CP-25通过抑制GRK2活性改善小鼠骨关节炎的机制

目的研究芍药苷-6-氧-苯磺酸酯(CP-25)通过抑制GRK2活性对骨关节炎(osteoarthritis,OA)小鼠膝关节软骨的保护作用。方法内侧半月板失稳(destabilization of the medial meniscus,DMM)手术诱导构建小鼠骨关节炎模型,实验分为假手术组、模型组、CP-25给药组和帕罗西汀给药组。术后开始灌胃给药。给药12周处死动物,Micro-CT成像观察膝关节软骨退变、骨重塑异常等情况,番红固绿染色观察小鼠关节组织病理,免疫组化、免疫荧光检测软骨组织相关分子表达水平的影响。Western blot检测CP-25用药后软骨细胞的膜蛋白及总蛋白表达水平。结果模型小鼠关节软骨严重退变。CP-25可显著降低关节软骨骨赘数量及软骨下板厚度,促进软骨基质再生,减少软骨基质降解蛋白表达,对膝关节软骨有明显的保护作用。免疫组化和免疫荧光结果显示,CP-25治疗可显著降低膝关节组织中GRK2、ADAMTS5、MMP13的表达,并且升高膝关节组织中ColⅡ、Aggrecan表达。体外实验结果表明,CP-25给药可以显著降低GRK2的膜蛋白及总蛋白表达水平,升高EP4膜蛋白水平,降低MMP13水平。结论CP-25给药可显著促进OA小鼠关节软骨基质再生,减少软骨基质降解,对OA具有治疗作用,其机制与抑制GRK2介导的软骨基质代谢有关。

基于CP-ABE算法的Fabric隐私保护模型

传统区块链系统缺少对区块数据的隐私保护。结合CP-ABE(基于属性加密的密文策略)算法和IPFS(星际文件系统),提出一种可以对Fabric区块链实现访问控制的隐私保护模型CP-PPM。CP-PPM的数据所有者可以灵活设置访问控制策略。仿真结果表明,与现有Fabric区块链系统相比,CP-PPM模型支持细粒度的访问控制,具有更强的隐私保护效果;CP-ABE算法可以安全初始化,对数据的加解密效率更高,同时增强了区块链系统的存储性能。

海上风电水下钢结构ICCP系统与智能调控

针对海上风电水下钢结构腐蚀特点与运维造价,提出了海上风电水下钢结构阴极保护装置优化与智能调控技术,阐述ICCP系统的组成、安装与智能调控,且实际应用效果良好,达到预期标准。

PCCP管道阴极保护及腐蚀环境监测系统的设计和应用研究

辽宁省大伙房水库输水(二期)工程,是辽宁省最大规模使用大口径PCCP管道的线性工程。文章以此工程为例,介绍了直埋预应力钢筒混凝土管(PCCP)阴极保护及腐蚀环境监测系统设计和应用情况。该系统可以持续监测PCCP管道的阴极保护电位、钢筋腐蚀速率和腐蚀情况等参数。通过及时评估监测结果可以预知PCCP管道腐蚀情况,从而避免应力腐蚀对输水管道的破坏,确保阴极保护和防腐措施的可靠性,可为同类工程提供借鉴。

基于温度变化的PCCP管道环境腐蚀性监测研究

为了准确评估大伙房输水(二期)工程中预应力钢筒混凝土管(PCCP)的环境腐蚀动态,探究工程环境腐蚀动态监测的必要性,本研究采用ECI智能监测装置对埋地管道进行了系统的环境腐蚀性动态试验,并简述了ECI设备的系统组件和安装结构。研究表明,环境温度的升高会导致PCCP管道的腐蚀活性增强,这一发现为工程实施环境腐蚀动态监测的必要性提供了科学依据。本试验和大伙房输水工程环境腐蚀动态监测的成功,可为面临类似环境腐蚀问题的管输工程提供实用参考。

A review on photoelectrochemical cathodic protection semiconductor thin films for metals

