期刊文献+
共找到521篇文章
< 1 2 27 >
每页显示 20 50 100
Numerical Optimization by Finite Element Method of Stainless Steel/Glass-Epoxy Composite Bolted Joint under Tension and Compression
1
作者 Christian Schmitt Arnaud Kremeur +1 位作者 Pawel Lipinski Julien Capelle 《Engineering(科研)》 2024年第4期102-122,共21页
The aim of this study was to optimize the geometry and the design of metallic/composite single bolted joints subjected to tension-compression loading. For this purpose, it was necessary to evaluate the stress state in... The aim of this study was to optimize the geometry and the design of metallic/composite single bolted joints subjected to tension-compression loading. For this purpose, it was necessary to evaluate the stress state in each component of the bolted join. The multi-material assembly was based on the principle of double lap bolted joint. It was composed of a symmetrical balanced woven glass-epoxy composite material plate fastened to two stainless sheets using a stainless pre-stressed bolt. In order to optimize the design and the geometry of the assembly, ten configurations were proposed and studied: a classical simple bolted joint, two joints with an insert (a BigHead<sup>R</sup> insert and a stair one) embedded in the composite, two “waved” solutions, three symmetrical configurations composed of a succession of metallic and composites layers, without a sleeve, with one and with two sleeves, and two non-symmetrical constituted of metallic and composites layers associated with a stair-insert (one with a sleeve and one without). A tridimensional Finite Element Method (FEM) was used to model each configuration mentioned above. The FE models taked into account the different materials, the effects of contact between the different sheets of the assembly and the pre-stress in the bolt. The stress state was analyzed in the composite part. The concept of stress concentration factor was used in order to evaluate the stress increase in the highly stressed regions and to compare the ten configurations studied. For this purpose, three stress concentration factors were defined: one for a monotonic loading in tension, another for a monotonic loading in compression, and the third for a tension-compression cyclic loading. The results of the FEM computations showed that the use of alternative metallic and composite layers associated with two sleeves gived low values of stress concentration factors, smaller than 1.4. In this case, there was no contact between the bolt and the composite part and the most stressed region was not the vicinity of the hole but the end of the longest layers of the metallic inserts. 展开更多
