某悬挂球幕结构设计分析

某场馆采用框架-剪力墙结构,于场馆中庭悬挂直径16 m的展馆球体。采用通用分析有限元软件SAP2000作为主要分析软件,重点考察球体拉杆在各设计工况下的位移与构件应力比、某一拉杆断裂后其余拉杆的设计内力及变形、球幕内楼板舒适度分析。对受拉节点进行有限元分析并加强支座环梁,各项测算均满足要求^([1-3]),从设计分析层面保证了悬挂球幕的可行性。

羽毛球教学的辅助练习:击打悬挂球

击打悬挂球作为一种教学方法，其击球位置明确、相对稳定的特点，使其在运动技术形成的初级阶段被广泛采用。笔者结合自身训练体验及教学经历分析得出：其对于整个羽毛球教学及运动技能形成的各阶段均具有较强的辅助作用。本文以高远球技术动作教学为例，对击打悬挂球在中小学羽毛球教学中的辅助作用进行阐述，为促进中小学羽毛球教学效果的提高作一定尝试。

球悬挂取心技术

常规松软地层取心时,取心工具采用销钉悬挂内岩心筒,在工具入井时经常出现失效。研制了取心工具的悬挂新结构———球悬挂。该结构内筒的重量不直接作用在销钉上,而是作用在钢球上。钢球的承载能力大,可以避免提前释放内筒组合,防止取心作业失败。简要阐述了该工具的结构和室内及现场试验情况,通过各项试验证实工具结构可行,并提出工具的今后发展方向。

两个悬挂慢放电小球的“负反馈”运动(英文)

引进一个对于求解某些物理问题有用的实函Va（x）．作为应用实例，讨论了两个悬挂慢放电小球的运动，并用实函Va（x）给出了动力学方程的带有高精度的近似解．对于小球运动的一些有趣的性质进行了分析．

GE Definium 6000数字X线机故障维修分析3例

本文通过对GE Definium 6000数字X线机球管悬挂系统和电动床相关3例故障进行分析,为同类设备的维修提供参考。本文分析的GE Definium 6000数字X线机故障包括球管跟踪故障、电动床控制脚踏失灵、电动床无法升降3种,通过更换备件,相关故障得到解决。DR等大型设备结构复杂,机械结构和电子元器件数量多,随着使用年限的增长,容易发生故障,本文通过对维修案例进行详细分析,使得维修人员对球管悬挂系统和电动床的结构有了深入了解。

SL Rmb-8100型取心工具的研制与应用

常规取心过程中,钻井液会污染岩心,导致地层孔隙度、油水饱和度等数据失真。为此,研制了SL Rmb-8100型取心工具。该工具吸收了国内外松软地层密闭取心工具的优点,采用三筒三动整体密闭方式,将保形取心技术与密闭取心技术有机地结合在一起,并采用球悬挂、机械加压的割心方式,结构简单、可靠,大大提高了割心成功率,有效提高了松软地层的岩心收获率和密闭率。用SL Rmb-8100型取心工具在面1-9-63井取心9筒,总进尺53.58 m,心长51.56 m,收获率96.23%,密闭率87.10%,平均机械钻速达到12.16 m/h,各项指标均超过设计要求。

思维定势造成错解的典型例题分析

我们在解物理题时常常会遇到与原来做过的十分相似的题目,或者是表面上看起来相同的题目,但实际上是不相同的题目,具有“形似而神异”的特点,这样的题目我们称之为熟题.遇到这样的熟题时我们往往会下意识的进行思路迁移,不由自主地会沿着原来的解题思路去求解,从而导致错解.实际上这是一种惯性思维,我们称之为思维定势.下面通过五组典型的例题来加以例证思维定势造成的错解.

Rapid assessment of DNA damage induced by polystyrene nanosphere suspension using a photoelectrochemical DNA sensor

Nanomaterials have been used increasingly in a wide variety of applications, and some of them have shown toxic effects on experimental animals and cells. In this study, a previously established photoelectrochemical DNA sensor was employed to rapidly detect DNA damage induced by polystyrene nanosphere （PSNS） suspensions. In the sensor, a double-stranded DNA film was assembled on a semiconductor electrode, and a DNA intercalator, Ru（bpy）2（dppz）2＋ （bpy = 2,2＇-bipyridine, dppz = dipyrido[3,2-a：2＇,3＇-c]phenazine） was used as the photoelectrochemical signal indicator. After the DNA-modified electrode was exposed to 2.0 mg/mL PSNS suspension, photocurrent of DNA-bound Ru（bpy）2（dppz）2＋ decreased by about 20%. The decrease is attributed to the chemical damage of DNA and consequently less binding of Ru（bpy）2（dppz）2＋ molecules to the electrode. Gel electrophoresis of DNA samples incubated with PSNS suspension confirmed DNA damage after the chemical exposure. However, in both photoelectrochemical and gel electrophoresis experiments, extensively washed PSNS did not induce any DNA damage, and the supernatant of PSNS suspension exhibited comparable DNA damage as the unwashed PSNS suspension. Furthermore, UV-visible absorption spectrum of the supematant displayed a pattern very similar to that of styrene oxide （SO）, a compound which has been shown to induce DNA damage by forming covalent DNA adducts. It is therefore suggested that styrene oxide and other residual chemicals in the PSNS may be responsible for the observed DNA damage. The results highlight the importance of full characterization of nanomaterials before their toxicity study, and demonstrate the utility of photoelectrochemical DNA sensors in the rapid assessment of DNA damage induced by chemicals and nanomaterials.