Relationship Between Thermal Shock Behavior and Cutting Performance of a Functionally Gradient Ceramic Tool

Based on the deep understanding of the requirements of cutting conditions on ceramic tools, a design model for functionally gradient ceramic tool materials with symmetrical composition distribution was presented in this paper, according to which an Al 2O 3-TiC functionally gradient ceramic tool material FG-1 was synthesized by powder-laminating and uniaxially hot-pressing technique. The thermal shock resistance of the Al 2O 3-TiC functionally gradient ceramics FG-1 was evaluated by water quenching and subsequent three-point bending tests of flexural strength diminution. Comparisons were made with results from parallel experiments conducted using a homogeneous Al 2O 3-TiC ceramics. Functionally gradient ceramics exhibited higher retained strength under all thermal shock temperature differences compared to homogeneous ceramics, indicating the higher thermal shock resistance. The experimental results were supported by the calculation of transient thermal stress field. The cutting performance of the Al 2O 3-TiC functionally gradient ceramic tool FG-1 was also investigated in rough turning the cylindrical surface of exhaust valve of diesel engine in comparison with that of a common Al 2O 3-TiC ceramic tool LT55. The results indicated that the tool life of FG-1 increased by 50 percent over that of LT55. Tool life of LT55 was mainly controlled by thermal shock cracking which was accompanied by mechanical shock. While tool life of FG-1 was mainly controlled by mechanical fatigue crack extension rather than thermal shock cracking, revealing the less thermal shock susceptibility of functionally gradient ceramics than that of common ceramics.

Economic polarized trends,function and expanded boundaries of the Yangtze Delta Region

In the era of economic globalization,the concept of Economic Polarized Area comes into being as an effective vehicle to agglomerate the economic elements and sustain the economic lifeline of the region. Based on the region's specific development mode and construction form the concept is working in such a way that it will contribute to guide the economic development of the country and will play an important role in competing with other regions or countries in the world. Due to the high speed development of the last 30 years,the Yangtze Delta Region starts to show the features of Economic Polarized Area. But,compared with other world-class Economic Polarized Areas,the economic strength and the ability of the Yangtze Delta Region to drive the country's economic development is still very low and the competitive power is still very limited. Expanding the boundaries of the Economic Polarized Area of the Yangtze Delta may extend the economic hinterland of the core area of the Yangtze Delta Region,will lighten the pressures from the limited resource and promote the rationalization of the industrial structure in the Yangtze Delta Region's core area. With regard to the reasonable boundaries of the Yangtze Delta Region,there are different opinions and controversial arguments in political and academic circles. Starting from the idea of increasing the competitive power and improving the economic strength of the Yangtze Delta Region,the paper firstly is discussing the requirements to become a world-class Economic Polarized Area. In a second step an analysis of functional complementation and economic collaboration between the cities of an "extended" Yangtze Delta Region has been carried out by in particular considering the feasibility of integrating these "newly included" cities. The final result of the study is,that the Region should be expanded from the number of 16 cities to 37 cities,and the appended cities should be divided up into two categories:Wenzhou,Jinhua,Yancheng,Huaian,Maanshan,Wuhu,Tongling,Chaohu,Hefei,Chuzhou,Xuancheng should be taken as Preferred Extending Area,and Suqian,Xuzhou,Lianyungang,Lishui,Quzhou,Chizhou,Anqing,Bengbu,Huangshan,Suzhou (Anhui Province) should be taken as Retained Qualification Area.

Correlation between cerebral cortex changes and clinical features in patients with neuromyelitis optica spectrum disorder with normal-appearing brain tissue:a case-control study

