Phase II Clinical Study of Three-Dimensional Printed Coplanar Template Combined with CT-Guided Percutaneous Core Needle Biopsy of Pulmonary Nodules in Elderly Patients

Background: As the population age structure gradually ages, more and more elderly people were found to have pulmonary nodules during physical examinations. Most elderly people had underlying diseases such as heart, lung, brain and blood vessels and cannot tolerate surgery. Computed tomography (CT)-guided percutaneous core needle biopsy (CNB) was the first choice for pathological diagnosis and subsequent targeted drugs, immune drugs or ablation treatment. CT-guided percutaneous CNB requires clinicians with rich CNB experience to ensure high CNB accuracy, but it was easy to cause complications such as pneumothorax and hemorrhage. Three-dimensional (3D) printing coplanar template (PCT) combined with CT-guided percutaneous pulmonary CNB biopsy has been used in clinical practice, but there was no prospective, randomized controlled study. Methods: Elderly patients with lung nodules admitted to the Department of Oncology of our hospital from January 2019 to January 2023 were selected. A total of 225 elderly patients were screened, and 30 patients were included after screening. They were randomly divided into experimental group (Group A: 30 cases) and control group (Group B: 30 cases). Group A was given 3D-PCT combined with CT-guided percutaneous pulmonary CNB biopsy, Group B underwent CT-guided percutaneous pulmonary CNB. The primary outcome measure of this study was the accuracy of diagnostic CNB, and the secondary outcome measures were CNB time, number of CNB needles, number of pathological tissues and complications. Results: The diagnostic accuracy of group A and group B was 96.67% and 76.67%, respectively (P = 0.026). There were statistical differences between group A and group B in average CNB time (P = 0.001), number of CNB (1 vs more than 1, P = 0.029), and pathological tissue obtained by CNB (3 vs 1, P = 0.040). There was no statistical difference in the incidence of pneumothorax and hemorrhage between the two groups (P > 0.05). Conclusions: 3D-PCT combined with CT-guided percutaneous CNB can improve the puncture accuracy of elderly patients, shorten the puncture time, reduce the number of punctures, and increase the amount of puncture pathological tissue, without increasing pneumothorax and hemorrhage complications. We look forward to verifying this in a phase III randomized controlled clinical study. .

Influence of Processing Parameters on Properties of Needle-punched Composite Geotextiles

The influence of the processing parameters on the properties of needle-punched composite geotextiles,compounded by polypropylene filament woven-fabrics and nonwoven fabrics is studied by using orthogonal design method. The relationship between tensile strength and peeling strength is discussed. The experimental results are offered as reference.

Simulation-Based Construction of Three-Dimensional Process Model for Punching Cartridge Cases

A method of constructing three-dimensional process model for the punching cartridge cases is presented based on DEFORM simulation analysis. Using DEFORM software,the finite element simulation models for the punching and forming process of cartridge cases are established,and the corresponding simulation result model of each intermediate procedure is obtained by continuously performing the forming process simulation. The simulation model cannot annotate size and process information due to poor interface between DEFORM software and CAD software. Thus,a 3D annotation module is developed with secondary development technology of UG NX software. Consequently,the final process model with dimension and process information is obtained. Then,with the current 3D process management system,the 3D punching and forming process design of cartridge cases can be completed further. An example is also provided to illustrate that the relative error between the simulation process model and the physical model is less than 2%,which proves the validity and reliability of the proposed method in this study.

Effect of Needle Punching Process on a Chopped Strand Mat Composite with an Open Hole

The easiest and most reliable joining method is the mechanical joint with a bolt and nut or rivet. However, in the case of composite laminates, mechanical joint properties decrease because of lower interlaminar properties compared to in-plane properties around hole.?This study investigated needle punching process with the aim of improving the mechanical properties in the thickness direction of fiber-reinforced plastic composite laminates with an open hole. Needle punching process was applied to glass fiber chopped strand matused as the reinforcement for the composite laminates. Open-hole tensile tests and observations of end cross-sections after the tests were performed. The tensile properties and fracture mechanism of the specimens subjected to needle punching process were investigated. In addition, characteristic distance (a parameter for evaluating resistance to fracture in open-hole tensile test specimens) was also calculated to examine the effects of needle punching process conditions on fracture toughness. Tensile strength was improved by more than 15% by needle punching process. However, when a certain needle punching density was exceeded, the mechanical properties worsened. In addition, characteristic distance increased with increasing needle punching density. Thus, these results suggest that there is an optimal needle punching density with respect to strength and characteristic distance.

