement shovel is rational. The virtual prototype technology could lay sound foundation of successful manufacturing of physical prototype for the first time and offer highly effective and feasible means for the design and production of underwater equipments.     

Experimental study on the width of the turbulent area around bridge pier

At present, the method of calculating the turbulent flow width around the bridge pier is not given in the "Standard for Inland River Navigation" (GB50139-2004) in China, and the bridge designer usually increases the bridge span in order to ensure the navigation safety, which increases both of the structural design difficulty and the project investments. Therefore, it is extremely essential to give a research on the turbulent flow width around the bridge pier. Through the experiments of the fixed bed and the mobile bed, the factors influencing the turbulent flow width around the bridge pier have been analyzed, such as the approaching flow speed, the water depth, the angles between the bridge pier and the flow direction, the sizes of bridge pier, the shapes of the bridge pier, and the scouring around the bridge pier, etc. Through applying the dimension analytic method to the measured data, the formula of calculating the turbulent flow width around the bridge pier is then inferred.     

A second order volume of fluid （VOF） scheme for numerical simulation of 2-D breaking waves

Among all environmental forces acting on ocean structures and marine vessels, those resulting from wave impacts are likely to yield the highest loads. Being highly nonlinear, transient and complex, a theoretical analysis of their impact would be impossible without numerical simulations. In this paper, a pressure-split two-stage numerical algorithm is proposed based on Volume Of Fluid (VOF) methodology. The algorithm is characterized by introduction of two pressures at each half and full cycle time step, and thus it is a second-order accurate algorithm in time. A simplified second-order Godunov-type solver is used for the continuity equations. The method is applied to simulation of breaking waves in a 2-D water tank, and a qualitative comparison with experimental photo observations is made. Quite consistent results are observed between simulations and experiments. Commercially available software and Boundary Integral Method (BIM) have also been used to simulate the same problem. The results from present code and BIM are in good agreement with respect to breaking location and timing, while the results obtained from the commercial software which is only first-order accurate in time has clearly showed a temporal and spatial lag, verifying the need to use a higher order numerical scheme.     

Using a SVM to evaluate damage to vibration isolators in an elastic raft system

Predicting damage to vibration isolators in a raft experiencing heavy shock loadings from explosions is an important task when designing a raft system. It is also vital to be able to research the vulnerability of heavily shocked floating rafts unreliable, especially when the allowable values The conventional approach to prediction has been or ultimate values of vibration isolators of supposedly uniform standard in a raft actually have differing and uncertain values due to defective workmanship. A new model for predicting damage to vibration isolators in a shocked floating raft system is presented in this paper. It is based on a support vector machine（SVM）, which uses Artificial Intelligence to characterize complicated nonlinear mapping between the impacting environment and damage to the vibration isolators. The effectiveness of the new method for predicting damage was illustrated by numerical simulations, and shown to be effective when relevant parameters of the model were chosen reasonably. The effect determining parameters, including kernel function and penalty factors, has on prediction results is also discussed. It can be concluded that the SVM will probably become a valid tool to study damage or vulnerability in a shocked raft system.     

Study on launch dynamics of the tank marching fire

As an army main battle equipment, it is required that the tank should have high firing accuracy and high first round hit probability during marching. The initial disturbance of the projectile is the premier factor that takes effect on the marching fire accuracy of the tank. And the marching fire accuracy of the tank depends on the launch dynamics behaviors of the tank. In this paper, the launch dynamics theory of a tank marching fire is studied, and its launch dynamics model is established. Based on the transfer matrix method for multibody system(MSTMM) and the automatic deduction theorem of overall transfer equations, the overall transfer equation and the overall transfer matrix of a tank multibody system are deduced; the launch dynamics equations of the tank marching fire are deduced, and the dynamic response of the tank system, the motion of projectile in barrel, the initial disturbance of the projectile and the vertical target dispersion are exactly simulated; meanwhile, the results of simulation are verified by tests. This work provides both theoretical foundation and simulation approaches for improving the marching fire accuracy of the tank.