关键词 Bolted Joint glass-Epoxy Composite CLEARANCE Hybrid steel-Composite
下载PDF
Preparation and Characterization of Low-melting Glasses Used as Binder for Protective Coating of Steel Slab 被引量:1
2
作者 仉小猛 魏连启 +5 位作者 XU Haiwei WANG Shuhua YE Shufeng WANG Xiaojing ZHOU Xun CHEN Yunfa 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2013年第2期380-383,共4页
The low-melting phosphate glass was prepared for production of glass binders for protective coating of steel slab. Effects of different O/P ratios on glass structures and properties were analyzed. Differential thermal... The low-melting phosphate glass was prepared for production of glass binders for protective coating of steel slab. Effects of different O/P ratios on glass structures and properties were analyzed. Differential thermal analysis (DTA) and infrared spectroscopy (IR) techniques were applied for low-melting glass binder. It was found that the glass transition temperature(T) was about 300 ℃ and softening temperature(T1) was about 480 ℃. The choice of O/P ratio was very important to the glass transition and softening temperatures. When more P=O bonds existed in the glass networks, P-O-P bond angle was deformed with decreasing of the ratio of O/E The coatings could adhere to the substrates instantaneously at 800 ℃ when the content of binder exceeded 3wt%. The optimal content of glass binder was 5wt%. 展开更多
关键词 low-melting glasses binders steel slab protective coating
下载PDF
A novel process of preparing glass-ceramics directly from molten steel slag 被引量:1
3
作者 ZHANG Kai DENG Chao +2 位作者 LIU Wanchao LIU Jianwen YANG Jiakuan 《Baosteel Technical Research》 CAS 2011年第2期9-14,共6页
A novel process technology to prepare glass-ceramics directly from molten steel slag (MSS) is proposed in the study. The liquid-solid mixing method was used to adjust the components of the MSS and glass-ceramics was... A novel process technology to prepare glass-ceramics directly from molten steel slag (MSS) is proposed in the study. The liquid-solid mixing method was used to adjust the components of the MSS and glass-ceramics was obtained. The effects of heat-treatment conditions on the microstructure ,physical and mechanical properties of samples were studied. Economical benefits of the novel process were analyzed. The results show that heat-treatment is a very effective approach to achieving crystallization. The dominant crystal phase in products is diopside [ ( Mg6Al2Fe2 ) Ca ( Si1.5 Al5 ) O2 ]. The shape of the crystallization is like a granule. The glass-ceramic samples exhibited good mechanical properties and presented chemical stability. The economic benefits of the process are remarkable due to less energy consumption compared with conventional glass-ceramics production methods. 展开更多
