A pressure-sensitive rheological origin of high friction angles of granular matter observed in NASA–MGM project

An abnormally high peak friction angle of Ottawa sand was observed in(National Aeronautics and Space Administration) NASA–(Mechanics of Granular Materials) MGM tests in microgravity conditions on the space shuttle. Previous investigations have been unsuccessful in providing a constitutive insight into this behavior of granular materials under extremely low effective stress conditions. Here, a recently proposed unified constitutive model for transient rheological behavior of sand and other granular materials is adopted for the analytical assessment of high peak friction angles. For the first time, this long-eluded behavior of sand is attributed to a hidden rheological transition mechanism, that is not only rate-sensitive, but also pressure-sensitive. The NASA–MGM microgravity conditions show that shear-tests of sand can be performed under abnormally low confining stress conditions. The pressure-sensitive behavior of granular shearing that is previously ignored is studied based on the μ(I) rheology and its variations. Comparisons between the model and the NASA microgravity tests demonstrate a high degree of agreement. The research is highly valid for pressure-sensitive and rate-dependent problems that occur during earthquakes, landslides, and space exploration.

The asymptotic field of mode Ⅰ quasi-static crack growth on the interface between a rigid and a pressure-sensitive material

A mechanical model of the quasi-static interface of a mode I crack between a rigid and a pressure-sensitive viscoelastic material was established to investigate the mechanical characteristic of ship-building engineering hi-materials. In the stable growth stage, stress and strain have the same singularity, ie （σ, ε） ∝ r^-1/（n-1）. The variable-separable asymptotic solutions of stress and strain at the crack tip were obtained by adopting Airy＇s stress function and the numerical results of stress and strain in the crack-tip field were obtained by the shooting method. The results showed that the near-tip fields are mainly governed by the power-hardening exponent n and the Poisson ratio v of the pressure-sensitive material. The fracture criterion of mode I quasi-static crack growth in pressure-sensitive materials, according to the asymptotic analyses of the crack-tip field, can be viewed from the perspective of strain.

Numerical Simulation of Liquid-Solid Coupling in Multi-Angle Fractures in Pressure-Sensitive Reservoirs

This study clarifies the seepage characteristics of complex fractured pressure-sensitive reservoirs,and addresses a common technological problem,that is the alteration of the permeability degree of the reservoir bed(known to be responsible for changes in the direction and velocity of fluid flows between wells).On the basis of a new pressuresensitive equation that considers the fracture directional pressure-sensitive effect,an oil-gas-water three-phase seepage mathematical model is introduced,which can be applied to pressure-sensitive,full-tensor permeability,ultralow-permeability reservoirs with fracture-induced anisotropy.Accordingly,numerical simulations are conducted to explore the seepage laws for ultralow-permeability reservoirs.The results show that element patterns have the highest recovery percentage under a fracture angle of 45°.Accounting for the pressure-sensitive effect produces a decrease in the recovery percentage.Several patterns are considered:inverted five-seven-and nine-spot patterns and a cross-row well pattern.Finally,two strategies are introduced to counteract the rotation of the direction of the principal permeability due to the fracture directional pressure-sensitive effect.

Pressure-sensitive plasticity of lithiated silicon in Li-ion batteries

Lithiation-induced plasticity is a key factor that enables Si electrodes to maintain long cycle life in Li-ion batteries. We study the plasticity of various lithiated sili-con phases based on first-principles calculations and iden-tify the linear dependence of the equivalent yield stress on the hydrostatic pressure. Such dependence may cause the compression-tension asymmetry in an amorphous Si thin film electrode from a lithiation to delithiation cycle, and leads to subsequent ratcheting of the electrode after cyclic lithiation. We propose a yield criterion of amorphous lithi-ated silicon that includes the effects of the hydrostatic stress and the lithiation reaction. We further examine the micro-scopic mechanism of deformation in lithiated silicon under mechanical load, which is attributed to the flow-defects mediated local bond switching and cavitation. Hydrostatic compression confines the flow defects thus effectively strength-ens the amorphous structure, and vice versa.

