ABOUT THE INFLUENCE OF DOWNHOLE VIBRATION EFFECTS ON CEMENT STONE IMPERMEABILITY

The article presents the study of processes of structure formation of cement stone and products of hardening of organic-mineral compositions with fibrous filler (shavings) by the electronic scanning microscopy method. It is established that the additive-free cement stone at the age of 28 days has a dense and homogeneous structure, consists of calcium hydro-silicates, Portlandite and calcite - newgrowths characteristic for cement systems. Cellulose fibers, which make up the bulk of the substance of shavings, are sufficiently active, which determines the high adhesion of the hydration products of the cement binder to their surface. It is shown that the introduction of shavings into the organo-mineral composition leads to inhibition of cement hydration processes. Organo-mineral compositions with different shavings content (two compositions) were analyzed. The first composition is characterized by a fairly dense structure, the cement stone consists of globular nanoscale nuclei of hydrosilicates, Portlandite and calcite. The second composition has a loose porous structure, cement stone consists of non-hydrated cement grains, newgrowths are represented by calcite and vaterite. The structure of the contact zone "osprey fiber-cement stone" in the organo-mineral composition of the first composition indicates a good adhesion of the filler surface with the phases of hydrated cement. The use of shavings as a fibrous filler (the first composition) increases the tensile and bending strength, as well as the wear resistance of organo-mineral compositions. The data obtained by scanning electron microscopy are confirmed by the results of studying the processes of structure formation of cement stone by quantitative x-ray phase analysis.

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Assessment of fastening quality (tightness) and physical-mechanical properties of a cement stone in the annulus space

Construction of Oil and Gas Wells on Land and Sea ◽

10.30713/0130-3872-2019-8-17-21 ◽

2019 ◽

pp. 17-21

Author(s):

S.V. Kamenskikh ◽

◽

N.M. Ulyasheva ◽

I.F. Chuprov ◽

◽

...

Keyword(s):

Mechanical Properties ◽

Cement Stone

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RESEARCH OF A CEMENT STONE FRAGILITY IN THE ANNULAR SPACE OF A WELL

Oilfield Engineering ◽

10.30713/0207-2351-2020-3(615)-31-35 ◽

2020 ◽

pp. 31-35

Author(s):

D.L. Bakirov ◽

◽

V.A. Burdyga ◽

M.M. Fattakhov ◽

G.N. Gritsay ◽

...

Keyword(s):

Cement Stone ◽

Annular Space

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Research of the Influence of Pyrogenic Nanosilica on the Heat Hydration and Cement Stone Microstructure

Stroitel nye Materialy ◽

10.31659/0585-430x-2020-778-1-2-3-7 ◽

2020 ◽

Vol 778 (1-2) ◽

pp. 3-7

Author(s):

L.A. URKHANOVA ◽

◽

S.A. LKHASARANOV ◽

E.V. BADMAEVА ◽

◽

...

Keyword(s):

Cement Stone

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Development of lignocellulosic fiber reinforced cement composite panels using semi-dry technology

Cellulose ◽

10.1007/s10570-021-03755-4 ◽

2021 ◽

Vol 28 (6) ◽

pp. 3631-3645

Author(s):

K. M. Faridul Hasan ◽

Péter György Horváth ◽

Tibor Alpár

Keyword(s):