体育服饰用超细纤维合成革针刺非织造基布的力学性能表征

为有效解决开纤处理后海岛超细纤维针刺非织造基布致密性低且针刺痕迹等一系列问题,以促使其在体育服饰用超细纤维合成革中广泛应用,本文基于针刺法将高收缩聚酯纤维掺入海岛超细纤维合成革非织造基布,以制备生成了超细纤维合成革针刺非织造基布,并对其力学性能进行了测试表征。结果发现,随着高收缩聚酯纤维掺入量增加,超细纤维合成革针刺非织造基布断裂强度与撕裂强度皆逐渐增大;透湿性与吸湿性先降低后升高;热收缩率逐步增高;耐磨性逐渐提升,且基布均匀度较好;弯曲长度与弯曲刚度皆逐渐增大,柔软度随之降低;以针刺非织造基布为原料制成的体育服饰用超细纤维合成革表面平整且光滑,底面平整且粗糙度适中,致密性较好,且断裂强度、撕裂强度、透湿性与吸水性均表现优异。

HSPET/PA6中空橘瓣型纺粘针刺超纤合成革基布的制备及性能分析

以高收缩聚酯(HSPET)/聚酰胺6(PA6)纺粘长丝针刺非织造布为基布,含浸水性聚氨酯(WPU)制备HSPET/PA6中空橘瓣型纺粘针刺超纤革基布(以下简称HSPET/PA6针刺革基布)。对比分析前开纤法及后开纤法两种工艺,以及聚乙烯醇(PVA)和WPU含浸量对HSPET/PA6针刺革基布性能的影响。结果表明:在相同的PVA、WPU含浸量下,前开纤法的力学性能优于后开纤法,但柔软度及透气透湿性能与后开纤法相比较差;两种工艺下制备的HSPET/PA6针刺革基布力学性能均随着PVA含浸量的增加先提升后下降,随着WPU含浸量的增加逐渐提升;柔软度和透气透湿性能随着PVA含浸量的增加先提升后下降,随着WPU含浸量的增加逐渐下降。

非织造空气过滤材料制备及功能化研究进展

总结非织造空气过滤材料制备工艺及功能化改性的研究进展。对针刺、熔喷和静电纺丝等非织造空气过滤材料制备方法进行了阐述,分析了不同非织造工艺技术存在的问题。对非织造空气过滤材料抗菌、除甲醛、脱硝、脱硫和耐高温等功能化改性进行了探讨。认为:通过优化工艺流程、调控织物结构制备绿色高效非织造空气过滤材料是未来发展方向。

天线罩针刺织物根部结构设计及材料性能研究

针对耐高温天线罩对根部强度及根部材料与金属连接件热膨胀系数匹配性的特殊要求,设计了多种针刺结构石英纤维天线罩织物,并在罩体根部引入氧化铝纤维,系统研究了罩体根部材料的性能情况。结果表明适当降低网毡含量可以提升材料的拉伸性能,但材料的层间剪切强度会有所下降,压缩强度在网毡含量较低的情况下也有所降低。通过在根部引入氧化铝纤维,罩体根部的热膨胀系数有明显提升,但材料的高温拉伸强度随氧化铝纤维含量的增加呈先下降后上升的趋势。文中对相关工艺及材料性能研究为耐高温天线罩的设计提供了参考。

摩擦驻极对静电棉非织造材料过滤性能的影响

为研究摩擦作用对静电棉非织造材料过滤性能的影响,制备不同规格的针刺静电棉过滤材料,采用摩擦驻极的方式对针刺静电棉过滤材料充电,测试并分析针刺静电棉过滤材料在摩擦驻极后的过滤性能、静电衰减性能等。结果表明,随着摩擦次数的增加,纤维积聚的电荷越多,试样的过滤效率明显提升,但摩擦驻极对过滤阻力几乎无影响;对于250 g/m^(2)的试样,经过5次摩擦后过滤效率由23.6%提升到43.4%,过滤性能得到较好的提升。