关键词 steel slag glass-CERAMICS mass homogenization waste management
下载PDF
Experimental study on glass-ceramics preparation from hot steel slag
4
作者 ZHANG Kai~(1,2)),DENG Chao~(1)) and YANG Jiakuan~(1)) 1) College of Environmental Science and Engineering,Huazhong University of Science & Technology,Wuhan 430074,Hubei,China 2) School of Energy & Environment,Inner Mongolia University of Science and Technology,Baotou 014010,Inner Mongolia,China 《Baosteel Technical Research》 CAS 2010年第S1期136-,共1页
When liquid steel slag produced from steelmaking process was treated into the post-cold slag by conventional methods,the great deal of slag heat was dissipated into the environment,causing a lot of energy waste and en... When liquid steel slag produced from steelmaking process was treated into the post-cold slag by conventional methods,the great deal of slag heat was dissipated into the environment,causing a lot of energy waste and environmental pollution.In this study,a novel approach of direct utilization of hot steel slag as a raw material and slag heat for the production of glass-ceramics was proposed and experimentally tested.In order to simulate liquid slag from steelmaking electric furnace,40%water-quenched slag was remelted at 1 450℃and then mixed with 60%melting additives(silica powder,alumina powder and sodium oxide, etc.)and subsequently melted together at 1 500℃for 1 h into modified liquid slag which was cast,heat-treated, annealed and transformed into glass-ceramics.The heat-treated glass samples were investigated using differential thermal analysis(DTA),X-ray diffraction(XRD),and scanning electron microscopy(SEM). The results show that dominant crystalline phase is diopside[CaFe(SiO_3)_2]and the shape of the crystal is like the granule,diameter is about 0.2 -0.6μm.A glass-ceramic with nucleation temperature of 695℃for two hours and crystallization temperature of 893℃for one hour and 1 163℃for half-hour exhibited the best combination of properties.This method of slag mixed with melting additives to adjust the composition of the parent glass is important for the industrial production of glass-ceramics by direct utilization of hot steel slag. 展开更多
