Early hydration of composite cement with thermal activated coal gangue

Composite cement samples were prepared by mixing clinker, gypsum with burnt coal gangues which was calcined at various temperatures. The mechanical strength and Ca(OH)₂ content in the cement paste were tested, and the paste composition and microstructure were analyzed by thermogravimetry-differential thermal analysis (TG-DSC), X-ray diffraction(XRD), scanning electronic microscopy (SEM) and pore structure analysis. Results demonstrate that the thermal activated coal gangue could accelerate the early hydration of cement clinker obviously, which promotes the gangue hydration itself. The early hydrated products of the cement are C-S-H gel, Ca(OH)₂ and AFt. The cement with 30% (in mass) the gangue exhibits higher mechanical strength, and among all the cement samples the one with the gangue burnt at 700 °C displays the highest hydration rate, mechanical strength, the most gel pores and the lowest total porosity.     

Resistance to chemical attack of bittern-resisting cement in high-bittern environment

A new kind of bittern-resisting cement （BRC） was introduced. This material is based on the ternary cementitious system of clinker containing C4A3 S phase, high-activity ground granulated blast-furnace slag （GGBFS） and fly ash （FA）. The hydration process and the hydrated products of BRC were studied by means of XRD, TG-DTA and SEM, and the resistance to chemical attack of BRC in high-bittern environment was also examined. The corrosion experiment in seven kinds of brines proved that BRC exhibits an excellent resistance to chemical attack of bittern. The corrosion resistance factors were calculated and all of them were greater than 0.96. It showed that BRC totally controls the cement-based material corrosion in brines from four aspects： （1） making full use of the dominant complementation effect of mineral materials; （2） diminishing the hydrated products easy to be attacked; （3） improving the microstructure of hardened cement mortar; （4） degrading the chemical attack of bittern.     

冶金渣制备生态型人工鱼礁混凝土的试验研究

通过正交试验研究了矿渣钢渣熟料石膏体系胶凝材料的强度。胶凝材料正交试验表明：矿渣：钢渣的复合比为7∶1,矿渣和钢渣的比表面积分别为480 m 2·kg -1和550 m 2·kg -1,并与10%的水泥熟料和10%的脱硫石膏复合的胶凝材料具有较高的强度。以优化后的胶凝材料代替水泥,并以热闷法稳定化的钢渣颗粒为骨料,可以制备出抗压强度达到65 MPa以上的人工鱼礁混凝土。利用XRD和SEM方法分析胶凝材料的水化过程,结果表明,水化反应主要生成AFt相和C-S-H凝胶,钢渣、水泥熟料和脱硫石膏的协同作用对矿渣的火山灰活性反应具有重要促进作用。     

电解锰渣胶结膏体材料的充填性能

针对电解锰渣占用大量土地资源、易产生重金属污染等问题,使用电解锰渣基胶凝材料、原状电解锰渣、中粗砂等材料制备电解锰渣自胶结膏体充填材料用于矿山回填。测试充填材料水化浆体流动度、试件抗压强度和浸出毒性,以评价该材料的性能,并用X射线衍射、扫描电镜进行表征。结果表明：该充填材料浆体流动度达到200 mm,流动性能满足充填技术要求;充填材料固化体固化28 d后,抗压强度可达到1.5 MPa以上,达到矿采场充填体强度要求;充填材料浸出毒性明显降低,主要污染重金属Mn、Co被充分固化稳定,浸出毒性满足地下水标准。固化体XRD及SEM分析发现,该充填材料水化生成的水化硅酸钙、钙矾石等晶体是固化体强度稳定、重金属得以固化的主要原因。研究表明,该方法能有效固化/稳定化电解锰渣,降低环境污染风险。     

A binder of phosphogypsum-ground granulated blast furnace slag-ordinary portland cement

A new hydraulic cementitious binder was developed by mainly utilizing industrial byproducts phosphogypsum(PG)and ground granulated blast furnace slag(GGBFS)with small addition of ordinary portland cement(OPC).The hydration process and microstructure were studied by X-ray diffraction(XRD) and scanning electronic microscopy(SEM).OPC hydrated first at early age to form primarily C-S-H gel,ettringite and calcium hydroxide(CH).GGBFS activated by CH and sulfate ions hydrated continuously at later age,producing mo...     

