基于γ-C_(2)S的蜂窝陶瓷常温制备与性能研究

在污染排放物处理系统中,蜂窝陶瓷作为关键组件常常需要在高温条件下制备。提出一种新型制备方法,利用γ-C_(2)S在常温下通过碳化养护方式制备蜂窝陶瓷,避免了高温烧结。以γ-C_(2)S为原料,通过添加硅灰、减水剂、塑化剂和水等,调控坯料塑性,经碳化养护后获得力学性能优异的蜂窝陶瓷。研究了增稠剂掺量与预干燥制度对蜂窝陶瓷抗压强度的影响规律,分析了不同碳化时长下蜂窝陶瓷的强度发展与微观结构变化。结果表明:羟丙基甲基纤维素醚(HPMC)掺量为2.5%(质量分数,如无特别说明,下同),碳化养护前将试样预干燥至0.10剩余水固比,在0.3 MPa CO_(2)分压条件下养护12 h,试样抗压强度可达46.8 MPa。碳化过程中生成的方解石型碳酸钙填充了孔隙,使材料结构更加致密,这是蜂窝陶瓷试样强度迅速发展的主要原因。掺入2.5%TiO_(2)制成整体式蜂窝陶瓷催化剂,利用其光催化80 min后甲基橙降解率达到45.12%。

Decoding molecular mechanisms:brain aging and Alzheimer's disease

The complex morphological,anatomical,physiological,and chemical mechanisms within the aging brain have been the hot topic of research for centuries.The aging process alters the brain structure that affects functions and cognitions,but the worsening of such processes contributes to the pathogenesis of neurodegenerative disorders,such as Alzheimer's disease.Beyond these observable,mild morphological shifts,significant functional modifications in neurotransmission and neuronal activity critically influence the aging brain.Understanding these changes is important for maintaining cognitive health,especially given the increasing prevalence of age-related conditions that affect cognition.This review aims to explore the age-induced changes in brain plasticity and molecular processes,differentiating normal aging from the pathogenesis of Alzheimer's disease,thereby providing insights into predicting the risk of dementia,particularly Alzheimer's disease.

Repetitive transcranial magnetic stimulation in Alzheimer’s disease:effects on neural and synaptic rehabilitation

Alzheimer’s disease is a neurodegenerative disease resulting from deficits in synaptic transmission and homeostasis.The Alzheimer’s disease brain tends to be hyperexcitable and hypersynchronized,thereby causing neurodegeneration and ultimately disrupting the operational abilities in daily life,leaving patients incapacitated.Repetitive transcranial magnetic stimulation is a cost-effective,neuro-modulatory technique used for multiple neurological conditions.Over the past two decades,it has been widely used to predict cognitive decline;identify pathophysiological markers;promote neuroplasticity;and assess brain excitability,plasticity,and connectivity.It has also been applied to patients with dementia,because it can yield facilitatory effects on cognition and promote brain recovery after a neurological insult.However,its therapeutic effectiveness at the molecular and synaptic levels has not been elucidated because of a limited number of studies.This study aimed to characterize the neurobiological changes following repetitive transcranial magnetic stimulation treatment,evaluate its effects on synaptic plasticity,and identify the associated mechanisms.This review essentially focuses on changes in the pathology,amyloidogenesis,and clearance pathways,given that amyloid deposition is a major hypothesis in the pathogenesis of Alzheimer’s disease.Apoptotic mechanisms associated with repetitive transcranial magnetic stimulation procedures and different pathways mediating gene transcription,which are closely related to the neural regeneration process,are also highlighted.Finally,we discuss the outcomes of animal studies in which neuroplasticity is modulated and assessed at the structural and functional levels by using repetitive transcranial magnetic stimulation,with the aim to highlight future directions for better clinical translations.

