Materials (Basel, Switzerland)

BioMed research international

Chemosphere

[1] The Alternatives to Traditional Materials for Subsoil Stabilization and Embankments.

[2] Leaching of elements from cement activated fly ash and slag amended soils.

[3] Separation of Levofloxacin from Industry Effluents Using Novel Magnetic Nanocomposite and Membranes Hybrid Processes.

[4] Screening of candidate corrosion resistant materials for coal combustion environments -- Volume 4. Final report, January 31, 1997

[5] fabrication of slag-glass composite with controlled porosity

[6] equivalencia entre medidas eléctricas y difracción de rayos x en la formación de fases cristalinas de pastas de cemento

[7] silicon production using long flaming coal and improvement of its quality indicators

[8] A Comprehensive Review on the Ground Granulated Blast Furnace Slag (GGBS) in Concrete Production

[9] Rheological and the Fresh State Properties of Alkali-Activated Mortars by Blast Furnace Slag

[10] Successful Development and Optimisation of Lead ISASMELT™ Furnace Slag Tapping System at Kazzinc Ltd.

[11] Utilization and efficiency of ground granulated blast furnace slag on concrete properties – A review

[12] Solubility, structure and probable effects on marine environment of slag from the iron and steel works in Iskenderun.

[13] Compressive strength, pore structure and chloride transport properties of alkali-activated slag/fly ash mortars

[14] Mechanical behavior of inert steel slag ballast for heavy haul rail track: Laboratory evaluation

[15] Effect of cooling rate on microstructure and mechanical properties in the CGHAZ of electroslag welded pearlitic rail steel

[16] Lightweight cement-free alkali-activated slag plaster for the structural retrofit and energy upgrading of poor quality masonry walls

[17] Verslag van de Vergadering, tevens herdenkingsbijeenkomst van het 25-jarig bestaan, der Nederlandsche Vereeniging voor Microbiologie, Gehouden Zaterdag 23 Mei 1936, in het Gemeente Ziekenhuis, Zuidwal 83, te 's-Gravenhage

[18] Verslag van de Vergadering der Nederlandsche Vereeniging voor Microbiologie - Gehouden Zaterdag 11 Mei 1935, voorm. 10.15 uur, in het Gemeente Ziekenhuis aan den Coolsingel te Rotterdam

[19] Verslag van de Vergadering der Nederlandsche Vereeniging voor Microbiologie - gehouden op Zaterdag 5 Mei 1934, in het Phytopathologisch Laboratorium, Javalaan 6, te Baarn

[20] Action research als relevante vorm van interventieonderzoek: Verslag van het World Congress on Action Learning and Action Research & Participatory Action Research 2006

[21] Influence of Titanium Dioxide Nanoparticles on the Sulfate Attack upon Ordinary Portland Cement and Slag-Blended Mortars

[22] Evaluation of Slag Reaction Efficiency in Slag-Cement Mortars under Different Curing Temperature.

[23] Slag Substitution as a Cementing Material in Concrete: Mechanical, Physical and Environmental Properties.

[24] An all-in-one strategy for the adsorption of heavy metal ions and photodegradation of organic pollutants using steel slag-derived calcium silicate hydrate.

[25] Low carbon design of an Ultra-High Performance Concrete (UHPC) incorporating phosphorous slag

[26] Study of buildup factor of gamma ray photons in bismuth-ground granulated blast furnace slag concrete

[27] Slag recycling in submerged arc welding and its effects on the quality of stainless steel claddings

[28] Recycling steel slag from municipal wastewater treatment plants into concrete applications – A step towards circular economy

[29] Mechanism for alkaline leachate reduction through calcium carbonate precipitation on basic oxygen furnace slag by different carbonate sources: Application of NaHCO and CO gas.

[30] A nondestructive EIS method to evaluate the compressive strength of slag-blended cement paste under steam curing

[31] Immobilization of cesium with alkali-activated blast furnace slag.

[32] Effect of Early Age-Curing Methods on Drying Shrinkage of Alkali-Activated Slag Concrete.

[33] MECHANICAL STRENGHT’S RESEARCH OF THE THERMAL POWER STATION’S SLAG

[34] Thermal Properties of Alkali Activated Slag Plaster for Wooden Structures.

[35] Performance of electric arc furnace slag as oxygen carrier in chemical-looping combustion process

[36] Effect of ground granulated blast furnace slag (GGBFS) on mechanical properties of roller-compacted concrete pavement

[37] Laboratory study of the effects of using magnesium slag on the geotechnical properties of cement stabilized soil

[38] High calcium fly ash geopolymer stabilized lateritic soil and granulated blast furnace slag blends as a pavement base material.

[39] Laboratory Investigation of Cement-Stabilized Marginal Lateritic Soil by Crushed Slag-Fly Ash Replacement for Pavement Applications

[40] The influence of the volatiles on the slag composition for the heating process

[41] Effects of carbide slag, lodestone and biochar on the immobilization, plant uptake and translocation of As and Cd in a contaminated paddy soil.

[42] Effects of steel slag amendments on accumulation of cadmium and arsenic by rice (Oryza sativa) in a historically contaminated paddy field.

[43] Leaching of elements from cement activated fly ash and slag amended soils.