Flexural Modulus ◽

Cement Composite ◽

Composite Panel ◽

Bending Test ◽

Morphological Properties ◽

Cement Stone ◽

Composite Panels ◽

Internal Bonding ◽

Dry Process ◽

Lignocellulosic Fiber

AbstractThere is a growing interest in developing cement bonded lignocellulosic fiber (LF) composites with enhanced mechanical performances. This study assessed the possibility of developing composite panels with 12 mm thickness and around 1200 kg/m3 nominal densities from ordinary Portland cements (OPC) and mixed LFs from seven different woody plants found in Hungary. Once the mixed LFs were sieved and found fine (0–0.6 mm) and medium (0.6–0.8 mm) length fibers. The optimum ratio for LF, OPC, water glass (Na2SiO3), and cement stone was found to be 1:3.5:0.7:0.07. The semi-dry process, which is a comparatively cheaper and less labor intensive technology, was used for producing the composites. After 28 days of curing, the composite panels were characterized for mechanical, physical, thermal, and morphological properties. A scanning electron microscopy (SEM) test was conducted to observe the fiber orientation in the matrix before and after the bending test, which showed the clear presence of the fibers in the composites. The FTIR (Fourier transform infrared spectroscopy) was conducted to investigate the presence of chemical compounds of LF in the composite panels. Different physical (water absorption and thickness swelling) characteristics of the composite panels were investigated. Furthermore, mechanical properties (flexural properties and internal bonding strength) of the composite panels were also found to be satisfactory. The flexural modulus and internal bonding strengths of composite panel 2 is higher than other three boards, although the flexural strength is a little lower than composite panel 1. The thermogravimetric analysis and differential thermogravimetry also indicated better thermal stability of composite panels which could be used as potential insulation panel for buildings. Graphic abstract

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POROSITY PARAMETERS OF CEMENT STONE CONTAINING CHEMICAL ADMIXTURES OF DIFFERENT PURPOSE / CEMENTINIO AKMENS SU SKIRTINGOS PASKIRTIES CHEMINIAIS PRIEDAIS PORINGUMO RODIKLIAI

Mokslas - Lietuvos ateitis ◽

10.3846/mla.2013.83 ◽

2013 ◽

Vol 5 (5) ◽

pp. 530-535

Author(s):

Lukas Venčkauskas ◽

Mindaugas Daukšys

Keyword(s):

Cement Paste ◽

Cement Stone ◽

Hardened Cement ◽

Closed Porosity ◽

Hardened Cement Paste ◽

Chemical Admixtures ◽

Average Size ◽

The Impact ◽

Plasticizing Admixture

The conducted research has established a complex influenceand the impact of separate chemical admixtures of differentpurpose on the parameters of the porosity of hardened cementpaste such as open and closed porosity, the average size of poresand the rates of pore inequality. According to the parametersof the porosity of hardened cement paste, on the basis of A. E.Sheikin’s methodology, the number of freezing-thawing cycleswas predicted. This research used plasticizing, viscosity modifyingand antifoaming admixtures. It has been found that, when theamount of plasticizing admixture in cement paste (W/C–0.45) isconstant and makes 1.1% of the cement mass, and the amountof viscosity modifying and antifoaming the admixture increasesfrom 0.1 to 0.6% and from 0.05 to 0.3% respectively, the openporosity of hardened cement paste varies between 30.21% and31.06%, while closed porosity varies between 5.39% and 6.22%.When the amount of the plasticizing admixture in cement paste(W/C–0.45) exceeds 1.1% of the cement mass, the open porosityof hardened cement paste increases by 1.4 times and closedporosity decreases by 2.5 times. While adding 0.1% of the viscositymodifying admixture to cement paste, the open porosityof hardened cement paste is increased by 1.5 times and closedporosity decreases by 2.4 times. The amount of 0.05% of thecement mass of the antifoaming admixture results in the increasedopen porosity of hardened cement paste by 1.5 times and reducedclosed porosity by 3.5 times. Santrauka Tyrimo metu nustatyta kompleksinė bei atskirų skirtingos paskirties cheminių priedų įtaka cementinio akmens poringumo rodikliams – atvirajam ir uždarajam poringumui, vidutinio porų dydžio ir porų vienodumo rodikliams. Tyrimuose naudoti cheminiai priedai: plastifikuojantis, klampą modifikuojantis ir mišinyje susiformavusias oro poras suardantis priedas. Nustatyta, kad cemento tešloje (V/C – 0,45) esant pastoviam plastifikuojančio priedo kiekiui – 1,0 % cemento masės, klampą modifikuojančio priedo kiekiui kintant nuo 0,1 iki 0,6 %, o mišinyje susiformavusias oro poras suardančio priedo kiekiui kintant nuo 0,05 iki 0,3 %, cementinio akmens atvirasis poringumas svyruoja nuo 30,21 iki 31,06 %, o uždarasis – nuo 5,39 iki 6,22 %. Cemento tešloje viršijus plastifikuojančio priedo 1,1 % cemento masės, cementinio akmens atvirasis poringumas padidėja apie 1,4 karto, o uždarasis poringumas sumažėja apie 2,5 karto. Pridėjus į tešlą 0,1 % cemento masės klampą modifikuojančio priedo, cementinio akmens atvirasis poringumas padidėja apie 1,5 karto, uždarasis poringumas sumažėja apie 2,4 karto. Oro poras suardančio priedo kiekis 0,05 % cemento masės cementinio akmens atvirąjį poringumą padidina apie 1,5 karto, uždarąjį poringumą sumažina apie 3,5 karto.