2021年5月21日云南漾濞M_(S)6.4地震序列中的共轭走滑断层研究

基于全国地震编目系统提供的地震编目报告和地震事件波形数据,采用双差定位法对2021年5月21日漾濞M_(S)6.4地震序列(2021年5月18日至10月31日,M_(L)0.0以上)进行重新定位,得到7138次地震事件的精确震源位置;同时,利用震源机制波形反演(CAP)方法,获得了序列中39次M S≥3.0地震的震源机制解结果。以此勾勒出更多的构造细节和清晰的共轭断层形迹,并结合地震序列分布区域的野外地质调查,对此次走滑型地震的破裂过程与模式进行分析。结果显示:(1)漾濞M_(S)6.4地震主震断层为一组宽度约5 km、长度约60 km、走向约130°,向西南陡倾的右旋走滑断裂;该断裂属简单剪切模式,主断层两侧发育与其相交呈斜列式排列的R剪切破裂、R′剪切破裂、伸展破裂等次级共轭断层,地震序列的分布明显受到简单剪切的约束,呈现出单斜对称特征(整个地震序列北端东侧与南端西侧呈现出扫帚状、马尾状分布,而南端东侧与北端西侧则存在明显的地震平静区),其中M_(S)≥5的强震均发生在共轭断层与主断层相交的区域。(2)整个地震序列均分布于维西—乔后断裂西侧中生代沉积地层之上,主震断层的延伸方向与维西—乔后断裂存在一定的夹角,断层性质则与左白达断裂差异较大。研究认为,此次漾濞M_(S)6.4地震的发震构造为一组位于维西—乔后断裂与左白达断裂之间相对独立且未出露地表的隐伏断裂。

基于D-S证据理论的岩爆预测方法研究

为了有效预测岩爆,提出基于D-S证据理论的岩爆预测方法.首先,选取与岩爆发生相关的6个指标因素作为证据体,并通过模糊物元框架和正态型隶属度函数构建证据体的基本概率分配.然后,利用K均值将证据体分类,并提出簇内证据用传统方式融合而簇间证据用权重方式融合的组合融合规则,以减轻高冲突证据融合的不利影响.最后,将模型应用在秦岭终南山公路隧道2号竖井工程,且与经验方法对比.为了分析预测过程的不确定性和估计岩爆发生概率,采用蒙特卡洛模拟进行抽样仿真,并通过Spearman秩相关系数衡量输入指标的全局敏感性.研究结果表明:输入指标在不同的岩爆案例的影响程度差异较大且方向不同;5个岩爆案例的发生概率在40.8%~70.1%之间.该模型表现出优异的预测分类性能,可为深埋地下工程岩爆预测提供参考.

2022年四川芦山M_(S)6.1地震前应力状态研究

为研究2022年6月1日四川芦山M_(S)6.1地震的孕育和发生过程,采用CAP方法反演了2013年芦山M_(S)7.0主震及M_(S)≥5.0余震的震源机制解,并基于应力张量方差与b值时空分布特征,探讨了芦山M_(S)6.1地震的力学机制和震源区的应力状态。结果表明:2022年芦山M_(S)6.1地震震源机制表现出与2013年芦山M_(S)7.0主震和5级余震相似的逆冲型破裂特征,压应力轴方位与龙门山断裂带南段区域应力场一致。2013年芦山M_(S)7.0地震后震中及附近的应力张量方差和b值长期处于低值状态,2022年芦山M_(S)6.1地震前震中及附近出现了应力张量方差和b值的低值异常,表明芦山余震区处于较高的应力水平。分析认为:巴颜喀拉块体持续东向运动受到华南块体的阻挡,震中所在区域长期受挤压逆冲作用,从而使芦山余震区长期处于应力积累的状态,芦山M_(S)6.1地震也是在这种动力学背景下发生的。

