弯曲速度对弯管壁厚变化的影响

采用不同弯曲速度对5A06和1Cr18NiTi管进行了旋转弯曲试验和有限元模拟。分析后指出,弯曲速度对弯曲内侧管壁变形影响较大,弯曲内侧切向应力、应变及管壁增厚率均随弯曲速度增大而增大。同时,内侧管壁增厚对弯曲速度的敏感性具有随原始壁厚的增大而减小的变化趋势。薄壁管在过大弯曲速度下成形时,内侧因材料流动受阻滞易发生失稳起皱。

人工晶状体材质和后表面形态对囊袋弯曲速度的影响

目的:客观评价晶状体材质、后表面形态对囊袋弯曲速度的影响。方法:非随机化临床试验。根据植入人工晶状体的不同,将老年性白内障患者分为三组,A1-UV组15例15眼,AO组15例15眼,IQ组15例15眼。分别在术后1d,1、2、4wk,通过裂隙灯观察术眼的上、下、左、右四个方位囊袋与人工晶状体边缘贴合程度。结果:术后1d囊袋弯曲系数,A1-UV组为3.34±0.22,AO组为3.00±0.19,IQ组为3.45±0.42,三组的囊袋弯曲系数的差异有统计学意义(χ2=16.55,P<0.05)。对三组的临床疗效进行两两比较,发现A1-UV组和AO组的差异有统计学意义(χ2=12.02,P<0.05),A1-UV组和IQ组的差异无统计学意义(χ2=0.01,P>0.05),AO组和IQ组的差异有统计学意义(χ2=12.79,P<0.05)。术后1wk囊袋弯曲系数,A1-UV组为4.01±0.04,AO组为3.08±0.26,IQ组为3.50±0.44,三组的囊袋弯曲系数的差异有统计学意义(χ2=29.07,P<0.05)。对三组的临床疗效进行两两比较,发现A1-UV组和AO组的差异有统计学意义(χ2=28.64,P<0.05),A1-UV组和IQ组的差异有统计学意义(χ2=10.53,P<0.05),AO组和IQ组的差异无统计学意义(χ2=4.44,P>0.05)。术后2wk囊袋弯曲系数,A1-UV组为4.04±0.08,AO组为3.15±0.32,IQ组为3.53±0.47,三组的囊袋弯曲系数的差异有统计学意义(χ2=27.49,P<0.05)。对三组的临床疗效进行两两比较,发现A1-UV组和AO组的差异有统计学意义(χ2=26.69,P<0.05),A1-UV组和IQ组的差异有统计学意义(χ2=11.28,P<0.05),AO组和IQ组的差异无统计学意义(χ2=3.27,P>0.05)。术后4wk囊袋弯曲系数,A1-UV组为4.04±0.08,AO组为3.16±0.36,IQ组为3.65±0.46,三组的囊袋弯曲系数的差异有统计学意义(χ2=25.14,P<0.05)。对三组的临床疗效进行两两比较,发现A1-UV组和AO组的差异有统计学意义(χ2=25.15,P<0.05),A1-UV组和IQ组的差异有统计学意义(χ2=7.11,P<0.05),AO组和IQ组的差异无统计学意义(χ2=5.52,P>0.05)。结论:囊袋弯曲速度受晶状体材质、后表面形态的共同影响。术后1d,影响囊袋弯曲速度的主要因素是人工晶状体的材质,疏水性丙烯酸酯人工晶状体可以加快囊袋弯曲速度。术后1~4wk,材质因素的影响减弱,影响囊袋弯曲速度的主要因素是人工晶状体的机械结构。具有高后凸形态的人工晶状体能够快速形成囊袋弯曲,加快囊袋与人工晶状体的黏附,减少晶状体上皮细胞向后囊迁移、增殖的时间,具有重要的临床应用价值。

金属薄壁导管弯曲过程中的应力分析与优化

本文研究在探究金属薄壁导管在弯曲过程中的应力分布与优化方法。采用ICr18Ni9Ti-G管材,利用数控弯管机进行弯曲操作。通过矢量激光测量仪,获取不同弯曲半径、压膜压力、弯曲速度、压膜助推压力下金属薄壁导管的矢量数据,并计算导管弯曲过程中的应力值。实验结果表明,弯曲半径、压膜压力、弯曲速度、压膜助推压力对金属薄壁导管弯曲过程中的应力具有显著影响。优化后的参数组合为:弯曲半径140mm,压膜压力1900N,弯曲速度0.95mm/s,压膜助推压力1800N。在此参数下,金属薄壁导管弯曲过程中的应力最小,从而提高了导管弯曲的质量。因此,建议在实际生产中采用上述优化参数,以确保金属薄壁导管的质量和安全性。