关键词 hot steel slag glass-CERAMICS heat-treated DIOPSIDE
下载PDF
Comparison between Glass and Stainless-Steel Vessels in Differential Scanning Calorimetry Estimation
5
作者 Miyako Akiyoshi Ken Okada +1 位作者 Shu Usuba Takehiro Matsunaga 《American Journal of Analytical Chemistry》 2017年第1期19-34,共16页
Differential scanning calorimetry (DSC) provides easy screening for thermal hazard evaluation. Here, we investigate the difference between using glass and stainless-steel vessels on the DSC measurement of exothermic d... Differential scanning calorimetry (DSC) provides easy screening for thermal hazard evaluation. Here, we investigate the difference between using glass and stainless-steel vessels on the DSC measurement of exothermic decomposition energy (QDSC) for 41 chemical substances (containing nitro, halogen, peroxide, and sulfur groups, and hydrazine bonds). Two borosilicate glass vessels (capillary and ampule) and one stainless-steel vessel were used. All QDSC values obtained were investigated with reference to the permissible fluctuation range specified by the ASTM (American Society for Testing and Materials) international Both glass vessels produced very similar QDSC values, despite different sample scales. The QDSC values obtained with the glass vessels were generally roughly within the variation tolerance range of the stainless-steel vessel. Notable exceptions were halogen- or sulfur-containing compounds;these exhibited smaller QDSC values with glass vessels in almost all cases. We will investigate whether certain structures in compounds react with stainless steel. The vessel material choice is crucial in evaluating the true reactivity of a substance. 展开更多
关键词 Differential Scanning CALORIMETRY glass VESSEL STAINLESS-steel VESSEL EXOTHERMIC Decomposition Energy UNITED Nations Recommendations
下载PDF
Influence of Non-smooth Surface on Tribological Properties of Glass Fiber-epoxy Resin Composite Sliding against Stainless Steel under Natural Seawater Lubrication 被引量:8
6
作者 WU Shaofeng GAO Dianrong +1 位作者 LIANG Yingna CHEN Bo 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2015年第6期1171-1176,共6页