针刺C/C复合材料多尺度损伤分析

建立带有针孔区域的针刺C/C复合材料多尺度模型,结合混合率公式和周期性边界条件,计算各组分材料的弹性力学参数和针刺单胞模型的平均弹性参数;基于协同多尺度方法,采用关键区域应力-应变放大因子实现多尺度信息传递,并结合相应的失效准则,实现针刺C/C复合材料的多尺度损伤分析。

不同针刺密度石英针刺毡复合材料的力学性能研究

为探究不同针刺密度对石英针刺毡及其复合材料力学性能的影响,采用叠层针刺方法,制作石英针刺毡。采用真空辅助树脂转移模塑成型(VARTM)工艺,以环氧树脂为基体,石英针刺毡为增强体,制作复合材料。力学性能测试结果表明:石英针刺毡和其机织布的拉伸性能随着针刺密度增加呈递减趋势,层间剥离强度呈先增后减趋势,在针刺密度30针/cm^(2)时层间性能最好;随着针刺密度增加,石英针刺毡复合材料的拉伸性能呈减少趋势,剪切性能和弯曲性能呈先增后减趋势,压缩性能呈增加趋势;剪切性能在针刺密度50针/cm^(2)时达到最高,弯曲性能在针刺密度30针/cm^(2)时最好。

碳纤维复合材料预制体针刺技术研究现状与思考

预制体作为复合材料的“增强骨架”,对复合材料的性能具有重要影响。而针刺工艺因其简单、快捷、低成本等优点逐渐成为制备预制体的主流技术。为了深入了解有关针刺技术、针刺预制体以及针刺复合材料的研究情况,介绍了针刺技术概况,论述了针刺工艺参数、针刺预制体类型以及针刺复合材料的实验研究和理论建模方面的研究进展,并基于此分析了针刺技术未来的发展方向。

PET纺织针刺土工布应用及PP土工布的性能分析

PET纺织针刺土工布和PP土工布是两种常见的非织造土工布产品,它们在建筑工程、水利工程、环保工程等领域具有广泛的应用。本文将详细介绍PET纺织针刺土工布的应用领域及其优势,以及PP土工布的性能分析与特点,以达到正确选用土工布产品的目的。

PPS+PTFE混纺针刺滤袋在燃煤电厂的应用分析

针对某燃煤电厂使用聚苯硫醚(PPS)滤袋不足一年时间即发生大面积破损的问题,制备面层不同PPS和聚四氟乙烯(PTFE)纤维质量比的PPS+PTFE混纺针刺滤袋,对其进行挂袋试验,并从面密度、透气性、拉伸性能、粉尘渗透情况、材质变化及微观形貌等方面分析使用前后PPS+PTFE混纺针刺滤袋的性能。根据试验数据进行PPS+PTFE混纺针刺滤袋使用寿命的预估分析,推算其剩余使用寿命。研究结果显示,制备的PPS+PTFE混纺针刺滤袋满足粉尘排放质量浓度长期低于10 mg/m3的要求;面层PPS和PTFE纤维质量比为50∶50时,制备的PPS+PTFE混纺针刺滤袋的整体使用寿命可达74个月。研究为燃煤电厂滤袋除尘器的超低排放及滤袋选型提供参考。

一种耐腐蚀耐冲刷高精度复合滤料的性能探究及应用

针对钢铁焦化超低排放改造过程中常规玻纤复合毡或聚四氟乙烯(PTFE)针刺毡覆膜产品大多存在使用寿命短、不耐粉尘冲刷、粉尘排放不达标等问题,结合现场工况特点,开发出一种耐腐蚀耐冲刷高精度复合滤料。测试并分析该高精度复合滤料的物理性能、耐温性能、耐磨性能、耐化学腐蚀性和动态过滤性能。研究结果显示,高精度复合滤料能够长期耐受230℃及以上高温,其瞬间耐温值达260℃,耐温、耐化学腐蚀性能与常规PTFE针刺毡覆膜滤料接近;高精度复合滤料的耐磨性及高风速条件下的VDI过滤性能均优于常规PTFE针刺毡覆膜滤料,在工况应用下,能够实现超低排放和稳定运行。

