某地铁U型梁结构辐射噪声分析预测及其降噪研究

城市轨道交通成为人们出行的主要交通方式,轨道交通噪声产生的问题有待解决。文章以某城市地铁线路为研究对象,现场实测列车经过时产生的振动和噪声,主要分析U型梁振动产生的低频结构辐射噪声并建立声学预测模型。在分析实测数据同时对减振降噪措施效果进行了分析,由于结构辐射噪声主要在低频段,故振动分析频段为4~200 Hz,结构辐射噪声分析频段为20~200 Hz。结果表明,梁体振动与辐射噪声有很强的关联性,变化规律基本一致;安装钢轨波导消振吸声器前后,底板振级和辐射声压级都降低5~8 dB左右,有明显减振降噪作用;U型梁结构振动的辐射噪声在梁体周围的传播有很强的指向性,梁体正上方与正下方声压级最大,但腹板外侧声压级相对较小。

基于分布光度计测量演艺灯具光学参数与标准化探讨

基于我国演艺灯具现状,分析和梳理现行国家标准、行业标准、团体标准的标准现状和特点。根据现行标准测试演艺灯具光学参数相对滞后的现状,提出应用分布光度计测量演艺灯具光学参数,并通过实验证明方法可行性,提出注意事项并分析存在问题。

双一流视域下网络安全人才培养研究——以江苏省为例

面对新安全态势中网络安全人才培养发展的机遇和挑战,基于江苏省开设网络安全相关专业的本科类院校开展问卷调研,从布点规模、培养层次、课程体系等8个方面进行多维分析和比较研究,从政治保障、师资保障、社会保障、经费保障4个方面探索江苏省在“双一流”建设环境中网络安全人才培养的有效路径。

二胎护士产后返岗工作风险因素分析与干预措施探究

目的:探讨与分析二胎护士产后返岗工作风险因素,并探究相关干预措施。方法:采用便利抽样法,选择2021年1月至2021年11月本院的二胎产后返岗护士30例作为研究对象,调查所有护士的一般资料、工作风险并进行多因素分析,提出了相应的干预措施。结果:在30例护士中,工作量与时间分配、工作环境及仪器设备、患者护理、护理专业与工作、管理及人际关系的工作风险维度评分为(3.09±0.25)分、(2.87±0.14)分、(3.01±0.21)分、(2.68±0.18)分、(2.78±0.28)分。多元线性回归分析显示学历、职称、返岗时间、值夜班等为影响二胎护士产后返岗工作风险的重要因素(P<0.05)。干预后工作量与时间分配、工作环境及仪器设备、患者护理、护理专业与工作、管理及人际关系等工作风险维度评分为(1.04±0.11)分、(1.24±0.23)分、(1.53±0.15)分、(1.14±0.22)分、(1.32±0.11)分。结论:二胎产后返岗护士在工作中容易出现各种风险,学历、职称、返岗时间、值夜班为影响二胎护士产后返岗工作风险的重要因素,需针对这4个重要因素,增加详细的管理对策,从多方面提高二胎产后返岗护士的返岗适应水平。

基于车载平台的人工辅助型照度检测车设计

发光二极管(light emitting diode,LED)路灯较传统路灯降低功耗的同时照度随之降低,若LED路灯质量不达标,则会进一步降低路面照度。为此研发基于车载平台的人工辅助型照度检测车设计,该系统检测流程根据国标制定,能实时准确采集路面水平面照度、移动距离,结合高性能中央处理器,具备传感数据采集、处理、存储、远程传输等功能。为实现直观监测,开发智能手机应用程序(application,APP)平台,远程无线监测传感数据。结果表明车载平台相比于传统人工检测节省66.67%时间,同时用平均照度相对误差低于1.81%,提高检测效率。

改良早期预警评分表在新生儿病房病情观察中的应用

目的运用改良新生儿早期预警评分表,识别新生儿病情恶化信号,及时采取相关治疗措施,改善治疗结局。方法选取2016年在郑州大学第三附属医院新生儿病房住院的患儿2563例为研究对象,其中1~6月住院患儿为对照组,7~12月住院患儿为观察组,对比分析两组间患儿病情恶化、转入新生儿重症监护室(NICU)的发生率和治疗结局,比较预警评分表应用前后医生对护士呼叫时机的满意度。结果观察组与对照组患儿病情恶化发生率差异无统计学意义(P>0.05),转入NICU的发生率差异无统计学意义(P>0.05),但治疗结局差异有统计学意义(P<0.05);改良早期预警评分最佳界值为2.5分,其识别新生儿病情恶化灵敏度为84.9%,特异度为86.2%;医生对护士呼叫时机的满意度差异有统计学意义(P<0.05)。结论在新生儿病情观察中应用改良早期预警评分表,可以帮助不同年资护士早期识别病情恶化信号,提高监护质量,改善治疗结局,具有临床推广价值。