With the development of bionics, the bionic non-smooth surfaces are introduced to the field of tribology. Although non-smooth surface has been studied widely, the studies of non-smooth surface under the natural seawat... With the development of bionics, the bionic non-smooth surfaces are introduced to the field of tribology. Although non-smooth surface has been studied widely, the studies of non-smooth surface under the natural seawater lubrication are still very fewer, especially experimental research. The influences of smooth and non-smooth surface on the frictional properties of the glass fiber-epoxy resin composite(GF/EPR) coupled with stainless steel 316 L are investigated under natural seawater lubrication in this paper. The tested non-smooth surfaces include the surfaces with semi-spherical pits, the conical pits, the cone-cylinder combined pits, the cylindrical pits and through holes. The friction and wear tests are performed using a ring-on-disc test rig under 60 N load and 1000 r/min rotational speed. The tests results show that GF/EPR with bionic non-smooth surface has quite lower friction coefficient and better wear resistance than GF/EPR with smooth surface without pits. The average friction coefficient of GF/EPR with semi-spherical pits is 0.088, which shows the largest reduction is approximately 63.18% of GF/EPR with smooth surface. In addition, the wear debris on the worn surfaces of GF/EPR are observed by a confocal scanning laser microscope. It is shown that the primary wear mechanism is the abrasive wear. The research results provide some design parameters for non-smooth surface, and the experiment results can serve as a beneficial supplement to non-smooth surface study. 展开更多
关键词 non-smooth surface friction coefficient wear resistance glass fiber-epoxy resin composite seawater lubrication stainless steel 316L
下载PDF
混杂网格增强超高性能混凝土双向板的弯曲性能
7
作者 邓宗才 李倩 《天津大学学报(自然科学与工程技术版)》 EI CSCD 北大核心 2024年第3期301-310,共10页
网格增强超高性能混凝土(ultra-high performance concrete,UHPC)具有轻质、高强、耐久性好等特性,已应用于薄壁结构和工程加固领域,但单一网格很难实现高效的增强增韧效应.为研究混杂网格增强UHPC双向板的抗弯性能,对3个钢丝网格与玻... 网格增强超高性能混凝土(ultra-high performance concrete,UHPC)具有轻质、高强、耐久性好等特性,已应用于薄壁结构和工程加固领域,但单一网格很难实现高效的增强增韧效应.为研究混杂网格增强UHPC双向板的抗弯性能,对3个钢丝网格与玻璃纤维网格混杂增强UHPC板、3个钢丝网格与玄武岩纤维网格混杂增强UHPC板、6个单一网格增强UHPC板和1个无网格UHPC对照板进行弯曲试验,研究网格种类、总层数及铺层方式对其破坏形态、承载能力和弯曲韧性的影响.结果表明:与单一钢丝网格板和单一玻璃纤维网格板相比,钢-玻璃纤维网格混杂板开裂后表现更显著的硬化现象,在连续网格与混杂短纤维协同效应下,板呈现多裂缝破坏模式,延性较理想.铺设2层网格时,钢-玻璃纤维网格混杂板的承载能力较单一钢丝网格板提升23.7%,且其在20 mm挠度处的残余承载力较单一玻璃纤维网格板提升28.2%;钢-玄武岩纤维网格混杂板峰前阶段的能量吸收值和20 mm挠度处的残余承载力均优于单一玄武岩纤维网格板.网格总层数为3层时,与单一玄武岩纤维网格板相比,2层钢丝网格与1层玄武岩纤维网格混杂增强板在峰前挠度为2 mm时的能量吸收值提高了21.6%,20 mm挠度处的残余承载力提高了42.6%.钢-玻璃纤维网格混杂板的网格强度利用率最理想,其承载能力、能量吸收值及弯曲韧性指标均高于钢-玄武岩纤维网格混杂板.最后,考虑网格强度有效利用率建立了混杂网格增强UHPC双向板抗弯承载力理论公式,适用性良好. 展开更多
关键词 钢丝网格 玻璃纤维网格 玄武岩纤维网格 混杂效应 超高性能混凝土双向板 弯曲性能
下载PDF
利用不锈钢渣制备微晶玻璃的研究进展 被引量:1
8
作者 沈月 周亚辉 +4 位作者 贾璐 贾路瑶 李浩 姚彬 邓磊波 《硅酸盐通报》 CAS 北大核心 2024年第1期347-353,共7页