H_(2)S/CO_(2)共存环境中X65钢点腐蚀形成机理及预测方法

碳钢管材广泛应用于油气生产系统,在含CO_(2)、H_(2)S、氯离子等多种腐蚀介质共存的多相流环境中,容易发生腐蚀穿孔泄漏,可能造成管道和设备的失效,进而带来安全隐患和经济损失。目前针对H_(2)S/CO_(2)共存环境下金属腐蚀的研究主要集中在较高H_(2)S分压下,多种形式FeS产物的生成规律、产物膜保护特性和点蚀形成机理,很少研究极微量H_(2)S诱发点腐蚀的可能性和发生条件。为此,以X65钢为例,利用大型H_(2)S多相流腐蚀环路实验系统完成了4组测试实验和2组验证实验,研究了40℃、恒定CO_(2)分压环境下,不同H_(2)S分压对低碳钢点腐蚀行为的影响规律,并提出了一种基于热力学理论的预测方法。研究结果表明:①当H_(2)S分压高于50 Pa时,X65钢的腐蚀速率低且表现为全面腐蚀;而当H_(2)S分压低于24 Pa时,随着H_(2)S分压的逐步降低,X65钢的点腐蚀加剧,H_(2)S为2.4 Pa时的点腐蚀速率超过11 mm/a。②当H_(2)S分压极低且马基诺型FeS的过饱和度低于1时,快速形成的FeS膜不能完整覆盖金属表面,暴露表面会在电偶腐蚀的作用下,被饱和CO_(2)溶液快速腐蚀,最终导致低碳钢发生局部点腐蚀。③建立不同H_(2)S分压下低碳钢表面马基诺型FeS过饱和度边界控制曲线,可以准确预测不同条件下碳钢的点腐蚀行为。结论认为,在相关行业标准规定的H_(2)S分压下限以内,H_(2)S/CO_(2)共存环境中极微量的H_(2)S仍然可能会诱发碳钢发生点腐蚀,该认识对于H_(2)S/CO_(2)共存环境下油气管道的局部点腐蚀预测和防腐防护研发具有重要理论和现实意义。

湿气环境中CO_(2)-H_(2)S在α-Fe(110)密排面上吸附与点蚀机理研究

目的从微观尺度探究CO_(2)-H_(2)S(CO_(2)和H_(2)S共存)在湿气管道顶部的吸附特性,进而揭示点蚀机理。方法基于密度泛函理论的第一性原理,利用Materials Studio构建CO_(2)、H_(2)S和CO_(2)-H_(2)S在α-Fe(110)密排面的吸附模型,对CO_(2)、H_(2)S和CO_(2)-H_(2)S在α-Fe(110)面的吸附能、局域态密度、分波态密度和差分电荷密度进行仿真;利用高温高压釜模拟CO_(2)-H_(2)S-Cl^(-)腐蚀环境,分析L360钢在湿气环境中的腐蚀行为;最后,揭示含Cl^(-)湿气管道顶部CO_(2)-H_(2)S吸附机制与点蚀机理。结果CO_(2)、H_(2)S、CO_(2)-H_(2)S及CO_(2)-H_(2)S-Cl^(-)在最稳定位置时的吸附能分别为-4.065、-3.961、-8.538、-12.775e V,表明相较于CO_(2)与H_(2)S单独吸附,CO_(2)-H_(2)S在α-Fe(110)面的吸附能更负,Cl^(-)会进一步降低CO_(2)-H_(2)S的吸附能;且CO_(2)在与H_(2)S竞争环境电子中占优势;Cl^(-)会使CO_(2)-H_(2)S的局域态密度峰值降低,转移趋势为失去电子,基体和腐蚀介质的电子向着低能级跃迁释放出更多能量,进而加强了Fe与CO_(2)-H_(2)S间的化学键强度;Cl^(-)的2p轨道与Fe的3d轨道在-6.8 eV和-5.7 eV发生重叠,Cl^(-)被吸附到Fe表面并与Fe形成化学键生成氯化物,进而改变腐蚀产物膜的组分与结构,削弱产物膜的致密性和稳定性,减弱腐蚀阻抗力。在含Cl^(-)湿气的CO_(2)-H_(2)S环境中,液相中的Cl^(-)浓度升高,使L360钢的气相平均腐蚀速率逐渐增大,最高达2.935mm/a,点蚀越发严重。结论CO_(2)与H_(2)S在α-Fe(110)面吸附存在一定的协同和竞争作用,协同促进金属的腐蚀,FeCO3会优先沉积成膜,但H_(2)S会抑制FeCO3的生长,腐蚀产物以FeS为主;Cl^(-)会增强CO_(2)-H_(2)S与α-Fe(110)面间的作用力,弱化腐蚀产物膜层的保护性,进一步加速金属腐蚀、尤其是点蚀。