镁渣等工业废渣应用现状的研究及前景分析

镁渣矿物属于介稳的高温型结构,结构中存在活性的阳离子,所以,镁渣本身具有很高的水化活性,水化后生成水化硅酸钙凝胶,镁渣作为破胶凝材料是可行的,镁渣中的[SiO4]4-更易丢失,链断裂,形成类似于有机-无机杂化物的结构,在镁渣中掺入一定的硅酸盐水泥或磨细硅酸盐水泥熟料和磨细矿渣,以提高镁渣胶凝材料的耐久性,镁渣作为砂浆的胶结材料是非常理想的,镁渣不但可以提高砂浆的和易性,而且还可以提高砂浆的强度和耐久性,镁渣中掺入一定量的轻骨料,可制作轻质保温墙体材料或制成屋面材料。     

超塑化剂“CSP”对水泥水化及水泥石微观结构的影响

分别对掺与不掺超塑化剂“ＣＳＰ”的水泥试样进行测试分析，探讨了ＧＳＰ对水泥水化过程及水泥石微观结构的影响。传导量热法、结合水测定分析结果表明．ＣＳＰ使水泥水化的诱导期延长．对初期水化的抑制作用可延缓混凝土坍落度经时损失，而早期和后期水化加快，因此具有早强增器作用．ＴＧ—ＤＴＡ、ＸＲＤ、ＳＥＭ、ＭＩＰ等测试分析结果表明，ＣＳＰ使水泥石中凝胶农产物增多，有害孔减、无害孔增多，因而具有增强和提高混凝土耐久性的作用．     

低温硅灰-硅酸盐水泥复合胶凝体系力学性能及微观结构

目的研究不同温度体系时不同的硅灰掺量对复合胶凝体系的力学性能及微观结构的影响．方法在低温条件下,将体积分数为0、2％、5％、8％、10％的硅灰掺入到硅酸盐水泥中,测试水泥砂浆的抗压、抗折强度,进行SEM扫描电镜分析．结果随着硅灰掺入量的增加,复合胶凝体系的力学性能呈现先增加后降低的趋势,结构趋于密实;当硅灰的掺量达到8％时,复合胶凝体系的14d抗压、抗折强度达到最大值．结论低温环境影响了复合胶凝体系力学性能的发展,硅灰的加入促进了复合胶凝体系的水化,改善了水泥石的微观结构．     

Influence of New Compound Admixture on Shotcrete Performance

To analyze the influence of new compound admixture on shotcrete performance, the ordinary Portland cement pr425 was used as matrix components. The optimum proportion of admixture was obtained by analyzing the influence of content on cement setting time and compressive strength. The microstructure of cement test block and the mechanism of reducing dust of composite macromolecule admixture were analyzed by scanning electron microscopy and infrared spectroscopy. It was shown that the ratio of polyacrylic acid was 0.02%. The ratio of J85 accelerator was 5%. The ratio of bentonite was 4.5% in composite admixture. The most optimal content of admixture in the slurry was 7%. The compound coagulant formed by additive together with C_3 A, C_4 AF which provided nucleation for hydration and crystallization of C_3S and C_3S, and played an active role to promote the activity of the mineral admixture in cement, and increased the elastic modulus of C-S-H gel and accelerated the hydration process of portland cement. Bentonite and polyacrylic acid promote the wettability, cohesiveness and workability of cement paste in the process of hydration. The formation of cement test block gel was even. The interface between the matrix phase and the aggregate phase was not obvious which ensured the matching between the matrix and the aggregate phase. The addition of bentonite formed hydrogen bonds in cement paste and improved the cohesiveness of the system. The J-85 accelerator promoted the combination of aluminate and gypsum which hindered the formation of calcium carbide around the cement particles which made cement rapid condensation. Polyacrylic acid mainly changed the strength of hydroxyl absorption peak in cement paste to improve the initial strength of cement test block. The addition of new admixtures promoted the process of cement hydration to be more thorough and affected the later strength development of concrete by affecting the formation of calcium carbonate stone.     

Effects of clinker contents of different C3A and C4AF on the performance of PSC cement

Phosphogypsum-slag-clink (PSC) cement were prepared by original phosphogypsum(PG), which was grinded after dried at 60 °C combined with different contents of phosphogypsum (15%, 20%, 30%), and a small amount of different C₃A, C₄AF contents of finely ground cement clinker, and ground granulated blast furnace slag (GGBFS). Physical mechanical and sugaring properties were studied. The results show that compressive strength of PSC cement with 20% phosphogypsum at 3 d ages would be higher than 17 MPa and even 50 MPa at 28 days. Compressive strength at longer curing stage and sugaring properties of PSC with lower content of C₃A higher C₄AF clinker were improved. pH value of PSC cement system at early stage was relatively low, and pH gradually increased with the addition of clinker. pH increased firstly and then decreased with the hydration stage. SEM analyses showed that the amount of ettringite, which was influenced by pH and content of Al, must be controlled in PSC cement system, which may cause damage to microstructure or even expansive cracks if large amount of ettringite formed in hardened paste.     