Neuro myelitis optica spectrum disorder(NMOSD) is an inflammatory demyelinating disease of the central nervous system.However,whether and how cortical changes occur in NMOSD with normal-appearing brain tissue,or whether any cortical changes correlate with clinical chara cteristics,is not completely clear.The current study recruited 43 patients with NMOSD who had normal-appearing brain tissue and 45 healthy controls matched for age,sex,and educational background from December 2020 to February 2022.A surface-based morphological analysis of high-resolution T1-weighted structural magnetic resonance images was used to calculate the cortical thickness,sulcal depth,and gyrification index.Analysis showed that cortical thickness in the bilate ral rostral middle frontal gyrus and left superior frontal gyrus was lower in the patients with NMOSD than in the control participants.Subgroup analysis of the patients with NMOSD indicated that compared with those who did not have any optic neuritis episodes,those who did have such episodes exhibited noticeably thinner cortex in the bilateral cuneus,superior parietal co rtex,and pericalcarine co rtex.Correlation analysis indicated that co rtical thickness in the bilateral rostral middle frontal gyrus was positively correlated with scores on the Digit Symbol Substitution Test and negatively correlated with scores on the Trail Making Test and the Expanded Disability Status Scale.These results are evidence that cortical thinning of the bilateral regional frontal cortex occurs in patients with NMOSD who have normal-appearing brain tissue,and that the degree of thinning is correlated with clinical disability and cognitive function.These findings will help im prove our understanding of the imaging chara cteristics in NMOSD and their potential clinical significance.

Concurrent Two-Scale Topology Optimization of Thermoelastic Structures Using a M-VCUT Level Set Based Model of Microstructures

By analyzing the results of compliance minimization of thermoelastic structures,we observed that microstructures play an important role in this optimization problem.Then,we propose to use a multiple variable cutting(M-VCUT)level set-based model of microstructures to solve the concurrent two-scale topology optimization of thermoelastic structures.A microstructure is obtained by combining multiple virtual microstructures that are derived respectively from multiple microstructure prototypes,thus giving more diversity of microstructure and more flexibility in design optimization.The effective mechanical properties of microstructures are computed in an off-line phase by using the homogenization method,and then a mapping relationship between the design variables and the effective properties is established,which gives a data-driven model of microstructure.In the online phase,the data-driven model is used in the finite element analysis to improve the computational efficiency.The compliance minimization problem is considered,and the results of numerical examples prove that the proposed method is effective.

Wear State Recognition of Drills Based on K-means Cluster and Radial Basis Function Neural Network

Drill wear not only affects the surface smoothness of the hole, but also influences the life of the drill. Drill wear state recognition is important in the manufacturing process, which consists of two steps： first, decomposing cutting torque components from the original signals by wavelet packet decomposition （WPD）; second, extracting wavelet coefficients of different wear states （i.e., slight, normal, or severe wear） with signal features adapting to Welch spectrum. Finally, monitoring and recognition of the feature vectors of cutting torque signal are performed by using the K-means cluster and radial basis function neural network （RBFNN）. The experiments on different tool wears of the multivariable features reveal that the results of monitoring and recognition are significant and effective.

Expanded Porphyrin Nanosheet for Metal-Free Photocatalytic Water Splitting Using Visible Light

Photocatalytic water splitting to generate hydrogen gas is an ideal solution for environmental pollution and unsustainable energy issues.In the past few decades,many efforts have been made to increase the efficiency of hydrogen production.One of the most important ways is to achieve light absorption in the visible range to improve the conversion efficiency of solar energy into chemical energy,but it still presents great challenges.We here predicted a novel organic film,which can be obtained by polymerizing HTAP molecules,as an ideal material for photocatalytic water splitting.Based on firstprinciples calculations and Born-Oppenheimer quantum molecular dynamic simulations,the metal-free two-dimensional nanomaterial has been proven to be structurally stable,with a direct band gap of 2.12 e V,which satisfies the requirement of light absorption in the visible range.More importantly,the conduction bands and valence bands completely engulf the redox potentials of water,making the film be a promising photocatalyst for water splitting.This construction method through the topological periodicity of organic molecules provides a design scheme for the photocatalyst for water splitting.

Life Strategy Traits of the Liana Sericostachys scandens Spreading in the Montane Forests in the Kahuzi-Biega National Park (DR Congo)

Sericostaehys seandens is a monocarpic and heliophilous liana, native in tropical African forests. In the montane forests of the Kahuzi-Biega National Park （KBNP） （East of DR Congo）, it has been expanding very strongly for a decade, and is currently considered as having negative impacts on biodiversity conservation. In this paper, we test if S. scandens differs from three co-occurring, native, non spreading lianas （Gouania longispicata, Tacazzea apiculata and Adenia bequaertii） for functional traits which might influence plant expansion. For leaf traits （SLA, dry matter content, nitrogen concentration）, S. scandens did not show extreme values compared to those of the three other lianas. In contrast, S. scandens had much higher biomass allocation to sexual reproduction. It also differs from the three other lianas for its reproductive strategy that combines both vegetative propagation and sexual reproduct/on, and propagule dispersal by wind. Moreover, S. scandens has larger leaves and a greater number of lateral branches per unit stem length. It is argued that the particular combination of functional traits exhibited by S.scandens may in part explain its propensity to behave as an opportunistic weed in the disturbed areas in the montane forests of Kahuzi-Biega.