乌什 M_(S)7.1地震序列及应力降特征研究

研究乌什M_(S)7.1地震序列时间和空间变化以及震源参数特征,结果表明地震余震主要分布在主震北东和南西两侧,展布与迈丹断裂的走向基本吻合。目前序列b值为0.67,h值为1.3,p值为1.28。震源机制解为逆冲型,应力降处于低值水平,序列衰减基本正常。此次地震为主震—余震型,最大余震为M_(S)5.8地震。

2024年1月23日乌什M_(S)7.1地震序列频谱偏移特征分析

采用P波初动方法计算了乌什M_(S)7.1地震序列中M_(S)≥4.0地震的震源机制解,震源机制解在时间上存在前期一致性较好,后期一致性紊乱的特点。空间上,乌什县内震源机制解类型多为逆冲型,阿合奇县内震源机制解类型多为走滑型。利用新疆地震台网数字波形资料和快速傅里叶变换方法,计算乌什M_(S)7.1地震序列中M_(S)≥5.0地震序列的频率谱,计算结果显示,乌什县内发生的5级余震前期有频谱偏移特征,最后一个5级地震频带变宽,频谱偏移特征消失;阿合奇县内发生的5级余震均出现了频谱偏移特征。

A molecular mechanics approach for analyzing tensile nonlinear deformation behavior of single-walled carbon nanotubes

In this paper, by capturing the atomic information and reflecting the behaviour governed by the nonlinear potential function, an analytical molecular mechanics approach is proposed. A constitutive relation for single-walled carbon nanotubes （SWCNT＇s） is established to describe the nonlinear stress-strain curve of SWCNT＇s and to predict both the elastic properties and breaking strain of SWCNT＇s during tensile deformation. An analysis based on the virtual internal bond （VIB） model proposed by P. Zhang et al. is also presented for comparison. The results indicate that the proposed molecular mechanics approach is indeed an acceptable analytical method for analyzing the mechanical behavior of SWCNT＇s.

NOETHER’S CONSERVATION LAWS OF HOLONOMIC NONCONSERVATIVE DYNAMICAL SYSTEMS IN GENERALIZED MECHANICS

In the present paper, three kinds of forms for Noether’s conservation laws of hol-onomic nonconservative dynamical systems in generalized mechanics are given.

改进YOLOX-s的密集垃圾检测方法

针对密集堆放的多种类垃圾检测存在识别率低、定位不够准确和待测目标被误检、漏检问题,提出了一种融合多头自注意力机制改进YOLOX-s的垃圾检测方法。在特征提取网络嵌入SwinTransformer模块,引入基于滑窗操作的多头自注意力机制,使得网络兼顾全局特征信息和重点特征信息,减少误检现象;在预测输出网络中使用可变形卷积,对初始预测框进行精细化处理,提高定位精度;在EIoU损失的基础上引入加权系数,提出加权IoU-EIoU损失,自适应调整训练时不同阶段不同损失的关注程度,进一步加快训练网络的收敛速度。在公开204类垃圾检测数据集中进行测试,结果表明,所提改进算法的平均精度均值分别可达80.5%和92.5%,优于当前流行目标检测算法,且检测速度快,满足实时性需求。