Effect of curing conditions on the hydration and performance of CFBC ash cementitious system

Circulating fluidized bed combustion （CFBC） ash can be used as supplementary cementitious material for concrete production for its high pozzolanic activity. We investigated the effect of curing conditions on the hydration and performance of CFBC ash-Portland cement system （30： 70, by mass） including hydration products, paste microstructure, linear expansion ratio, chemically combined water content and compressive strength. The results show that tobermorite rather than ettringite is generated under the condition of autoclaved curing. The expansion and mortar strength of the system cured in water is higher than those cured in air at a given age, and the strength and bulk volume may retract under the condition of air curing. In addition, autoclaved curing facilitates the increase of strength gain at early curing ages （the increase rate lowers down in the following ages） and the improvement of system volume stability. It is suggested that sufficient water is necessary for the curing of CFBC ash cementitious system, and autoclaved curing may be considered where volume stability is a primary concern.     

复合型镁质胶凝材料的水化相及其硬化体显微结构

将菱苦土与苛性白云石按一定比例混合构成复合型镁质胶凝材料,将其与氯化镁水溶液按n（MgO）/n（MgCl2）=5拌和后形成氯氧镁水泥硬化体,研究了该复合型镁质胶凝材料的水化相及其硬化体显微结构。该硬化体的强度随着菱苦土在苛性白云石中含量的增加,其不同养护时间的抗折和抗压强度均随之增加,24 h的最高抗折强度为9.07 MPa,28 d的最高抗压强度为183.50 MPa,说明将复合型镁质胶凝材料与氯化镁溶液拌和后,形成了具有一定强度的水泥石或氯氧镁水泥硬化体。XRD和IR测试结果证明形成的硬化体为5型相结晶体,其显微特征主要是大量的凝胶体形貌而非针（棒）状结晶结构,呈放射状的针（棒）状晶体仅在孔洞中存在。认为凝胶体是复合型镁质胶凝材料硬化体具有很高强度的来源。     

利用污水厂污泥配料煅烧水泥熟料研究

通过生料易烧性试验、水泥熟料矿物岩相分析、XRD、SEM、水泥胶砂强度试验等，对利用污水厂污泥代替部分粘土配料煅烧硅酸盐水泥熟料的过程，并对制备熟料的微观特征进行了研究。结果表明：污水厂污泥代替部分粘土烧制的水泥熟料，其矿物结构与常规的硅酸盐水泥熟料完全相同，且由污泥配料煅烧的熟料烧成温度有降低的趋势；其水泥水化和凝结、硬化过程与常规硅酸盐水泥完全相同；其水化产物结构与常规硅酸盐水泥完全相同；水泥胶砂强度达到50．0MPa。     

Influence of ultra-fine fly ash on hydration shrinkage of cement paste

1INTRODUCTION Hydrationshrinkageisalsoknownaschemicalshrinkage[1].Thesolidvolumeincreasesafterce menthydrating,buttheabsolutevolumeofcementwatersystemreduces.Usuallythetotalamountofvolumeshrinkageofcementwatersystemis7%9%[1,2].Withthedevelopmentofthetechno logyofcementandconcrete,concretewithhighstrengthandhighperformanceisthedevelopingtendencynow.However,nowadays,comparedwithordinaryconcrete,thehydrationshrinkageofhighperformancecementconcreteincreasesobvi ouslybecauseoftheaccelerationof…     

The Properties of Cement Mortars Modified by Emulsified Epoxy and Micro-fine Slag

1　IntroductionDuetotheirexcellentworkability ,highcompressiveandtensilestrength ,goodimpermeability ,highcorrosion-resistingperformancesagainstacid ,alkaliandsalt,thecement basedmaterialsmodifiedbypolymershaveratherwideapplicationfields .Amongthevariouspolymers ,epoxyresinhasmanyadvantages :(1)Highbondingstrength .Fattygrouphydroxyl,etherandepoxy based ,areinvolvedinthemolecularstructureofepoxyresin .Thepolaritiesofhydroxylandethercauseelectromagnetismorchemicaladsorptionbetweentheepoxyresin…     

Physical Properties and Hydration of Cementitious Materials Prepared from Vanadium Slag and Phosphate Slag