Photoelectrochemical(PEC) cathodic protection is considered as an environment friendly method for metals anticorrosion. In this technology, a n-type semiconductor photoanode provides the photogenerated electrons for metal to achieve cathodic protection. Comparing with traditional PEC photoanode for water splitting, it requires the photoanode providing a suitable cathodic potential for the metal, instead of pursuit ultimate photon to electric conversion efficiency, thus it is a more possible PEC technology for engineering application. To date, great efforts have been devoted to developing novel n-type semiconductors and advanced modification method to improve the performance on PEC cathodic protection metals. Herein, recent progresses in this field are summarized. We highlight the fabrication process of PEC cathodic protection thin film, various nanostructure controlling, doping, compositing methods and their operation mechanism. Finally, the current challenges and future potential works on improving the PEC cathodic protection performance are discussed.

Experience on offshore cathodic protection retrofitting in the northern South China Sea

Platforms I and II are steel structures located in offshore areas southeast of the Zhujiang (Pearl) River Delta, the northern South China Sea,. in about 110 in water depth. The jackets, with aluminum sacrificial anodes for cathodic protection (CP) of the immersed zone, were launched in March 1995. In May 096 a CP survey showed that, after almost one year of service, a low polarization level had been achieved and some extended unprotected zones existed; mainly in the deepest part of the Platform II. Further to this, a joint activity was decided in order to assess the need of a possible retrofitting of the CP systems. The results of the activity carried out are dealt with, including technical and economical comparisons amongst several retrofitting options, both with sacrificial anodes and with impressed current systems. The adopted solution is illustrated and data are reported on the level of protection presently achieved.

Effect of Zn/Mg ratio on cathodic protection of carbon steel using Al-Zn-Mg sacrificial anodes

Al-Zn-Mg alloys with different Zn/Mg mass ratios were evaluated as sacrificial anodes for cathodic protection of carbon steel in 3.5 wt.%Na Cl solution.The anodes were fabricated from pure Al,Zn and Mg metals using casting technique.Optical microscopy,SEM-EDS,XRD and electrochemical techniques were used.The results indicated that with decreasing Zn/Mg mass ratio,the grain size ofα(Al)and the particle size of the precipitates decreased while the volume fraction of the precipitates increased.The anode with Zn/Mg mass ratio>4.0 exhibited the lowest corrosion rate,while the anode with Zn/Mg mass ratio<0.62 gave the highest corrosion rate and provided the highest cathodic protection efficiency for carbon steel(AISI 1018).Furthermore,the results showed that the anode with Zn/Mg mass ratio<0.62 exhibited a porous corrosion product compared to the other anodes.

EFFECT OF CATHODIC PROTECTION ON FRACTURE BEHAVIOUR OF LOWALLOY STEELS IN SEAWATER

Fracture behaviour of low-alloy steels AIST4340,HY100,Welten60,AISIA537 and A131 in artificial seawater under static,cyclic loading and at cathodic protection potential has been investigated by using the techniques of fracture mechanics, electrochemistry and electronfractography.The results reveal that at hydrogen evolution potentials(cathodic pro- tection potential)the critical yield strength required for the occurrance of SCC decreases from 985 at corrosion potential(E_c)to 872 MPa.The effect of cathodic protection on crack propagation of corrosion fatigue(CF)is not simple,it is closely related to the yield strength of steels and their SCC behaviour.For the steels with high yield strength,cathodic protection promotes(da/dN)_Ⅱ evidently,and reduces △K_(th) value.The(da/dN)-△K curves dis- play a plateau at the third stage of CF for steels with medium or low yield strength.It is men- tioned that the cathodic protection potential for oceaneering constructures should be control- led at top level of the protective range.It seems reasonable that the strength of steel for oceaneeing use might be increased by 200 or 300 MPa.

NUMERICAL MODELLING FOR OFFSHORE PLATFORM CATHODIC PROTECTION-LOCAL SYSTEM

This paper discusses numerical methods for modelling cathodic protation (CP) using Boundary ElementMethods(BEM) for CP design analysis in comparision with the traditional methods and presentsseveral mathematical models (for CP design in 3-D infinite area) solvable by using BEM withmicrocomputer.