Element Analysis of Instrumented Sharp Indentations into Pressure-sensitive Materials

Finite element analysis was carried out to investigate the conical indentation response of elastic-plastic solids within the framework of the hydrostatic pressure dependence and the power law strain hardening. A large number of 40 difierent combinations of elasto-plastic properties with n ranging from 0 to 0.5 and σy/E ranging from 0.0014 to 0.03 were used in the computations. The loading curvature C and the average contact pressure Pave were considered within the concept of representative strains and the dimensional analysis.Dimensionless functions associated with these two parameters were formulated for each studied value of the pressure sensitivity. The results for pressure sensitive materials lie between those for Von Mises materials and the elastic model.

Roles of the ocular pressure, pressure-sensitive ion channel, and elasticity in pressure-induced retinal diseases

The intraocular pressure inside the human eye maintains 10–21 mmHg above the atmospheric pressure.Elevation of intraocular pressure is highly correlated with the retinopathy in glaucoma,and changes in the exterior pressure during mountain hiking,air traveling,and diving may also induce vision decline and retinopathy.The pathophysiological mechanism of these pressure-induced retinal disorders has not been completely clear.Retinal neurons express pressure-sensitive channels intrinsically sensitive to pressure and membrane stretch,such as the transient receptor potential channel(TRP)family permeable to Ca^2+and Na^+and the two-pore domain K channel family.Recent data have shown that pressure excites the primate retinal bipolar cell by opening TRP vanilloid 4 to mediate transient depolarizing currents,and TRP vanilloid 4 agonists enhance the membrane excitability of primate retinal ganglion cells.The eyeball wall is constructed primarily by the sclera and cornea of low elasticity,and the flow rate of the aqueous humor and intraocular pressure both fluctuate,but the mathematical relationship between the ocular elasticity,aqueous humor volume,and intraocular pressure has not been established.This review will briefly review recent literature on the pressure-related retinal pathophysiology in glaucoma and other pressure-induced retinal disorders,the elasticity of ocular tissues,and pressure-sensitive cation channels in retinal neurons.Emerging data support the global volume and the elasticity and thickness of the sclera and cornea as variables to affect the intraocular pressure level like the volume of the aqueous humor.Recent results also suggest some potential routes for TRPs to mediate retinal ganglion cell dysfunction:TRP opening upon intraocular pressure elevation and membrane stretch,enhancing glutamate release from bipolar cells,increasing intracellular Na^+,Ca^2+concentration in retinal ganglion cells and extracellular glutamate concentration,inactivating voltage-gated Na^+channels,and causing excitotoxicity and dysfunction of retinal ganglion cells.Further studies on these routes likely identify novel targets and therapeutic strategies for the treatment of pressure-induced retinal disorders.

Tubular Heat Enhancement Using Twisted Tape Inserts with Large Holes

Heat augmentation techniques play a vital role in the heating and cooling processes in industries,including solar collectors and many applications that utilize heat exchangers.Several studies are based on inserting fillers inside the tubes to enhance heat transfer.This investigation considered the effects of twisted tapes with large holes on a tubular heat exchanger’s(HX)heat transmission,pressure drop,and thermal boosting factor.In the experimental section,counter-swirl flow generators used twisted tapes with pairs of 1.0 cm-diameter holes and changes in porosity(Rp)at 1.30%and 2.70%.In the experiments,air was utilized as a working fluid in a tube with a circular cross-section.The turbulent flow was considered,with Reynolds numbers(Re)domain from 4800 to 9500,and a boundary condition with a uniform wall heat flux was constructed.The findings expound that when the number of holes rose,the Nusselt number(Nu),the factor of friction(f),and the thermal enhancement factor(η)all increased as well.Additionally,as the friction factor increased,the Nusselt number of the tape-equipped tube was noticeably higher.Additionally,it was discovered that the friction factor was between 70%and 94%lower than the values of the tube without tape,while the(Nu)was between 87%and 97%higher than the conventional tube values.The maximum value ofηis 89%.According to the experimental results,empirical correlations for Nu,f,andηwere also generated.