赋能心理护理干预在癫痫患儿直接照顾者中的应用

目的:分析赋能心理护理干预对癫痫患儿直接照顾者负性情绪、心理韧性及生活质量的影响。方法:选取2019年9—12月安徽省儿童医院神经内科收治的150例癫痫患儿的直接照顾者150名作为研究对象,采用随机数字表法分为对照组(n=74)和试验组(n=76),对照组给予常规心理护理,试验组给予赋能心理护理,比较两组患儿直接照顾者的负性情绪、心理韧性、生活质量。结果:干预后试验组患儿直接照顾者的SAS、SDS得分均低于对照组,WHO生活质量测定量表、成人心理弹性量表得分高于对照组,差异均有统计学意义(P<0.05)。结论:赋能心理护理能改善癫痫患儿直接照顾者的心理状态,提高其心理韧性和生活质量。

Highly efficient pure white polymer light-emitting devices based on poly(N-vinylcarbazole) doped with blue and red phosphorescent dyes

Efficient white-polymer-light-emitting devices (WPLEDs) have been fabricated with a single emitting layer containing a hole-transporting host polymer,poly(N-vinylcarbzole),and an electron-transporting auxiliary,1,3-bis[(4-tert-butylphenyl)-1,3,4-oxadiazolyl]-phenylene,codoped with two phosphorescent dyes:Iridium(III)bis (2-(4,6-difluorophenyl)-pyridinato-N,C2') picolinate (FIrpic) and home-made Ir-G2 for blue and red emission,respectively.With the structure of ITO/PEDOT:PSS 4083(40 nm)/emission layer(80 nm)/Ba(4 nm)/Al(120 nm),the device showed a maximal luminous efficiency (LE) of 13.5 cd A-1(corresponding to an external quantum efficiency (EQE) of 6.8%),and a peak power efficiency (PE) of 6.5 lm W-1 at 6.0 V.Meanwhile,the device exhibited pure white emission with Commission Internationale de l'Eclairage (CIE) coordinates of (0.34,0.35) at a current density of 12 mA cm-2,which is very close to the equi-energy white point with CIE coordinates of (0.33,0.33).The device performance can be further optimized when more balanced hole/electron injection is achieved by incorporating a lower conducting type anode buffer layer (PEDOT:PSS) and incorporating poly[(9,9-bis(3'-(N,N-dimethylamino)propyl)-2,7-fluorenene)-alt-2,7-(9,9-dioctyfluorene)] (PFN) as an electron injection layer at the cathode.The optimized device showed an LE of 24.6 cd A-1 (with an EQE of 14.1%),while the peak power efficiency reached 12.66 lm W-1.Moreover,the WPLEDs showed good electroluminescence (EL) stability over a wide range of operating current density and luminance.

Electroluminescence performances of 1,1-bis(4-(N,N-dimethylamino)phenyl)-2,3,4,5-tetraphenylsilole based polymers in three cathode architectures

A new silole monomer with two 4-（N,N-dimethylamino）phenyl substitutions on silicon atom as designed and synthesized. Three copolymers PF-N-HPS1, PF-N-HPS10 and PF-N-HPS20 were then obtained by copolymerizations of 2,7-fluorene deriva- tives with the silole monomer at feed ratios of 1%, 10%, and 20%. Their UV-vis absorption, electrochemical, photolumines- cent, and electroluminescent （EL） properties were investigated. PF-N-HPS possessed HOMO levels of -5.25-5.58 eV, and showed green emissions. Using PF-N-HPS as the emissive layer, three different polymer light-emitting diodes were fabricated as device A with ITO/PEDOT/PF-N-HPS/A1, device B with ITO/PEDOT/PF-N-HPS/Ba/A1, and device C with ITO/PEDOT/ PF-N-HPS/TPBI/Ba/A1. For the device A, PF-N-HPS only showed very low EL efficiency of 0.06-0.33 cd/A, indicating that the A1 cathode could not inject electron efficiently to the emissive polymers containing the 4-（N,N-dimethylamino）phenyl groups. For the device B, low work function Ba supplied better electron injections, and the EL efficiency could be improved to 0.85-1.44 cd/A. TPBI with a deep HOMO level of -6.2 eV could enhance electron transport and hole blocking. Thus modi- fied recombinations and largely elevated EL efficiency of 4.56-7.96 cd/A were achieved for the device C. The separation of the emissive layer and metal cathode with the TPBI layer may also suppress exciton quenching at the cathode interface.