Cathodic Protection Remote Monitoring Based on Wireless Sensor Network

Cathodic Protection system is an efficient system used for protecting the underground metal objects from corrosion. In this paper the use of Cathodic Protection (CP) system and how they can be developed to simulate corrosion control solution was illustrated. The aim of developing a Cathodic Protection system is to provide control over oil pipelines and to reduce the incidence of corrosion. The proposed system integrates the technology of wireless sensor Network (WSN) in order to collect potential data and to realize remote data transmission. In this system each WSN receives the data from the environment and forwards it to a Remote Terminal Unit (RTU). Then each RTU forwards it to its base station (BS). In this work Labview 2010 program was used, due to its high potentials. In addition it contains a Tool Kit that supports the wireless sensor network. In this simulation used many cases study to test and monitoring data and get optimum results, least time delay and high speed to prevent corrosion.

Electrochemical characteristics of stainless steel using impressed current cathodic protection in seawater

Stainless steels such as STS 304,316 and 630 are frequently used as shaft materials in small fiber reinforced polymer(FRP) fishing boats.If the shaft material is exposed to a severely corrosive environment such as seawater,it should be protected using appropriate methods.The impressed current cathodic protection was used to inhibit corrosion in shaft materials.In anodic polarization,passivity was remarkably more evident in STS 316 stainless steel than in STS 304 and STS 630.The pitting potentials of STS 304,316,and 630 stainless steels were 0.30,0.323,and 0.260 V,respectively.The concentration polarization due to oxygen reduction and activation polarization due to hydrogen generation were evident in the cathodic polarization trends of all three stainless steeds.STS 316 had the lowest current densities in all potential ranges,and STS 630 had the highest.Tafel analysis showed that STS 316 was the most noble in the three.In addition,the corrosion current density was the lowest for STS 316.

Discussion on Cathodic Protection of HZ 21-1 Platform

The environmental conditions around the first offshore HZ 21- 1 steel wellhead platform in the South China Sea are characterized by deep water, frequent typhoons, rough waves, high water temperature, severely corrosive seawater, and thick fouling organism attachments. The design and effectiveness of galvanic anode protection system are presented, and several methods are described, which are the calculation method of the protective current density considering the variation of water depth, the method of determining protection parameters considering various factors, the arrangement of anodes based on potential distribution and current requirements at different water depths, and the method of anode installation. Finally the effect of the accuracy of selected cathodic protection parameters on the economic benefits of offshore projects is also discussed..

Research and Application of Platinum/tantalum Composite Anode for Cathodic Protection

This paper introduces the research status and present situation of application of Pt/Ta composite anode materials for cathodic protection in China. It also introduces the corrosion resistance, bending properties and electrochemical performance in seawater and freshwater of the Pt/Ta composite anode materials for cathodic protection. It points out that compared with other platinum composite anodes, the Pt/Ta composite anode has the advantage of small volume, light weight, big drainage rate, long service life, it possesses superiority to be used in the confluence environment of sea water and fresh water and in the medium condition of resistivity changes at all times.

Conductive Mortar as Anode Material for Cathodic Protection of Steel in Concrete

The behavior of a new type of secondary anode material made of carbon fiber reinforced cement used for cathodic protection of steel in concrete was studied. The mechanical, electrical and electrochemical properties of this conductive mortar were investigated. Results indicate that the addition of carbon fiber enhances the strength and ductility of the mortar, as well as the electrical property. The anodic polarization behavior was tested on specimens immersed in aqueous solutions of saturated Ca（OH）2 in the presence or absence of 3% NaCl. Based on impedance measurements the electrochemical parameters of conductive mortar were calculated. It is shown that the investigated conductive mortar can be used in cathodic protection of reinforced concrete. The study also shows that the optimum fiber content in mortar should be in the range from 0.5 vol% to 0.7 vol%.