Mitochondrial genomes of Tapes dorsatus and Cardita variegata:insights into Heteroconchia phylogeny

Heteroconchia,a widespread and abundant aquatic invertebrate,is an important clade of bivalve mollusks.The relationship between the three branches of Heteroconchia,Palaeoheterodonta,Archiheterodonta,and Euheterodonta has become a main controversy in molecular studies of the relationships between bivalves.In the present study,we assembled the complete mitochondrial genomes of Tapes dorsatus(Veneridae)and Cardita variegata(Carditidae)using high-throughput sequencing.C.variegata is the first mitochondrial genome belonging to the family Carditidae to be reported.We used 12 protein coding genes(excluding atp8)from the complete mitochondrial genomes of 146 species to recover the internal relationships of Heteroconchia.Our results support the traditional view of early branching of Palaeoheterodonta and the recovery of the monophyly of Palaeoheterodonta,Anomalodesmata,Imparidentia.Rearrangement analysis show that gene arrangement within Venerida was highly variable.Time-calibrated phylogenetic studies based on a relaxed molecular clock model suggested that Veneridae originated approximately 337.62 million years ago(Ma)and split into two major clades,whereas Carditidae originated approximately 510.09 Ma.Our results provide evidence of the internal relationships of Heteroconchia.

TAPES模式在普外科护生带教中的应用

目的:探讨TAPES模式在普外科护生带教中的应用效果。方法:采用便利抽样法选择2016年1月1日~2019年12月31日92名普外科实习护生,随机分为观察组和对照组各46名,对照组采用常规带教模式,观察组采用TAPES模式带教。比较两组护生出科理论和操作考核成绩、不良事件发生情况、护生带教满意度、参加普外科护理相关读书报告和操作比赛获奖人数。结果:观察组出科理论和操作成绩高于对照组(P<0.05);观察组自主学习能力优于对照组(P<0.05),观察组护生对临床带教老师的满意度高于对照组(P<0.05);观察组无护理不良事件发生,观察组参加普外科护理相关读书报告和操作比赛获奖人数多于对照组。结论:TAPES模式带教应用于临床护生的入科评估、教学活动的落实和评价反馈等各个环节,有利于明确教学目标,加强师生互动,提高教学质量,保证患者安全。

不同类型贴布对慢性踝关节不稳患者行走时踝关节运动学的影响

背景:慢性踝关节不稳患者行走时倾向于过度足内翻,这将增加步行周期支撑相踝关节扭伤的风险。临床医生常使用肌内效贴布或运动贴布进行踝关节贴扎。由于肌内效贴布具有弹性,而运动贴布无法拉伸,因此两者技术应用和生理机制存在差异,进而可能产生不同的康复疗效。目的:对比肌内效贴布和运动贴布干预对慢性踝关节不稳患者步行支撑相足额状面和胫骨水平面运动的影响。方法:40名慢性踝关节不稳患者随机分为肌内效贴布组和运动贴布组,肌内效贴布组从后足内侧向外侧粘贴2条贴布,以产生外翻拉力;运动贴布组采用踝关节闭锁式编篮贴扎。分别于贴扎前后在电动跑台上进行行走测试,利用三维运动分析系统获取受试者足部和胫骨运动学参数。结果与结论:肌内效贴布组贴扎后于支撑相早期足外翻角度增加(P<0.05),但对支撑相晚期足的位置无影响(P>0.05);运动贴布组贴扎后于支撑相晚期胫骨内旋增加(P<0.05),而支撑相早期胫骨位置无明显改变(P>0.05)。结果表明:与运动贴布相比,肌内效贴布能够提供灵活的拉力,有利于步态周期中支撑相早期足外翻,同时不限制支撑相晚期的正常足内翻。因此,肌内效贴布可能是慢性踝关节不稳患者的实用康复疗法,在纠正踝关节异常运动的同时不限制其自然运动。

TAPES模式降低神经源性膀胱患者尿路感染率的效果研究

目的探索应用TAPES模式对降低脊髓损伤后神经源性膀胱患者尿路感染率的效果。方法选取2014年3月-2015年2月收治的96例神经源性膀胱行间歇导尿的患者作为对照组,采取医生管理,护士督导的模式进行管理;将2015年3-12月收治的112例神经源性膀胱行间歇导尿的患者为观察组,采用TAPES模式,即团队合作(T)、综合评估(A)、简化流程(P)、健康宣教(E)和目标监测(S)进行干预。观察比较两组患者的尿路感染率。结果对照组尿路感染率为58.33%,观察组尿路感染率降为23.21%,差异有统计学意义(P<0.05)。结论应用TAPES模式对预防和控制神经源性膀胱患者尿路感染的发生具有良好的效果,可广泛应用于临床护理。