工业的快速发展导致固体废弃物逐年增加,由其带来的环境与资源问题不容忽视。利用工业固体废弃物制备微晶玻璃材料是固废资源化利用的重要途径之一,同时,该方法还可实现有害重金属元素的固化,减少环境危害。本文基于不锈钢渣的来源与特... 工业的快速发展导致固体废弃物逐年增加,由其带来的环境与资源问题不容忽视。利用工业固体废弃物制备微晶玻璃材料是固废资源化利用的重要途径之一,同时,该方法还可实现有害重金属元素的固化,减少环境危害。本文基于不锈钢渣的来源与特性,对比分析了不锈钢渣无害化处理的常见方法。针对不锈钢渣的无害化处理和资源化利用问题,重点综述了利用不锈钢渣制备微晶玻璃过程中主要成分对材料结构与性能的影响;另外,基于微晶玻璃对重金属元素的固化研究现状,重点讨论了微晶玻璃对不锈钢渣中Cr、Ni、Mn重金属元素的固化;最后对不锈钢渣无害化处理与资源化利用的未来研究方向进行了展望。 展开更多
关键词 不锈钢渣 微晶玻璃 重金属 固化 无害化处理
下载PDF
TMD对人行桥疲劳寿命的影响研究
9
作者 马法荣 朱前坤 +1 位作者 蒲兴龙 杜永峰 《振动工程学报》 EI CSCD 北大核心 2024年第6期928-936,共9页
针对人群运动导致人行结构振动过大而日益突出的疲劳破坏问题,可供参考的研究成果甚少。本文以钢-玻璃人行桥为试验平台开展关于安装TMD前后人致人行桥疲劳性能的研究,采用APS400电子激振器激励模拟人行荷载,通过长期应变监测数据,分析... 针对人群运动导致人行结构振动过大而日益突出的疲劳破坏问题,可供参考的研究成果甚少。本文以钢-玻璃人行桥为试验平台开展关于安装TMD前后人致人行桥疲劳性能的研究,采用APS400电子激振器激励模拟人行荷载,通过长期应变监测数据,分析得出了该结构下的疲劳应力谱以及日平均损伤度,进而预估其疲劳寿命。结果表明:安装TMD后,结构1/2处的加速度峰值由0.15 m/s²减少到0.084 m/s²,减振率达44.0%;位移峰值由2.98 mm减少到0.92 mm,减振率达69.1%;应变幅值由40με减少到13με,减振率达67.5%。结构跨中处等效应力幅值最大,疲劳寿命最短,为74年;安装TMD后,结构跨中处疲劳寿命为2880年,延长近39倍,其他测点处依次延长了3.95倍、7.41倍。 展开更多
关键词 钢-玻璃人行桥 疲劳破坏 应变监测 疲劳应力谱 疲劳寿命
下载PDF
液氦液氢截止阀的有限元分析与优化设计
10
作者 金卡迪 俞伟 +5 位作者 尚玉来 俞建国 李平 葛志克 卢再望 陈安定 《阀门》 2024年第5期544-547,共4页
液氦液氢截止阀采用环氧玻璃钢材料进行结构优化,拟达到减少漏热并保持传动强度不受影响。然后采用有限元仿真针对优化前后的液氦液氢截止阀进行传热分析和应力分析。研究优化前后的阀体、长颈管、阀杆、环氧玻璃钢等部件的温度和应力... 液氦液氢截止阀采用环氧玻璃钢材料进行结构优化,拟达到减少漏热并保持传动强度不受影响。然后采用有限元仿真针对优化前后的液氦液氢截止阀进行传热分析和应力分析。研究优化前后的阀体、长颈管、阀杆、环氧玻璃钢等部件的温度和应力在超低温下的分布情况。结果表明:长颈管、阀杆管和环氧玻璃钢等部件均存在较大的温度梯度,但是,优化后的液氦液氢截止阀不仅漏热显著下降,同时,承压强度、变形等参数也均能满足设计要求。 展开更多
关键词 液氦液氢截止阀 环氧玻璃钢 有限元仿真 漏热
下载PDF
防切割服的研究现状及展望
11
作者 牛浩杰 杨瑾琨 +2 位作者 肖潇 姜菲 丛洪莲 《纺织科学与工程学报》 CAS 2024年第4期122-126,共5页
随着社会的进步,人们越来越重视安全防护,对具有防切割性能的安全防护用纺织品的需求量不断攀升。因此,研发和应用这类产品显得尤为迫切。日常生活中,服装会被锋利的刀刃割损,传统的棉、毛面料不具备防切割功能,与刀刃接触时不仅会割断... 随着社会的进步,人们越来越重视安全防护,对具有防切割性能的安全防护用纺织品的需求量不断攀升。因此,研发和应用这类产品显得尤为迫切。日常生活中,服装会被锋利的刀刃割损,传统的棉、毛面料不具备防切割功能,与刀刃接触时不仅会割断纤维造成材料浪费,还无法有效的保护皮肤。为了更好地开发防切割服装,综述了防切割服的研究现状。从纤维角度介绍了多种防割性能优越的纤维,如UHMWPE纤维、不锈钢金属丝、芳纶等;从纱线结构角度,介绍了混纺纱、包芯纱和包覆纱的性能;从织物角度介绍了针织、机织和复合织物的性能特点。最后指出了防割服的发展现状与不足之处,以及对未来发展的期望。 展开更多
关键词 UHMWPE纤维 不锈钢金属丝 玻璃纤维 芳纶纤维 防切割服装
下载PDF
钢结构玻璃幕墙的施工技术探讨
12
作者 张磊 《工程建设与设计》 2024年第21期209-211,共3页
为了提升钢结构玻璃幕墙施工质量,确保钢结构玻璃幕墙的稳定性、功能性和美观性,论文对钢结构玻璃幕墙进行了简要介绍,从施工要求、施工准备和施工技术要点等方面对钢结构玻璃幕墙的施工技术进行了探析。
关键词 钢结构 玻璃幕墙 施工技术 安全要求
下载PDF
钢-玻璃纤维增强橡胶混凝土抗裂性能研究
13
作者 申阳瑾 《广州建筑》 2024年第1期93-96,共4页
为探究钢-玻璃混掺纤维对橡胶混凝土工作性能和抗裂性能的作用,进行了坍落度测试,劈拉和四点弯曲试验,分析了钢纤维和玻璃纤维掺量对橡胶混凝土工作性能、劈拉性能和抗弯性能的影响规律。研究结果表明:纤维的掺入会影响橡胶混凝土的流动... 为探究钢-玻璃混掺纤维对橡胶混凝土工作性能和抗裂性能的作用,进行了坍落度测试,劈拉和四点弯曲试验,分析了钢纤维和玻璃纤维掺量对橡胶混凝土工作性能、劈拉性能和抗弯性能的影响规律。研究结果表明:纤维的掺入会影响橡胶混凝土的流动性,影响的程度与纤维的总表面积有关;橡胶混凝土的劈拉强度和抗弯强度总体上随钢纤维掺量增加而增加;由于玻璃纤维对混凝土流动性的影响较大,玻璃纤维掺量对强度的影响规律比较复杂,最佳掺量通常在0.4%。 展开更多