The obstacles and countermeasures of developing function of China＇s Unemployment insurance funds

The function of the unemployment insurance funds arc： ensuring the basic life and stabling employment, preventing unemployment and promoting employment, on the one hand, it guarantee basic livings of the unemploycd, in order to reduce the impact on the individual and society. On the other hand, it also has a function of stabling employment, preventing unemployment and promoting unemployed again obtain employment. In recent years, however, the unemployment insurance fund revenue has been greater than its expenditure, balance funds become more and more, it not only faces a risk of depreciation, also will cause the waste of funds. Therefore, improve the utilization rate of the uncmployment insurance fund itself and expand the function of the unemployment insurance fund, realize the sustainable development of unemployment insurance funds is great significance.

Modeling of Transient Thermal Conditions in Cutting

The thermal conditions like the temperature distribution and the heat fluxes during metal cutting have a major influence on the machinability, the tool lifetime, the metallurgical structure and thus the functionality of the work piece. This in particular applies for manufacturing processes like milling, drilling and turning for high-value turbomachinery components like impellers, combustion engines and compressors of the aerospace and automotive industry as well as energy generation, which play a major role in modern societies. However, numerous analytical and experimental efforts have been conducted in order to understand the thermal conditions in metal cutting, yet many questions still prevail. Most models are based on a stationary point of view and do not include time dependent effects like in intensity and distribution varying heat sources, varying engagement conditions and progressive tool wear. In order to cover such transient physics an analytical approach based on Green＇s functions for the solution of the partial differential equations of unsteady heat conduction in solids is used to model entire transient temperature fields. The validation of the model is carried out in orthogonal cutting experiments not only punctually but also for entire temperature fields. For these experiments an integrated measurement of prevailing cutting force and temperature fields in the tool and the chip by means of high-speed thermography were applied. The thermal images were analyzed with regard to thermodynamic energy balancing in order to derive the heat partition between tool, chips and workpiece. The thus calculated heat flow into the tool was subsequently used in order to analytically model the transient volumetric temperature fields in the tool. The described methodology enables the modeling of the transient thermal state in the cutting zone and particular in the tool, which is directly linked to phenomena like tool wear and workpiece surface modifications.

机械加工中有限元技术的计算精度优化研究

有限元模型技术被广泛应用于机械加工领域,其也是实现数字控制与现代加工的核心理论技术,得到了各领域研究者的广泛关注与深入探讨。基于有限元模型的计算仿真模拟技术能够大幅提升机械加工制造的精度,大量的机械加工零件实验也为有限元模型提供详细的数据参考。文中通过总结有限元分析技术的研究历史,分析归纳了当前有限元分析技术中精度优化的核心策略及其不足之处,展望了在机械加工过程中有限元分析技术的未来发展方向。

InSAR相位解缠最大流/最小割权值改进算法

InSAR已经在高精度DEM反演中得到了广泛应用,相位解缠技术是影响DEM获取精度的关键步骤之一,然而大梯度变化区域一直是影响解缠结果精度的核心问题。针对该问题,本文提出一种基于势函数改进权值的最大流/最小割相位解缠算法。首先,针对PUMA模型权值设置不合理的问题进行研究,利用外部已有DEM获取相位梯度变化的先验信息,将窗口最大绝对相位梯度值代入相应的势函数公式中获取权值;然后,通过对势函数权值的设置进行阈值调节,解决由于势函数权值设置不合理导致PUMA势函数无法发挥作用引起的解缠错误问题,进而提高大梯度变化区域相位解缠精度;最后,通过仿真数据和真实TanDEM-X InSAR数据对本文算法进行验证,并与已有方法进行对比。结果表明,仿真数据中本文算法可以提高至少44.93%的解缠精度,真实数据中在大梯度变化区域,本文算法较已有算法可以获得更大范围的有效解缠结果。