基于[4-[(N-(2-巯基乙基),N’-甲基)胺基]苯基]三氰基乙烯(TAPE)的分子整流器

制备了含巯基的共轭有机分子-[4-[(N-(2-巯基乙基),N’-甲基)胺基]苯基]三氰基乙烯(TAPE),以分子自组装方法制作了结构为“Au/TAPE/Au(纳米颗粒)”的分子整流器件。用扫描隧道显微镜(STM)测试了该器件的电流-电压(I-V)性质,在偏压为±0.95V时,有最高整流比为22.7;考察了顶电极制备工艺前、后单分子膜的电性能。用掠角反射红外光谱对单分子有机层进行了表征。

从《étapes》看当代平面设计之趋势

从期刊设计和期刊内容2个方面分析了法国设计类高端刊物《étapes》,运用比较研究的方法对封面、刊头、内页版式、页码、印刷等部分进行探析,阐述了其在装帧设计上的特色和演变过程。在此基础上,将十余年《étapes》中刊登的内容作为研究素材,运用分析归纳的研究方法,对其关注的热点进行综述,提出了当代平面设计的五大主流趋势,研究结果可为当代平面设计创意思路提供参考。

纤维带与无头加压螺钉治疗第1,2跖骨近端粉碎性骨折Lisfranc损伤

背景:Lisfranc韧带是维持足部横弓与纵弓的重要结构,Lisfranc损伤为一种严重的中足损伤。Lisfranc韧带损伤是复杂的,其治疗以及首选的固定方法有争议。目的:比较钢板联合Suturetape与钢板联合无头加压螺钉治疗第1,2跖骨近端粉碎性骨折Lisfranc损伤的短期疗效。方法:回顾性分析东莞市中医院骨七科2019年1月至2022年6月因第1,2跖骨近端粉碎性骨折Lisfranc损伤患者48例,其中25例采用钢板联合Suture tape固定(观察组),23例采用钢板联合无头加压螺钉固定(对照组)。术前参照影像学资料,根据Myerson分类系统进行分型;术后随访根据骨折愈合时间、目测类比评分、美国足踝外科学会标准评估足功能恢复情况,并对两组术后并发症进行比较分析。结果与结论:①两组患者均顺利完成手术并获得随访,随访时间12-36个月,平均(18.0±5.42)个月;②两组患者手术时间、术中出血量比较差异均无显著性意义(P>0.05);③观察组较对照组骨折愈合时间稍长,差异有显著性意义(P<0.05);④术后3,6,12个月随访,观察组较对照组目测类比评分明显降低(P<0.05);⑤术后6,12个月,观察组术后各时间点随访足功能AOFAS评分较螺钉组明显改善(P<0.05),且均较术前显著提高(P<0.05);⑥术后观察组出现1例创伤性关节炎,对照组出现1例切口感染、1例螺钉断裂及2例创伤性关节炎,两组比较差异无显著性意义(P>0.05),考虑与样本量偏少有关;⑦提示对于第1,2跖骨近端粉碎性骨折Lisfranc损伤,实施钢板联合Suture tape内固定治疗Lisfranc关节损伤效果可靠,可改善患者足关节功能,且具有手术创伤小、术后并发症少、远期医源性创伤性关节炎风险低的优势,较无头加压钉更有利于足功能的恢复。

镜下单片状头屑DNA提取分型法与EZ-tape法的比较

目的改进常规头屑类样本的EZ-tape提取分型方法,借助显微镜采集单片状头屑,提高样本利用率、降低漏检率,并减少混合分型结果比例。方法采用EZ-tape脱落细胞粘取器和透明胶带粘取2名志愿者轮流佩戴的帽子内侧,EZ-tape法遵循传统方法直接提取DNA,镜下单片状头屑DNA提取分型法(简称"单片头屑分析法")则借助显微镜分拣出透明胶带中的单片状头屑。两种方法均分别进行持续振荡和静置消化。所有样本均采用Chelex-100法提取DNA,扩增及电泳后获得STR分型。比较EZ-tape法及单片头屑分析法所获的STR分型结果。结果 EZ-tape法所获分型中11份(45.8%)样本发生漏检,仅获得单一来源的分型结果,10份(41.7%)样本为混合分型结果,其中6份样本有等位基因插入或丢失。单片头屑分析法有12份样本获得了与志愿者一致的单一来源分型结果,仅2份样本获得混合分型结果。振荡处理的分型准确数高于静置消化(P<0.05)。结论 DNA提取过程中进行振荡有利于DNA的释放。单片头屑分析法获得单一来源STR分型成功率较高,样本漏检率低,可作为法医临案工作中头屑类特殊检材的特定样本采集方式。