基于弹道弯曲角速度单矢量的制导炮弹滚转角空中粗对准方法

制导炮弹内弹道呈现高转速、大过载的特点,其导航坐标系统滚转通道无法进行初始对准。针对以上难点问题,根据无控段飞行特性,提出一种基于弹道弯曲角速度矢量的滚转角空中粗对准方法。在无需卫星、机动辅助的条件下,利用重力引起的弹道弯曲角速度矢量作为基准,通过单矢量定姿实现滚转角对准。为消除低精度陀螺仪的零偏、轴偏角等误差的影响,分析了弹体姿态运动测量信息的频域特性,利用FIR带通滤波器提取角速率陀螺信息中弹体滚转频点处的有用分量,并采取对准起始时刻冻结弹体坐标系下的积分策略,平滑随机测量噪声,从而提高对准精度。通过数学仿真手段,探究了惯性陀螺误差对对准精度的影响。数学仿真结果表明:该方法仅利用低精度角速率陀螺即可实现在无控段快速粗对准滚转角,误差在1°左右;在飞行搭载试验中,滚转角对准误差可控制在2°以内。

0Cr18Ni9管材大曲率无芯弯曲回弹研究

为了提高管材回弹后的质量,初步建立了管材大曲率无芯弯曲回弹角的预测模型。同时建立了管材弯曲回弹模拟模型,基于ABAQUS数值模拟和实验对0Cr18Ni9管材进行大曲率无芯弯曲(相对弯曲半径为1.5),验证了模拟模型的可靠性。研究了弯曲角、弯曲速度及壁厚等工艺参数对管材弯曲回弹的影响。结果表明:管材弯曲回弹是一个应力释放的过程,弯曲角对回弹影响最大,壁厚次之,弯曲速度影响最小;回弹角随弯曲角度的增大而增大;回弹角随壁厚增大而减小;弯曲速度与回弹角成正相关关系,回弹角随弯曲速增大而增大。

脆性细长杆弯曲断裂成多截的实验研究——以面条为样品

脆性细长杆弯曲断裂时总是断裂成三截或多截,为了解释这种有趣的现象,笔者进行了实验研究。明确了脆性杆弯曲断裂为多段的原因后,进一步分析了控制脆性细长杆弯曲断裂次数的方法。实验以面条为样品,作为脆性细长杆的代表。实验研究表明:面条弯曲断裂后,会产生横向自由振动,其中二阶振动是面条继续断裂的主要原因。所以要控制面条的断裂次数,必须要控制其自由振动的剧烈程度,研究发现,缓慢的弯曲速度可以使面条的横向振动明显减弱,使得面条仅仅断裂为两截,而快速弯曲面条,可以使面条的断裂次数增加;另外,通过预扭转变形可以使圆形面条断裂后的振动减弱,使得圆形面条仅仅断裂为两截,而预扭转却使矩形截面的面条断裂后的振动更加剧烈,使得面条断裂次数增加。虽然研究的是面条的弯曲断裂问题,但实验结果具有普遍性,为解决各种脆性细杆的弯曲断裂和预扭转弯曲断裂问题提供了参考,也提供了控制脆性细长杆弯曲断裂次数的方法。

高后凸形态和普通形态人工晶状体的对比研究

目的观察高后凸形态人工晶状体对后光学面-囊膜黏附程度以及囊袋内稳定性的影响。方法术后1天、1周、2周、4周随访,观察人工晶状体后光学面与后囊膜的贴附比例,光学面边缘处的囊袋弯曲速度,偏心量和倾斜度。结果术后1天、1周、2周、4周,贴附比例、囊袋弯曲速度、偏心量的组间差异均有统计学意义(P<0.05)。术后1天,倾斜度的组间差异无统计学意义(P>0.05);术后1周、2周、4周,倾斜度的组间差异有统计学意义(P<0.05)。ZCB00组的囊袋弯曲速度与偏心量在术后1天、1周、4周均呈负相关,贴附比例与倾斜度在术后1天、1周、2周、4周均呈负相关。结论高后凸形态人工晶状体更适合囊袋形状,植入后可明显增大后光学面与后囊膜的贴附面积,加快光学面边缘的囊袋弯曲速度,提高人工晶状体在囊袋内的居中性和倾斜稳定性。

小直径厚壁管回弹的有限元仿真及试验

小直径厚壁管广泛应用于汽车备胎支架、汽车进气管和排气管等关键部件。回弹是影响弯曲件成形精度的主要因素之一,同时也是弯曲模具和弯曲工艺设计的关键问题之一。通过有限元软件Abaqus模拟了弯曲角度、弯曲半径、弯曲速度、壁厚对回弹的影响,得出了对回弹的影响曲线,并且做了相应的实验验证,这能为弯管机的工艺参数提供理论参考。

Surface-mounted bender elements for measuring horizontal shear wave velocity of soils

The bender element testing features its in-plane directivity, which allows using bender elements to measure the shear wave velocities in a wider range of in-plane configurations besides the standard tip-to-tip alignment. This paper proposed a novel bender element testing technique for measuring the horizontal shear wave velocity of soils, where the bender elements are surface- mounted and the axes of the source and receiver elements are parallel to each other. The preliminary tests performed on model ground of silica sand showed that, by properly determining the travel distance and time of the shear waves, the surface-mounted bender elements can perform as accurately as the conventional "tip-to-tip" configuration. Potentially, the present system provides a promising nondestructive tool for characterizing geomaterials and site conditions both in laboratory and in the fields.