颅内大型或巨大型动脉瘤经自膨支架辅助弹簧圈栓塞的效果观察

目的探讨颅内大型或巨大型动脉瘤经自膨支架辅助弹簧圈栓塞与单纯弹簧圈栓塞治疗的效果。方法回顾性选取2018年1月至2021年12月广元市中心医院收治的180例颅内大型或巨大型动脉瘤患者作为研究对象,按照治疗方法不同分为联合组(n=98)和对照组(n=82)。联合组患者采用自膨支架辅助弹簧圈栓塞治疗,对照组患者采用单纯弹簧圈栓塞治疗。比较两组患者的动脉瘤栓塞效果、美国国立卫生研究院卒中量表(NIHSS)评分、日常生活活动能力(ADL)评分、改良Rankin量表(mRS)评分及患者的手术并发症和复发率情况。结果治疗后即刻,联合组的Raymond分级中Ⅰ级、Ⅱ级、Ⅲ级患者占比分别为58.16%、32.56%、9.18%,对照组Ⅰ级、Ⅱ级、Ⅲ级患者占比分别为40.24%、43.90%、15.85%,联合组栓塞效果优于对照组,差异有统计学意义(P<0.05)。治疗后1、3个月,联合组的NIHSS评分分别为(16.20±2.89)、(11.08±1.77)分,低于对照组[(18.18±3.14)、(11.77±2.14)分],ADL评分分别为(71.3±5.8)、(78.9±6.4)分,高于对照组[(68.4±6.6)、(74.7±7.0)分],差异均有统计学意义(P<0.05)。联合组患者的并发症发生率与对照组比较(4.08%vs.3.66%),差异无统计学意义(P>0.05)。治疗3个月后,联合组mRS分级优于对照组,差异有统计学意义(P<0.05)。对两组患者进行24个月的随访,联合组患者的复发率8.16%,低于对照组(18.29%),差异有统计学意义(P<0.05)。联合组的无复发时间长于对照组,差异有统计学意义(P<0.05)。结论自膨支架辅助弹簧圈栓塞治疗颅内大型或巨大型动脉瘤患者较单纯弹簧圈栓塞能更有效地栓塞动脉瘤,术后神经功能恢复效果更好,且可降低远期复发率。

一类新的单参数F-C函数及其应用

填充函数法作为可以有效求解多变量、多极值函数的全局最优化方法,通过交替求解目标函数和填充函数找到问题的全局最优解或近似全局最优解,其寻优能力与所采用的填充函数性质有直接关系。因此,构造具有良好数学性质的填充函数新形式一直都是填充函数法的重要研究领域。然而,当前已有的填充函数存在以下问题:填充函数不连续不可微;参数过多难以控制和调整;包含指数项或对数项。为解决上述不足,将填充函数和跨越函数相结合,引入求解无约束全局优化问题的F-C函数定义。根据此定义,构造一类新的单参数F-C函数,此参数在迭代过程中易于调节。在分析该函数理论性质的基础上,提出新的全局优化F-C函数方法,该算法打破传统填充函数算法的求解框架,成功减少求解目标函数的次数,提高计算效率。通过数值计算验证F-C函数算法的有效性和可行性。最后,用F-C函数算法对切削温度实验中的参数进行优化,并与已有结果进行比较,数值试验结果表明该算法具有更好的拟合效果。