Effects of Irrigation Water Quality and Drip Tape Arrangement on Soil Salinity,Soil Moisture Distribution,and Cotton Yield (Gossypium hirsutum L.) Under Mulched Drip Irrigation in Xinjiang,China

More and more attention is being focused on saline water utilization in irrigation due to the shortage of fresh water to agriculture in many regions. For purpose of reducing the risks of using of saline water for irrigation, the mechanism of soil moisture and salinity distribution and transport should be well understood for developing optimum management strategies. In this paper, field experiments were carried out at Junggar Basin, China, to study the effects of drip irrigation water quality and drip tape arrangement on distribution of soil salinity and soil moisture. Six treatments were designed, including two drip tape arrangement modes and three irrigation water concentration levels （0.24, 4.68, and 7.42 dS m^-l）. Results showed that, soil moisture content （SMC） directly beneath the drip tape in all treatments kept a relatively high value about 18% before boll opening stage; the SMC in the narrow strip in single tape arrangement （Ms） plot was obviously lower than that in the double tapes arrangement （Md） plot, indicating that less sufficient water was supplied under the same condition of irrigation depth, but there was no significant reduction in yield. Mulching had not significant influence on salt accumulation but the drip tape arrangement, under the same condition of irrigation water depth and quality, compared with Md, Ms reduced salt accumulation in root zone and brought about relatively high cotton yield.

钝缀锦蛤(Tapes dorsatus)稚贝的温度和盐度耐受性研究

本实验在室内控制条件下,采用实验生态学方法研究了钝缀锦蛤(Tapes dorsatus)稚贝对温度和盐度的耐受性。在温度耐受性方面:(1)稚贝在低温端温度为4℃、6℃、8℃、10℃时保持90%~100%存活的时间分别为0 d、2 d、3 d、7 d;在高温端温度为33℃、34℃、35℃、36℃时保持90%~100%存活率的时间分别为5 d、4 d、1 d、0 d;(2)在温度胁迫条件下,钝缀锦蛤在48 h、96 h、144 h和192 h的半致死温度在低温端分别为5.02℃、7.68℃、9.01℃和9.20℃;高温端分别为35.44℃、34.74℃、34.43℃和34.25℃。在盐度耐受性方面:(1)在低盐端盐度为13.0、15.6、18.2、20.8、23.4时保持90%~100%存活率的时间分别为1 d、1 d、≥9 d、≥9 d、≥9 d;在高盐端盐度为41.6、44.2、46.8、49.4、52.0时保持90%~100%存活率的时间分别为9 d、2 d、1 d、1 d、1 d;(2)钝缀锦蛤稚贝在48 h、96 h、144 h和192 h的半致死盐度,低盐端分别为14.46、16.02、16.76、16.91;高盐端分别为>52.0、51.79、50.58、48.88;(3)存活的适宜盐度为16.91~48.20,最适盐度为18.20~41.60;生长的适宜盐度为23.58~45.15,最适盐度为33.90。本实验结果表明,钝缀锦蛤稚贝对高温的耐受性较强,适合在南方温度较高的海域养殖;其适宜生存盐度范围较广,最适生长盐度与外海海水盐度基本相同,适合外海养殖。