[44] Study on thermal properties of steel slag asphalt concrete for snow-melting pavement

[45] Slag Formation during Entrained Flow Gasification: Calcium-Rich Bark Fuel with KHCO3 Additive

[46] effect of roasting temperature on phase transformation in co-reduction roasting of nickel slag

[47] stochastic modeling of compressive strength of phosphorus slag content cement

[48] multi-stage control of waste heat recovery from high temperature slags based on time temperature transformation curves

[49] fabrication of slag-glass composite with controlled porosity

[50] the efficiency of dolomitic limestone, basic slag and peat ash as liming agents, and as calcium and magnesium sources for turnip rape

[51] improving beneficiation of copper and iron from copper slag by modifying the molten copper slag

[52] pengaruh penggunaan limbah steel slag sebagai pengganti agregat kasar ukuran ½” dan 3/8” pada campuran hrs_wc

[53] potential modification of hydration of alkali activated mixtures from granulated blast furnace slag and fly ash

[54] assessment of activity moduli and acidic resistance of slag-based geopolymer concrete incorporating pozzolan

[55] analysis of fractionated fly ash and slag at kemerovo state district power plant

[56] reactivation of a retarded suspension of ground granulated blast-furnace slag

[57] leaching and recovery of zinc and copper from brass slag by sulfuric acid

[58] implementation of industrial waste ferrochrome slag in conventional and low cement castables: effect of calcined alumina

[59] leaching test of vitrified fly ash and ceramic slag from an incinerator of municipal solid waste (msw) treated with ca(oh)2 at different concentrations and with marlstone

[60] jaarverslag 1966

[61] effect of different curing methods on the compressive strength development of pulverized copper slag concrete

[62] estimating phosphate capacities of multi-component slags by mass triangle model

[63] jaarverslag 1984

[64] melting features and viscosity of sio2-cao-mgo-al2o3-feo nickel slag in laterite metallurgy

[65] shrinkage reduction and crack prevention of alkali-activated phosphorous slag cement

[66] jaarverslag 1955. verslag verificatie-commissie 1955

[67] jaarverslag over 1950

[68] tiling problems on baumslag-solitar groups.

[69] microstructural changes induced by co2 exposure in alkali-activated slag/metakaolin pastes

[70] utilização do subproduto da recuperação metálica de escórias de aços inoxidáveis na síntese de pigmentos cerâmicos; caracterização da matéria-prima by-product utilization of metallic recovering of stainless steel slags in the ceramic pigments synthesis; raw material characterization

[71] hedendaagse populêre voorligting oor die verhouding tussen die manlike en vroulike geslag: besinning oor ’n evolusionistiese etiek

[72] durability and acoustics of concrete with slag of cupola furnace as fine aggregate replacement

[73] physico-chemical characterization of slag occurrences at tilva njagra locality, bor region, eastern serbia

[74] design of inorganic polymer mortar from ferricalsialic and calsialic slags for indoor humidity control

[75] status over teledata i danmark. hvorfor er teledata ikke blevet en mere slagkraftig offentlig teletjeneste i danmark sammenlignet med f.eks. det franske teletel?

[76] effect of copper and iron ions on the sulphidizing flotation of copper oxide in copper smelting slag

[77] agronomic use of basic slag

[78] ecological and technologycal aspects of ash and slag wastes utilization

[79] measurement of cao-sio2-sacl2 slag density by an improved archimedean method

[80] reisverslag in twee stemme en agt gedigte

[81] die verhouding tussen ouer en jonger geslagte in die nuwe testament: ’n filologiese studie

[82] pengendapan uranium dan thorium hasil pelarutan slag ii

[83] study of effect of electric arc furnace slag on expansion of mortars subjected to alkali-aggregate reaction

[84] analysis of the possibility of estimation ecological slag propriety with use the database

[85] corrigendum: reisverslag in twee stemme en agt gedigte

[86] yeterlilik kurulları İç yönerge taslağı

[87] Case study on field trials of developed geopolymer (Slag and fly ash based) precast concrete paver blocks

[88] Performance of slag-fly ash based alkali activated concrete for paver applications utilizing powdered waste glass as a binding ingredient

[89] Hoe om ’n vakkundige verslag saam te stel

[90] Effect of blast-furnace slag on physicochemical properties of pozzolan-based geopolymers

[91] Fly ash geopolymer mortar: Impact of the substitution of river sand by copper slag as a fine aggregate on its thermal resistance properties

[92] Physical and mechanical properties and micro characteristics of fly ash-based geopolymer paste incorporated with waste Granulated Blast Furnace Slag (GBFS) and functionalized Multi-Walled Carbon Nanotubes (MWCNTs)

[93] Cyclic behaviour of clay stabilised with fly-ash based geopolymer incorporating ground granulated slag

[94] Rheological behavior of geopolymer mortar with fly ash, slag and their blending

[95] Impact of electric arc furnace slag on geopolymer composites exposed to sulphate solution

[96] EFFECTS OF BLAST-FURNACE SLAG ON NATURAL POZZOLAN-BASED GEOPOLYMER CEMENT

[97] Facile fabrication of metakaolin/slag-based zeolite microspheres (M/SZMs) geopolymer for the efficient remediation of Cs and Sr from aqueous media.

[98] Controlled preparation of cerium oxide loaded slag-based geopolymer microspheres (CeO@SGMs) for the adsorptive removal and solidification of F from acidic waste-water.

[99] Effects of Slag Composition and Impurities of Alloys on the Inclusion Transformation during Industrial Ladle Furnace Refining

[100] A Comprehensive Review on the Ground Granulated Blast Furnace Slag (GGBS) in Concrete Production

[101] Rheological and the Fresh State Properties of Alkali-Activated Mortars by Blast Furnace Slag