关键词 橡胶混凝土 钢纤维 玻璃纤维 抗裂性能
下载PDF
玻璃-钢纤维增强路用橡胶混凝土力学性能研究
14
作者 申阳瑾 《广州建筑》 2024年第4期48-52,共5页
为了改善路用橡胶混凝土的力学性能,本文采用混掺玻璃/钢纤维的方法对其受压性能进行加强。探究了不同玻璃纤维和钢纤维掺量对路用橡胶混凝土受压性能的影响规律。分析了玻璃/钢纤维增强橡胶混凝土的失效演化过程。揭示了混掺玻璃/钢纤... 为了改善路用橡胶混凝土的力学性能,本文采用混掺玻璃/钢纤维的方法对其受压性能进行加强。探究了不同玻璃纤维和钢纤维掺量对路用橡胶混凝土受压性能的影响规律。分析了玻璃/钢纤维增强橡胶混凝土的失效演化过程。揭示了混掺玻璃/钢纤维对橡胶混凝土抗压强度、峰值应变、弹性模量、泊松比和抗压韧度的影响机制。研究表明,玻璃纤维能够控制橡胶混凝土微裂缝的形成,钢纤维能够控制混凝土宏观裂缝的发展。两者相辅相成,对橡胶混凝土抗压强度、峰值应变和抗压韧度均有极大改善。 展开更多
关键词 橡胶混凝土 钢纤维 玻璃纤维 受压性能
下载PDF
钢结构玻璃幕墙施工技术应用研究
15
作者 邱江 《建筑与装饰》 2024年第14期118-120,共3页
随着建筑技术发展,钢结构玻璃幕墙作为现代建筑外立面备受关注。本文深入研究了其施工技术,旨在提高施工效率,确保工程质量,并探索其在不同环境下的适用性。回顾发展历程、介绍施工方法和技术,分析其在提高节能、美观和耐久性方面的优势... 随着建筑技术发展,钢结构玻璃幕墙作为现代建筑外立面备受关注。本文深入研究了其施工技术,旨在提高施工效率,确保工程质量,并探索其在不同环境下的适用性。回顾发展历程、介绍施工方法和技术,分析其在提高节能、美观和耐久性方面的优势;深入探讨施工中可能遇到的难题,并提出解决方案;结合实际案例,对质量控制、安全管理等进行系统分析。本文旨在通过对比施工方法的优缺点,为工程实践提供科学参考。 展开更多
关键词 钢结构 玻璃幕墙 施工技术 建筑外立面
下载PDF
附加装置固定玻璃棉板风管施工技术
16
作者 汪明霞 陈浩 +2 位作者 金明凯 徐昊成 龙尚明 《建筑技术》 2024年第17期2117-2120,共4页
以清华大学物理楼项目防火风管采用玻璃棉板施工为例,介绍了采用焊接钉代替胶粘钉固定板材的方法,重点阐述附加装置的制作及固定方法,此技术解决了矩形风管玻璃棉板在环境温度低,或施工进度要求紧不能采用胶粘钉固定影响进度的问题。该... 以清华大学物理楼项目防火风管采用玻璃棉板施工为例,介绍了采用焊接钉代替胶粘钉固定板材的方法,重点阐述附加装置的制作及固定方法,此技术解决了矩形风管玻璃棉板在环境温度低,或施工进度要求紧不能采用胶粘钉固定影响进度的问题。该施工方法创新响应了倡导环保节能的号召,为同类分项工程施工提供技术参考。 展开更多
关键词 附加钢带 焊接钉 玻璃棉板 矩形风管
下载PDF
蓄热室玻璃窑炉砌筑细节与要点
17
作者 靳一铁 郭玺 《玻璃搪瓷与眼镜》 CAS 2024年第6期26-33,共8页
窑炉使用寿命的长短不仅与窑炉设计、耐材选择、日常维护和玻璃配方有关,而且与砌筑质量息息相关。砌筑质量差,会加速堵塞窑炉蓄热室,容易造成窑炉大碹窜火、掉砖以及熔化池漏料等问题,严重的会影响窑炉的使用寿命。从蓄热式窑炉基础的... 窑炉使用寿命的长短不仅与窑炉设计、耐材选择、日常维护和玻璃配方有关,而且与砌筑质量息息相关。砌筑质量差,会加速堵塞窑炉蓄热室,容易造成窑炉大碹窜火、掉砖以及熔化池漏料等问题,严重的会影响窑炉的使用寿命。从蓄热式窑炉基础的校正与定位、窑炉钢立柱安装、炉条碹砌筑、蓄热室墙体砌筑、筒型砖码放、池底保温层砌筑等环节入手,探讨窑炉砌筑中的一些要点与注意事项。 展开更多
关键词 蓄热室马蹄焰窑炉 窑炉砌筑 窑炉钢立柱 筒型砖 池底保温层
下载PDF
钢渣-粉煤灰固废复合碱激发胶凝材料矿化养护
18
作者 宋夏 赵传文 +2 位作者 宋雨佳 郭亚飞 孔啸 《洁净煤技术》 CAS CSCD 北大核心 2024年第10期88-98,共11页
针对钢渣固废占用资源、污染环境的问题,将钢渣与CO_(2)矿化封存技术相结合可实现工业固废和CO_(2)的资源化利用。通过研究钢渣–粉煤灰复合碱激发胶凝材料在自然和矿化养护条件下,不同CaO和水玻璃掺量、水玻璃模数、矿化养护压力和时... 针对钢渣固废占用资源、污染环境的问题,将钢渣与CO_(2)矿化封存技术相结合可实现工业固废和CO_(2)的资源化利用。通过研究钢渣–粉煤灰复合碱激发胶凝材料在自然和矿化养护条件下,不同CaO和水玻璃掺量、水玻璃模数、矿化养护压力和时长对样品固碳率和抗压强度的影响,发现当添加质量分数15%CaO、4%模数为2.2的水玻璃时,样品的固碳率和抗压强度分别可达7.86%和158 MPa,有最佳综合性能。其中,CaO掺量与样品的固碳率呈正比,当不添加CaO时,固碳率仅0.35%;当CaO掺量升至15%时,固碳率可达7.86%。可见,CaO对固碳率的提升起决定作用。随着矿化养护压力升高,固碳率由4.82%升至7.86%。当矿化养护时间由0.25 h增至1.5 h时,固碳率增幅124%。XRD结果表明,矿化养护28 d后,Ca(OH)_(2)衍射峰消失,方解石含量显著上升,可见Ca(OH)_(2)与CO_(2)发生碳酸化反应,生成大量具有较良好稳定性的方解石,有效实现CO_(2)封存。SEM测试结果表明,矿化养护后样品生成的大量方解石与C-S-H凝胶和粉煤灰玻璃体紧密地附着在一起,利于提高抗压强度。通过压汞测试测定CO_(2)养护前后孔隙分布,相较自然养护,矿化养护后样品的孔隙大幅下降,矿化产物起好填充作用,使样品的强度得到明显提升。结合经济性分析发现矿化钢渣–粉煤灰碱激发胶凝材料有好的综合性能与经济效益。 展开更多
关键词 钢渣 矿化养护 CAO 水玻璃 碱激发胶凝材料 粉煤灰
下载PDF