关节镜下Fiber Tape环形内固定治疗前交叉韧带胫骨止点撕脱性骨折

背景:前交叉韧带胫骨止点撕脱性骨折需尽早行手术复位内固定,目前临床治疗方案中常用切开复位(可吸收螺钉、空心钉、钢丝、钛缆等)内固定,创伤较大,术后并发症多。而关节镜下行前交叉韧带下止点骨折复位弹性(缝线)内固定具有微创、术野清晰、固定准确性高、并发症少、骨折复位愈合好、符合生物力学要求、关节功能康复快等优点,但也有强度不够、骨块切割等缺点。目的:比较关节镜下Fiber Tape环形固定与开放内固定治疗前交叉韧带下止点撕脱骨折的疗效。方法:收集2017年1月至2018年12月上海中冶医院骨科收治的32例前交叉韧带下止点撕脱骨折患者,所有患者对治疗方案均知情同意,且得到医院伦理委员会批准。根据手术方法分成2组,微创组17例采用关节镜下Fiber Tape环形固定治疗;开放组15例采用开放手术骨折复位(空心拉力螺钉、钛缆、钢丝等)内固定治疗。记录所有患者手术时间、出血量、术后并发症情况;于术前及术后第1,6个月记录膝关节活动范围、Lysholm评分及国际膝关节评分委员会评分,摄X射线片评价骨折复位愈合情况。结果与结论:①所有患者获得随访,时间6-13个月;②2组患者年龄组成、骨折类型、受伤原因、术前评分差异无显著性意义;③术后X射线片复查骨折均得到满意复位,术后未出现神经、血管损伤、骨折移位情况,术后6个月骨折均愈合良好;④2组手术时间、术后并发症发生率差异无显著性意义,2组术中出血量差异有显著性意义(P=0.036);⑤膝关节活动度:2组患者术后1个月膝关节活动度显著大于术前(P<0.05),术后6个月膝关节活动度显著大于术后1个月(P<0.05);术后1,6个月微创组膝关节活动度显著大于开放组(P<0.05);⑥Lysholm膝关节功能评分及国际膝关节评分委员会评分:2组患者术后1个月Lysholm膝关节功能评分及国际膝关节评分委员会评分均显著高于术前(P<0.05),术后6个月评分均显著高于术后1个月(P<0.05);术后1,6个月微创组评分均显著高于开放组(P<0.05);⑦提示2组患者经过手术干预膝关节屈伸活动大部分恢复,且随时间延长恢复程度越高。与开放内固定(空心拉力螺钉、钛缆、钢丝等)相比,关节镜下Fiber Tape环形固定治疗前交叉韧带下止点撕脱骨折的出血更少,创伤更小,关节功能恢复时间更短,恢复程度更高。

Turbulent Heat Transfer and Pressure Drop in Tube Fitted with Square-cut Twisted Tape

Heat transfer,friction factor and thermal enhancement factor characteristics of a double pipe heat exchanger fitted with square-cut twisted tapes（STT） and plain twisted tapes（PTT） are investigated experimentally using the water as working fluid.The tapes（STT and PTT） have three twist ratios（y=2.0,4.4 and 6.0） and the Reynolds number ranges from 2000 to 12000.The experimental results reveal that heat transfer rate,friction factor and thermal enhancement factor in the tube equipped with STT are significantly higher than those fitted with PTT. The additional disturbance and secondary flow in the vicinity of the tube wall generated by STT are higher compared to that induced by the PTT is referred as the reason for better performance.Over the range considered,the Nusselt number,friction factor and thermal enhancement factor in a tube with STT are respectively,1.03 to 1.14,1.05 to 1.25 and 1.02 to 1.06 times of those in tube with PTT.An empirical correlation is also formulated to match with experimental data of Nusselt number and friction factor for STT and PTT.

Variable Tension Control for Discontinuous Tape Winding of Composites Based on Constant Extension Ratio

Discontinuous tape winding, which has obvious advantages in large extension ratio winding, is widely used in the molding of composites. Therefore, the research on technological parameters becomes the focus of many scholars. However, how to accomplish the variable tension control is usually not fully considered. Accordingly, the constant extension ratio and the smoothness of winding process cannot be ensured. Aiming at the problem of tension control, this paper first gives a comparatively deep research on the control method and the interaction mechanism of tension, extension ratio, automatic lap and automatic rectification. Then, according to the winding process features, the mechanical device and the mathematical model of tension control system are established respectively. With regard to the characteristics of PID controller and fuzzy controller, the fuzzy self-tuning PID controller is designed. As a result, the variable tension control is realized during the winding and lapping process, and the constant extension ratio is guaranteed. Finally, a sample application is presented for demonstration. By presenting the variable tension control techniques for discontinuous tape winding, the constant extension ratio of tapes is achieved, the consecution and the automation degree of winding process is improved as well. Thus, the quality of wound products is guaranteed.