基于“3414”试验的切花芍药氮磷钾推荐施肥量研究

针对切花芍药生长过程中盲目施肥的现状,以二年生芍药‘向天歌’为研究对象,采用“3414”试验施肥方案,结合隶属函数法,研究氮、磷、钾肥不同用量对切花芍药生长的影响,探讨切花芍药生产适宜的肥料用量。结果表明:不同施肥处理对芍药株高、茎粗、蕾径、分株数和切花数影响显著(P<0.05);氮、磷缺素区的综合隶属函数值小于无肥区,缺钾区大于无肥区,对芍药生长的影响为氮>磷>钾;N2P2K1处理的综合隶属函数值最大,为0.61,芍药植株生长最好;对各处理的综合隶属函数值和施肥量进行肥料效应函数拟合分析,一元二次、二元二次肥料效应函数方程拟合相关性均达显著水平,三元二次肥料效应方程为非典型模型,采用频率分析法计算肥料推荐量。综合分析各肥料效应函数方程的推荐用量及相应的综合隶属函数值,本试验切花芍药推荐施肥量为N 212.7 kg/hm^(2)、P_(2)O_(5)46.2 kg/hm^(2)、K_(2)O 49.9 kg/hm^(2),施肥配比为1∶0.21∶0.23,可用于本试验区切花芍药生产的施肥参考。

39个传统秋菊品种扦插生根能力综合评价

为了筛选出扦插生根能力较强的传统秋菊(Chrysanthemum morifolium Ramat.)品种,对39个传统秋菊品种扦插12 d的8个根系形态指标进行差异分析、相关性分析和主成分分析,并对这些传统秋菊品种的扦插生根能力进行隶属函数分析和分级。结果显示:供试传统秋菊品种的总根数为3.3~44.0,总根长、平均根长和最长根长分别为2.463~129.174、0.632~4.470和1.610~7.964 cm,根直径为0.200~0.405 mm,根投影面积和根表面积分别为0.102~3.062和0.319~9.619 cm 2,总根体积为0.002~0.079 cm 3,且多数指标以‘火凤凰’(‘Huofenghuang’)最小。这些根系形态指标的变异系数为15.789%~51.605%,其中,总根长的变异系数最大,根直径的变异系数最小,其余指标的变异系数均大于32%。供试传统秋菊品种的多数根系形态指标间存在显著(P<0.05)或极显著(P<0.01)正相关。主成分分析结果显示:前3个主成分的累计贡献率达97.976%。隶属函数分析和分级结果表明:供试传统秋菊品种的扦插生根能力分为优秀、良好、中等和偏差4个等级,‘龙都春丽’(‘Longdu Chunli’)、‘玉楼人醉’(‘Yulou Renzui’)、‘龙都月华’(‘Longdu Yuehua’)、‘圣光华宝’(‘Shengguang Huabao’)、‘龙都秋枫’(‘Longdu Qiufeng’)、‘龙都春晓’(‘Longdu Chunxiao’)的扦插生根能力优秀,综合得分均大于0.70。根投影面积、根表面积和总根体积在不同等级间差异显著。研究结果显示:不同传统秋菊品种间扦插苗的根系形态指标变异较大,其中,‘龙都春丽’等6个品种的扦插生根能力较强,可作为传统秋菊品种遗传改良的亲本。

中国遗体器官捐献供肾体外低温机械灌注保存指南

为促进遗体器官捐献供肾体外低温机械灌注保存技术的规范应用,中华医学会器官移植学分会组织制定了《中国遗体器官捐献供肾体外低温机械灌注保存指南》。该指南整合了肾脏移植学和遗体器官捐献学领域的专家共识,依据现有的临床指南、系统评价、病例研究、专家共识等资料,并结合近年国内外遗体器官捐献供肾体外低温机械灌注保存技术的临床问题。在多次专家研讨和达成一致意见后,完成了该指南的撰写。该指南共包含11个临床问题,14条推荐意见,并按照2009版牛津大学循证医学中心的证据分级与推荐强度标准,对每个临床问题的推荐意见强度与证据级别进行了分级。该指南旨在为临床实践提供指导,提高我国遗体器官捐献供肾保存水平,减少器官弃用率,缓解器官短缺问题。

融合SUSAN特征的医学图像Graph Cuts算法

交互式图像分割算法由于可以从复杂的医学图像中分割出感兴趣的组织,现已引起研究者的广泛关注。该算法对Graph Cuts中经典能量函数的边界项进行改进,将传统的灰度特征替换为SUSAN特征。由于SUSAN特征的求和机制,极大的抑制了噪声的影响,对边界的定位也更加准确。实验表明该算法能够准确分割出感兴趣目标,剔除多余边界,并且对噪声也有很好的抑制作用。