ICCP作用下的CFRCM束导电及力学性能研究

碳纤维织物增强水泥基复合材料(CFRCM)因其兼具结构性能提升和外加电流阴极保护(ICCP)功能而常被应用于混凝土结构加固和钢筋的电化学保护,但ICCP作用对CFRCM导电、力学性能的影响及机理研究较少。该文通过CFRCM加速通电试验和拉伸试验发现,ICCP对CFRCM的导电性能和力学性能均存在劣化作用。随着电量密度增大,碳纤维表面出现开裂、破损、剥离、断裂现象,CFRCM电阻经历缓慢增长和快速增长两个阶段,且电量密度相同时,电阻增长幅度一致。电量密度越大,纤维断裂现象越明显,CFRCM拉伸过程极限荷载越小。

Effect of Cathodic Protection on the Fatigue Crack Growth Behavior of Low Carbon Alloy Steels

The long and short fatigue crack growth (FCG) behavior of 12CrNi3MoV (S1) and 10CrNi5MoV(S2) steel was investigated at cathodic protection in 3.5 % NaCl solution and artificial seawater. The results indicate that long and short FCG show different behavior at cathodic protection. Short FCG is apparently hindered at appropriate cathodic protection potential (-900 mV SCE) and accelerated at over protection potential(-1200 mV SCE). Cathodic protection increases long FCG rate, and the more negative the cathodic protection potential, the greater the long FCG rate. At the same amplitude of stress intensity ( ΔK ), short FCG rate is greater than the long one and their difference becomes less at cathodic protection. The FCG rate in 3.5 % NaCl solution is greater than in artifitial seawater. The FCG rate of S2 steel is bigger then that of S1 steel. The FCG rate of weld bond of S2 steel is lower than that of parent metal and weld beam. In above cases, the anode dissolution, the wedging of corrosion products or deposit and hydrogen embrittlement in long and hort crack tip are also discussed.

基于CKKS与CP-ABE的国网电力数据共享方案

国家电网拥有大量电力数据,对这些数据的研究是一项重要的工作.这往往涉及海量数据计算与多方数据传输,因此研究机构如何能安全且高效地申请并获取到电力数据是一个亟待解决的问题,同时国网机构愿意在保证数据安全的前提下进行数据共享.针对以上问题,设计了基于CKKS(Cheon-Kim-Kim-Song)与CP-ABE(ciphertext-policy attribute-based encryption)的国网电力数据共享方案,通过CKKS对数据进行加密,实现数据的安全传输与计算,引入第三方服务提供者,对数据进行高效处理;同时通过CP-ABE算法,实现数据访问控制与1对多数据传输与共享,提高共享效率.接着对方案的安全性进行证明,并通过实验的方式,将该方案与现有方案的共享效率进行测试与对比,实验结果表明该方案在保证数据安全的情况下,能够更加高效地进行数据处理,并且保持较低的计算误差.

Photoelectrochemical cathodic protection of Cu2O/TiO2 p-n heterojunction under visible light

The Cu2O/TiO2 p-n heterojunction composite photoelectrodes were prepared by depositing Cu 2 O nanoparticles on the surface of TiO 2 nanotubes via anodic oxidation and constant current deposition.Field emission scanning electron microscopy(SEM)and high-resolution transmission electron microscopy(HRTEM)analyses showed that Cu 2 O nanoparticles not only deposited on the surface of TiO 2 nanotube array,but also on the wall of TiO 2 nanotubes.The Cu 2 O deposition amount could be adjusted by changing the deposition time.The photoelectrochemical cathodic protection(PECCP)performance of the prepared photoelectrodes for 316L stainless steel(SS)was tested under visible light.The constant current deposition time had a signifi cant eff ect on the PECCP performance of Cu 2 O/TiO 2-X photoelectrodes and Cu 2 O/TiO 2-20 had the best PECCP performance for the coupled 316L SS.This was attributed to the appropriate amount and thickness of Cu 2 O to form p-n heterojunctions with TiO 2,in which separation of the photogenerated carriers was accelerated and transfer of the photogenerated electrons to 316L SS for PECCP was facilitated.