The physical properties and hydration of a cementitious material, which prepared mainly from the vanadium slag and phosphate slag, were investigated. These slags were investigated can be reused as original resources to prepare cement clinker based on the fact that they mainly comprise silicon and calcium phases, respectively. In this research, a batch of cement having various grades was prepared by mixing the clinker with gypsum, tailings, and fly ash. X-ray diffraction(XRD), differential thermogravimetric(DTG) as well as scanning electron microscopy(SEM) were applied to test and analyze the physical properties and hydration of the prepared cement. Experimental results suggest that the performances of the cement meet the requirements of national standards in all aspects. Its hydration process is similar to that of common Portland cement, whose hydrates were mainly composed of C-S-H, ettringite and CH. Moreover, the addition of fine particles would accelerate cement hydration, as it provided additional surfaces to help the nucleating and growing of hydrates.     

石灰石粉铝酸盐水泥复合体系的水化反应

石灰石粉具有水化活性,能与硅酸盐水泥中的C₃A、铝酸盐水泥中的CA、CA₂等铝酸盐矿物发生反应,水化产物为水化碳铝酸钙。利用微量热仪法、胶砂强度和X射线衍射（XRD）,研究不同比例的石灰石粉铝酸盐水泥复合体系的水化反应,结果表明：石灰石粉会加快铝酸盐水泥的水化进程,水化过程诱导期缩短,放热速率峰值下降;复合体系中石灰石粉占比越高,早期水化反应速率越快,但水化反应放热量越低;相对而言,复合体系中石灰石粉掺量为20%时石灰石粉参与反应程度最高,且掺量为20%时石灰石粉对复合体系强度有显著贡献。随复合体系中石灰石粉比例增加,铝酸盐水泥水化产物越来越不明显;石灰石粉掺量为20%~40%时,水化碳铝酸钙XRD特征峰相对最明显,复合体系中石灰石粉与铝酸盐水泥存在一个最佳的比例范围。研究表明,石灰石粉与铝酸盐水泥间会发生明显的水化反应,石灰石粉与铝酸盐水泥复合有望制得一种新型胶凝材料。     

Optimization of the content of tricalcium silicate of high cementing clinker

Optimization of the content of tricalcium silicate(C 3 S)of high cementing clinker was investigated.The content of free-CaO(f-CaO),mineral composite,the content of C 3 S in the clinker and the hydration product were analyzed by chemical analysis and X-ray diffraction(XRD).K Valuemethod of QXRD was selected as a quantitative analysis way to measure the content of C 3 S,and the strength of cement paste was determined.The results show that at a water cement ratio of 0.29,the strength of cement paste with 73%C ...     

磷渣粉在复合胶凝材料中的水化特性

用扫描电镜、X射线衍射和水化热测定等方法研究了磷渣粉在复合胶凝材料体系中的水化特性,并与Ⅱ级粉煤灰进行对比.结果表明:磷渣粉具有很强的缓凝特性,其缓凝性导致复合胶凝材料体系早期水化慢、强度低,但后期强度高,超过了对比粉煤灰,并存在强度最大时的最佳掺量.早期时磷渣粉可以延缓C3A的水化,AFt的生成明显减少,磷渣粉颗粒表面出现腐蚀痕迹;后期(180d)已找不到磷渣粉颗粒存在,磷渣粉颗粒几乎都全部水化,水化产物非常致密.     

Properties of supersulphated phosphogysumslag cement (SSC) concrete

Supersulphated phosphogysum-slag cement （SSC） is a newly developed non-burned cementitious material mainly composed of phosphogysum （PG） and ground granulated blast furnace slag （GGBFS）, with small amount of steel slag （SS） and clinker （CL）. SSC is a kind of environmentally-friendly cementitious material due to its energy-saving, low-carbon emission, and waste-utilization. We prepared concretes with supersulphated phosphogysum-slag cement, and studied the mechanical properties, micro- properties and resistance to chloride penetration of concrete in comparison with those of portland slag cement （PSC） and ordinary portland cement （OPC） concrete. The test results show that the compressive strength of SSC concrete can reach 38.6 MPa after 28 d, close to PSC concrete and OPC concrete. Microanalyses indicate that large quantities of ettringite and C-S-H, and little amount of Ca（OH）2 are generated during the hydration of SSC. The dense cement paste structure of SSC is formed by ettringite and C-S-H, surrounded unreacted phosphogysum. The property of resistance to chloride penetration of SSC concrete is better than PSC and OPC concrete due to the fact that SSC can form much more ettringite to solidify more Cl^-.