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The Research on Preparation of Binding Material and Concrete with Desulphurization Gypsum

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.697.17 ◽

2014 ◽

Vol 697 ◽

pp. 17-20

Author(s):

Ping Tan

Keyword(s):

Environmental Pollution ◽

Bending Strength ◽

Experimental Results ◽

Cement Stone ◽

Waste Sludge ◽

Binding Material

The binding material and concrete are prepared by desulphurization gypsum, cement, stone, sand and admixture. The performances of binding material are studied in the paper. The experimental results showed that it is absolutely feasible to prepare binding material by using cement, desulphurization gypsum and superplasticizer after drying and screening of desulphurization gypsum. The binding material was prepared by adding desulphurization gypsum replacing 10 percent cement and superplasticizer. the cement micellae compressive and bending strength of the binding material can meet the standard requirements of P.O42.5 and the binding material’s set time and soundness are up to standard. The concrete was prepared by adding desulphurization gypsum replacing 30 percent cement and superplasticizer. The concrete’s strength is up to standard of the C30 concrete, and its impermeability meets the requirement of P12. To execute the research can not only massively use waste sludge desulphurization gypsum but also solve environmental pollution.

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Applications of Nanomaterials in Wellbore Fluids in Oil and Gas Fields

Key Engineering Materials ◽

10.4028/www.scientific.net/kem.881.33 ◽

2021 ◽

Vol 881 ◽

pp. 33-37

Author(s):

Wei Na Di

Keyword(s):

Oil And Gas ◽

Drill String ◽

Wellbore Stability ◽

Petroleum Engineering ◽

Cement Stone ◽

Drilling Fluids ◽

Cement Slurry ◽

Oil And Gas Fields ◽

Gas Channeling ◽

Gas Fields

The application of nanomaterials in oil and gas fields development has solved many problems and pushed forward the development of petroleum engineering technology. Nanomaterials have also been used in wellbore fluids. Nanomaterials with special properties can play an important role in improving the strength and flexibility of mud cake, reducing friction between the drill string and wellbore and maintaining wellbore stability. Adding nanomaterials into the cement slurry can eliminate gas channeling through excellent zonal isolation and improve the cementing strength of cement stone, thereby facilitating the protection and discovery of reservoirs and enhancing the oil and gas recovery. This paper tracks the application progress of nanomaterials in wellbore fluids in oil and gas fields in recent years, including drilling fluids, cement slurries. Through the tracking and analysis of this paper, it is concluded that the applications of nanomaterials in wellbore fluids in oil and gas fields show a huge potential and can improve the performance of wellbore fluids.

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Regulation Of The Resistance Of Cement Concrete With Polymer Additive And Activated Liquid Medium

The American Journal of Applied Sciences ◽

10.37547/tajas/volume03issue04-24 ◽

2021 ◽

Vol 03 (04) ◽

pp. 172-177

Author(s):

Zebuniso Asrorovna Abobakirova ◽

Keyword(s):

Liquid Medium ◽

Cement Stone ◽

Polymer Additive ◽

Capillary Porosity ◽

Cement Concrete

The article presents the results of studies of cement concrete with a polymer reagent and an activated (magnetically treated) liquid medium. A decrease in the total and capillary porosity of the cement stone and an increase in microporosity up to 18% indicate an increase in the resistance of concrete in aggressive environments.

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