2023年甘肃积石山M_(S)6.2地震:一次逆冲为主的浅源强震

基于区域数字地震台网波形数据,在三维空间内利用波形拟合反演方法获得2023年12月18日甘肃积石山M_(S)6.2地震最佳震源机制解,结果表明:节面Ⅰ走向305°,倾角56°,滑动角61°;节面Ⅱ为走向169°,倾角43°,滑动角125°;矩震级M_(W)6.02。最佳拟合的空间精细位置为102.377°E,35.968°N,深度9 km。结果显示,地震破裂沿NW方向扩展。初步推断此次地震的发震断层面为节面Ⅱ,发震断层是拉脊山北缘断裂(积石山东缘断裂),是一次逆冲为主,兼少量走滑分量的浅源强震事件。

油井管在CO_(2)/H_(2)S体系中的腐蚀行为研究进展

CO_(2)和H_(2)S引起的腐蚀问题备受关注。CO_(2)/H_(2)S体系是导致石油管材发生腐蚀、断裂、穿孔等失效的主要原因,高温、高压、高含Cl-的“三高”井下环境以及高含硫气藏的开发环境,进一步加剧了管材的腐蚀,严重威胁井筒的安全。本文论述了CO_(2)和H_(2)S的腐蚀机理,概括了pH值、温度、H_(2)S分压、Cl^(-)浓度等因素对油井管腐蚀规律的影响,重点分析了CO_(2)/H_(2)S的分压比对管材CO_(2)/H_(2)S腐蚀的作用机制。结果表明,CO_(2)/H_(2)S的分压比对CO_(2)/H_(2)S体系下的腐蚀起着重要作用,不同的CO_(2)/H_(2)S分压比能够改变腐蚀过程,且对CO_(2)/H_(2)S的竞争协同机制存在一定的影响,高CO_(2)/H_(2)S分压比还会引起局部腐蚀。最后,对CO_(2)/H_(2)S体系下管材的腐蚀研究进行了展望。

2024年新疆乌什M_(S)7.1地震发震断层产状及其动力学探讨

大地震发生后,断层面产状快速确定对震后趋势判定具有重要参考价值。本文收集2024年新疆乌什M_(S)7.1地震序列的震源机制数据,对多家机构计算的该地震震源机制解进行中心解求解后,对震源机制的节面进行聚类分析,去掉噪声点的震源机制得到两簇结果,发现标准差较小的第二簇中心节面可能为发震断层面。然后,为进一步通过断层面与应力场关系验证可能的发震断层面,收集了该地区历史震源机制资料,反演得到乌什地震震源区的构造应力场,发现该地区受到NW—SE向的挤压应力和近垂直向的拉张应力;将应力场分别投影到两簇节面上,发现标准差较小的第二簇中心节面处于剪应力较大区域,并且正应力也有利于该中心节面破裂。综合其他资料分析,本研究推测2024年新疆乌什M_(S)7.1地震发震断层为NW向、低倾角断层,走向为244.62°,倾角为46.19°。

纳米Ag修饰S掺杂g-C_(3)N_(4)的制备及其光催化抗菌性能

光催化灭活是公认的控制病原微生物最具前景手段之一。本文以尿素和硫代巴比妥酸为起始原料,通过热聚合反应制备S掺杂g-C_(3)N_(4)(SCN),随后采用光还原法将Ag纳米粒负载于SCN表面获得新颖的可见光响应型Ag/SCN抗菌材料。对所制备纳米材料进行XRD、SEM、TEM、XPS及UV-Vis DRS表征,并深入探讨其在可见光下灭活大肠杆菌(E.coli)的性能和机制。结果表明,Ag纳米粒均匀且牢固地负载在SCN表面,纳米材料表现出显著增强的可见光响应能力。当负载量为6%时,Ag/SCN-6呈现出最佳的光催化灭菌活性,60 min内能够将6.2 lg CFU·mL^(-1)的E.coli全部灭活。自由基捕获实验结果表明,超氧自由基(·O-2)是灭活过程中最主要活性物种,它协同光生空穴(h+)和羟基自由基(·OH)主导了光催化抗菌的进程。

Simulation of Tensile Behaviors of Bamboo-like Carbon Nanotubes Based on Molecular Structural Mechanics Approach Combining with Finite Element Analysis