截根疗法联合乳果糖治疗气机郁滞型功能性便秘的临床观察

目的探讨截根疗法联合乳果糖对气机郁滞型功能性便秘患者的疗效。方法选取2023年1月至2024年4月门诊收治的90例气机郁滞型功能性便秘患者作为研究对象,根据就诊顺序分为西药对照组(DZ组)、中医外治组(JG组)及联合治疗组(LH组),每组30例,观察治疗前后三组临床疗效、单项临床症状、中医证候疗效、生活质量、不良反应等指标。结果三组临床总有效率比较差异有统计学意义(P<0.01),LH组与JG组的总有效率比较差异无统计学意义(P>0.05),但均高于DZ组(P<0.05)。治疗前,两组患者的粪便性状、排便顺畅程度、排便频率、排便时间、排便不尽感等单项症状积分比较差异无统计学意义(P>0.05);治疗后,LH组与JG组、DZ组三组排便性状间差异无统计学意义(P>0.05);LH组与JG组排便顺畅程度差异无统计学意义(P>0.05),但两组均优于DZ组(P<0.05);LH组排便频率优于JG组(P<0.05),JG组排便频率优于DZ组(P<0.05);LH组与JG组排便时间差异无统计学意义(P>0.05),且两组均优于DZ组(P<0.05);LH组与JG组排便不尽感差异无统计学意义(P>0.05),且两组均优于DZ组(P<0.05)。三组中医证候总有效率比较差异有统计学意义(P<0.01),LH组与JG组的总有效率比较差异无统计学意义(P>0.05),但均高于DZ组(P<0.05)。治疗后三组生活质量评分组间、时间点及交互差异均有统计学意义(P<0.05),疗程结束时,LH组与JG组积分比较差异无统计学意义(P>0.05),但两组均低于DZ组(P<0.05),疗程结束后1个月时LH组与JG组积分差异无统计学意义(P>0.05),且两组均显著低于DZ组(P<0.05)。三组不良反应发生率比较差异无统计学意义(P>0.05)。结论截根疗法联合乳果糖治疗气机郁滞型FC能够显著提高临床疗效,改善单项临床症状及中医证候,提高患者的生活质量,且安全性良好。

急性缺血性脑卒中超溶栓时间窗采用阿加曲班与替罗非班治疗的效果比较

目的比较急性缺血性脑卒中超溶栓时间窗采用阿加曲班和替罗非班治疗的效果。方法98例急性缺血性脑卒中患者,按随机方法分为观察组(50例)与对照组(48例)。两组患者均在超溶栓时间窗接受溶栓治疗,观察组用药阿加曲班,对照组应用替罗非班。比较两组患者临床疗效、凝血功能[活化部分凝血活酶时间(APTT)、凝血酶原时间(PT)、血小板计数(PLT)、血小板内皮细胞粘附分子-1(PECAM-1)]。结果治疗后,观察组临床总有效率96.00%与对照组的85.42%相比,差异不显著(P>0.05)。治疗后,两组患者APTT、PT、PLT、PECAM-1水平均较治疗前改善(P<0.05);但观察组患者APTT(28.27±2.49)s、PT(11.29±0.86)s、PLT(140.33±16.37)×10^(9)/L、PECAM-1(42.17±6.72)μg/L与对照组的(28.89±3.54)s、(11.25±1.66)s、(144.83±23.44)×10^(9)/L、(41.79±6.77)μg/L比较,差异不显著(P>0.05)。结论在超溶栓时间窗对急性缺血性脑卒中患者进行溶栓治疗时,通过阿加曲班和替罗非班进行治疗都能达到明显的效果,可以实现对患者凝血功能的改善,值得推荐。

自适应形状约束Graph cuts算法在腹部CT图像分割中的应用

针对CT图像对比度低,组织边缘模糊,器官轮廓不规则等特点造成组织器官难以分割的问题,提出了一种自适应形状约束的Graph cuts算法.首先使用基于多图谱配准的分割方法分割原始图像,将得到的初始分割结果作为形状先验加入到Graph cuts算法的能量函数中,同时根据配准分割过程得到的目标概率图自适应选择形状约束项系数,最后通过最大流最小割算法分割出CT图像中的肝脏、肾脏和脾脏.实验结果表明,该方法能够较好地分割出肝脏等组织器官,有效减轻传统图割算法分割图像时造成的过分割和欠分割现象.