芳纶1414针刺非织造滤材的制备及性能研究

以芳纶1414为原料制得芳纶1414针刺非织造滤材,研究了芳纶1414针刺非织造滤材的性能。结果表明:芳纶1414针刺非织造滤材的力学性能、尺寸稳定性能、抗静电性能、阻燃性能、空气过滤性能等都与其面密度和厚度有一定关系;随着面密度增大,芳纶1414针刺非织造滤材的断裂强度增大,断裂伸长率减小,顶破强力增大,受热后尺寸稳定性提高,耐老化性能提高,抗静电性能降低,阻燃性能降低,空气过滤效率提高;芳纶1414针刺非织造滤材过滤性能优良,在高温烟气环境领域有广泛的应用前景。

芳砜纶/玄武岩纤维复合非织造滤材的制备及性能分析

采用针刺纤维网和长丝网组合成型法,分别以平纹网状结构的芳砜纶长丝、芳纶1414长丝、聚四氟乙烯长丝、玄武岩长丝为夹层基布,以粗细旦芳砜纶(或玄武岩纤维)混合加工成的针刺非织造毡作为面层,制得6种耐超高温、过滤效率高的复合非织造滤材,并对复合非织布滤材的性能进行了测试。结果表明:以粗细旦玄武岩纤维混合加工成的针刺非织造毡为面层、芳砜纶长丝或玄武岩为夹层基布,以及以粗细旦芳砜纶混合加工成的针刺非织造毡为面层、玄武岩为夹层基布的3种复合非织造布在超高温的环境下具有良好的过滤性能,比较合适制作袋式除尘器的滤材;针刺工艺是制备超高温非织造滤材的首选工艺,制得的非织造滤材面密度大、孔隙率小;采用粗细旦纤维合理搭配的纤维结构,可以显著改善滤材的孔隙率和过滤性能。

聚丙烯纺黏针刺土工布的制备及其在公路工程中的应用

基于不同的牵伸工艺并结合针刺固结工艺制备聚丙烯纺黏针刺土工布,研究聚丙烯纺黏针刺土工布中单丝的拉伸性能和超分子结构,分析聚丙烯纺黏针刺土工布中纤维的缠结机制,概述聚丙烯纺黏针刺土工布在公路工程中的作用,并就其在公路工程施工中的注意事项进行介绍,以期为聚丙烯纺黏针刺土工布的生产和相关工程应用提供理论参考。

基于ABAQUS的针刺C/C复合材料薄壁锥形件力学仿真平台研究与开发

由于针刺C/C复合材料薄壁件锥形体特殊的纤维铺设工艺,针刺过程中锥形体不同位置处的纤维铺设角度和纤维密度会随圆锥截面半径变化,使得锥形件各处的纤维铺层结构发生改变,导致锥形件整个区域的材料属性不均匀。本文基于ABAQUS软件二次开发,通过Python脚本程序计算锥形件不同区域的相关材料参数,完成对模型材料属性和方向的赋予。另外通过Qt软件建立可视化界面,实现对锥形件的参数化建模。通过改变长程连续纤维的初始铺设角度,研究在加压和拉伸载荷作用下纤维角度变化对锥形体应力分布的影响。实验结果发现,随着纤维初始铺设角度的增大,在内部加压载荷作用下,锥形件大端在环向上所受到的拉应力呈下降的趋势;在拉伸载荷作用下,锥形件在轴向方向上受到很大的拉应力并呈现先上升后下降的趋势。

添加树脂碳对针刺C/C-SiC材料熔渗行为及性能的影响

以2.5D无纬布/网胎叠层针刺预制体为增强体,采用化学气相渗透和树脂浸渍裂解法制备了密度约1.35 g/cm 3的热解碳C/C、热解碳+树脂碳C/C两种坯体,再经反应熔渗获得C/C-SiC复合材料,分析了不同碳基体组分C/C材料的熔渗特性及其微结构、拉伸性能及氧乙炔烧蚀性能的变化规律。结果表明:相比热解碳的“薄壳”型孔隙结构,树脂碳的“狭缝”型孔结构增大了液Si与碳基体的接触面积,提高了熔渗动力,获得致密度和SiC含量高的C/C-SiC复合材料,提升抗烧蚀性能,在氧乙炔火焰下经400~600 s烧蚀的线烧蚀率降低24%,但树脂碳对液Si的诱导渗透增加了骨架承载体的损伤,使树脂碳+热解碳基C/C-SiC复合材料室温拉伸强度(104±3)MPa低于热解碳基C/C-SiC的(118±3)MPa。