A molecular structural mechanics approach combining with finite element analysis(MSM/FEA) was applied to study the microstructure and tensile behaviors of bamboo-like carbon nanotubes(BCNTs). The mathematical model of tensile behaviors of BCNTs was established based on molecular structural mechanics theory. The deformations of BCNTs, with different diameters and compartments set based on the experimental investigation on BCNT structures synthesized by chemical vapor depositon, under tensile load, were analyzed with ANSYS programmed. Results show that the BCNTs have good tensile properties, and those Young's modulus can reach 0.84 Tpa. Through the analysis, it can be found that the Young's modulus of BCNTs depends on the diameters and the length of compartment, which is in good agreement with our experimental tests for the tensile performances of individual BCNT.

Formally Deriving the Third Newton’s Law from a Pair of Nontrivial Assumptions in a Formal Axiomatic Theory “Sigma-V”

The article is devoted to hitherto never undertaken applying an almost unknown logically formalized axiomatic epistemology-and-axiology system called “Sigma-V” to the Third Newton’s Law of mechanics. The author has continued investigating the extraordinary (paradigm-breaking) hypothesis of formal-axiological interpreting Newton’s mathematical principles of natural philosophy and, thus, has arrived to discrete mathematical modeling a system of formal axiology of nature by extracting and systematical studying its proper algebraic aspect. Along with the proper algebraic machinery, the axiomatic (hypothetic-deductive) method is exploited in this investigation systematically. The research results are the followings. 1) The Third Newton’s Law of mechanics has been modeled by a formal-axiological equation of two-valued algebraic system of metaphysics as formal axiology. (Precise defining the algebraic system is provided.) The formal-axiological equation has been established (and examined) in this algebraic system by accurate computing compositions of relevant evaluation-functions. Precise tabular definitions of the evaluation-functions are given. 2) The wonderful formula representing the Third Newton’s Law (in the relevant physical interpretation of the formal theory Sigma-V) has been derived logically in Sigma-V from the presumption of a-priori-ness of knowledge. A precise axiomatic definition of the nontrivial notion “a-priori-ness of knowledge” is given. The formal derivation is implemented in strict accordance with the rigor standard of D. Hilbert’s formalism;hence, checking the formal derivation submitted in this article is not a difficult task. With respect to proper theoretical physics, the formal inference is a nontrivial scientific novelty which has not been discussed and published elsewhere yet.

Tiêu Equation Experimentation of Understanding by Energy Transfer Quantum Mechanics

Background: The Tiêu equation has a ground roots approach to the process of Quantum Biology and goes deeper through the incorporation of Quantum Mechanics. The process can be measured in plant, animal, and human usage through a variety of experimental or testing forms. Animal studies were conducted for which, in the first day of the study all the animals consistently gained dramatic weight, even as a toxic substance was introduced as described in the introduction of the paper to harm animal subjects which induced weight loss through toxicity. Tests can be made by incorporating blood report results. Human patients were also observed to show improvement to their health as administration of the substance was introduced to the biological mechanism and plants were initially exposed to the substance to observe results. This is consistent with the Tiêu equation which provides that wave function is created as the introduction of the substance to the biological mechanism which supports Quantum Mechanics. The Tiêu equation demonstrates that Quantum Mechanics moves a particle by temperature producing energy thru the blood-brain barrier for example. Methods: The methods for the Tiêu equation incorporate animal studies to include the substance administered through laboratory standards using Good Laboratory Practices under Title 40 C.F.R. § 158. Human patients were treated with the substance by medical professionals who are experts in their field and have knowledge to the response of patients. Plant applications were acquired for observation and guidance of ongoing experiments of animals’ representative for the biologics mechanism. Results: The animal studies along with patient blood testing results have been an impressive line that has followed the Tiêu equation to consistently show improvement in the introduction of the innovation to biologic mechanisms. The mechanism responds to the substance by producing energy to the mechanism with efficient effect. For plant observations, plant organisms responded, and were seen as showing improvement thru visual observation.