Effect of loading rate on fracture characteristics of rock

The three-point bending experiments were applied to investigating effects of loading rates on fracture toughness of Huanglong limestone. The fracture toughness of Huanglong limestone was measured over a wide range of loading rates from 9 × 10-4 to 1.537 MPa.m1/2/s. According to the approximate relationship between static and dynamic fracture toughness of Huanglong limestone, relationship between the growth velocity of crack and dynamic fracture toughness was obtained. The main conclusions are summarized as follows. （1） When the loading rate is higher than 0.027 MPa-ml/2/s, the fracture toughness of Huanglong limestone increases markedly with increasing loading rate. However, when loading rate is lower than 0.027 MPa-ml/2/s, fracture toughness slightly increases with an increase in loading rate. （2） It is found from experimental results that fracture toughness is linearly proportional to the logarithmic expression of loading rate. （3） For Huanglong limestone, when the growth velocity of crack is lower than 100 m/s, the energy release rate slightly decreases with increasing the growth velocity of crack. However, when the growth velocity of crack is higher than 1 000 m/s, the energy release rate dramatically decreases with an increase in the crack growth velocity.

Molecular dynamics analysis on bending mechanical behavior of alumina nanowires at different loading rates

The molecular dynamics(MD)model ofα-Al_(2)O_(3) nanowires in bending is established by using LAMMPS to calculate the atomic stress and strain at different loading rates in order to study the effect of loading rate on the bending mechanical behaviors of theα-Al_(2)O_(3) nanowires.Research results show that the maximum surface stress−rotation angle curves ofα-Al_(2)O_(3) nanowires at different loading rates are all divided into three stages of elastic deformation,plastic deformation and failure,where the elastic limit point can be determined by the curve symmetry during loading and unloading cycle.The loading rate has great influence on the plastic deformation but little on the elastic modulus ofα-Al_(2)O_(3) nanowires.When the loading rate is increased,the plastic deformation stage is shortened and the material is easier to fail in brittle fracture.Therefore,the elastic limit and the strength limit(determined by the direct and indirect MD simulation methods)are closer to each other.The MD simulation result ofα-Al_(2)O_(3) nanowires is verified to be valid by the good agreement with the improved loop test results.The direct MD method becomes an effective way to determine the elastic limit and the strength limit of nanoscale whiskers failed in brittle or ductile fracture at arbitrary loading rate.

AN EXPERIMENTAL STUDY ON DYNAMIC FRACTURE SPEED

This paper deals with an experimental study on dynamic fracture speed of three point bending specimen and cylindrical specimen made of epoxy resin by means of silver conductive painting grid. According to the test results ,the relations between fracture load ,fracture speed and loading speed are discussed and the features of final fracture surfaces are analysed in detail.

Analysis and Improvement of Standing-Up Action for Elderly People from a Chair Using a Cushion-Type Support Tool

This paper reports the problems that elderly people have when they stand up from a chair, and proposes an adequate standing-up procedure that solves these problems. The important points for an adequate standing-up procedure are ＂leaning the upper body forward＂ and ＂pulling the legs to the side＂. Furthermore, this paper proposes a standing-up support tool. The characteristics of the support tool are a cushion-type shape with an adjustable flange and an air-pressure-driven mechanism. When the proposed standing-up procedure and support tool are applied to elderly people, the measured values related to standing-up, such as maximum acceleration, arm force, standing-up time, heel position and forward-bending angle, are improved. Furthermore, elderly people felt that it made the standing-up action easy. We could confirm the effectiveness of the proposed standing-up procedure and support tool.

A Study on Viscoelastic Fluid Flow in a Square-Section 90-Degrees Bend

It is well known that the drag-reducing effect is obtained in a surfactant solution flow in a straight pipe. We investigate about a viscoelastic fluid flow such as a surfactant solution flow in a square-section 90° bend. In the experimental study, drag-reducing effect and velocity field in a surfactant solution flow are investigated by measurements of wall pressure loss and LDV measurements. For the numerical method, LES with FENE-P model is used in the viscoelastic fluid flow in the bend. The flow characteristics of viscoelastic fluid are discussed compared with that of a Newtonian fluid.

Pressure Wave and Fluid Velocity in a Bend-Mode Inkjet Nozzle with Double PZT Actuators

A new concept of bend-mode inkjet nozzle with double PZT (lead zirconate titanate) actuators has been designed and fabricated in the present study. Then the pressure wave and fluid velocity at the nozzle exit have been investigated. The complex pressure behavior inside the channel was solved numerically based on the narrow channel acoustic theory. The two PZTs attached to a rectangular channel were actuated sequentially by setting the waveforms of each PZT to be center-aligned with various pulse widths. As a result, the double PZT actuation is superior to the single PZT actuation in view of strong momentum force and fast dissipation of residual pressure. The maximum fluid velocity at the nozzle exit is observed when the respective pulse widths equal to their optimum pulse widths. The numerical results are supported by the experimental results with the fabricated inkjet device by measuring the speed of meniscus just out of the nozzle.