核化工玻璃固化桶焊接温度场与热变形分析
19
作者 张蔷 王皓皓 窦远 《广东化工》 CAS 2024年第5期87-92,40,共7页
为了掌握核化工玻璃固化焊封装置钢桶本体与密封盖之间的焊封焊接过程的温度和结构响应,本文基于ANSYS Workbench开展钢桶焊接温度场与热变形分析,采用高斯热源模型模拟焊接热源输入。数值计算结果较好的反映了钢桶本体与密封盖之间进... 为了掌握核化工玻璃固化焊封装置钢桶本体与密封盖之间的焊封焊接过程的温度和结构响应,本文基于ANSYS Workbench开展钢桶焊接温度场与热变形分析,采用高斯热源模型模拟焊接热源输入。数值计算结果较好的反映了钢桶本体与密封盖之间进行焊接时的温度变化特征、热应力分布特征和热变形情况,对比了焊封装置钢桶焊接初始温度25℃(常温)与初始温度200℃下热应力与热变形的差异情况,计算分析可为核化工玻璃固化焊封装置钢桶焊接工艺的固化提供参考依据。 展开更多
关键词 核化工 玻璃固化 焊封装置 钢桶焊接 高斯热源 热变形
下载PDF
Experimental Study on Influence of Dimples on Lubrication Performance of Glass Fiber-epoxy Resin Composite under Natural Seawater Lubrication 被引量:7
20
作者 WU Shaofeng GAO Dianrong +1 位作者 LIANG Yingna CHEN Bo 《Chinese Journal of Mechanical Engineering》 SCIE EI CAS CSCD 2017年第1期110-117,共8页
Bionic non-smooth surface is widely applied in metal and ceramics materials. In order to introduce this technology to high pressure seawater pump, the influence of bionic non-smooth surface on the engineering plastics... Bionic non-smooth surface is widely applied in metal and ceramics materials. In order to introduce this technology to high pressure seawater pump, the influence of bionic non-smooth surface on the engineering plastics used in pump should be investigated. The comparative tests are carried out with a ring-on-disc configuration under 800, 1000, 1200 and 1400 r/min in order to research the influence of the bionic non-smooth surface on glass fiber-epoxy resin composite(GF/EPR) under natural seawater lubrication. The disc surfaces are textured with five kinds of pits, which are semi-spherical, conical, cone-cylinder combined, cylindrical pits and through holes, respectively. A smooth surface is tested as reference. The results show that the lubrication performance of dimpled GF/EPR sample is much better than that of the smooth sample under all rotational speeds. The semi-spherical pits surface has more obvious friction reduction than the others, which shows that the least reduction is approximately 43.29% of smooth surface under 1200 r/rain. However, the wear level is only marginally influenced by dimples. The surface morphology investigations disclose severe modifications caused by abrasive wear primarily. The results are helpful to vary friction properties of GF/EPR by non-smooth surface, or provide references to the design of non-smooth surfaces under certain condition. 展开更多
关键词 !bionic non-smooth surface seawater lubrication friction coefficient glass fiber-epoxy resin composite stainless steel 316L
下载PDF
上一页 1 2 27 下一页 到第
使用帮助 返回顶部