Search for dissertations about: "Thermogravimetric analysis"
Showing result 11 - 15 of 66 swedish dissertations containing the words Thermogravimetric analysis.
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11. Prussian blue analogue copper hexacyanoferrate : Synthesis, structure characterization and its applications as battery electrode and CO2 adsorbent
Abstract : Prussian blue (PB) and Prussian blue analogues (PBAs) are compounds with potential applications in a large variety of fields such as gas storage, poison antidotes, electrochromism, electrochemistry and molecular magnets. The compounds are easy to synthesize, cheap, environmentally friendly and have been pursued for both fundamental research and industrial purposes. READ MORE
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12. Nanopowder as sintering aid for water-atomized ferrous powder
Abstract : Press and sinter powder metallurgy steels are cost-effective solutions for structural applications. There is a constant drive for improvement in the density of these powder metallurgy steels to expand their usage in high-performance applications. READ MORE
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13. Morphology Characterization of Foam Bitumen and Modeling for Low Temperature Asphalt Concrete
Abstract : Development of new asphalt technologies to reduce both energy consumption and CO2 production has attracted great interest in recent years. The use of foam bitumen, as one of them, is attractive due to the low investment and production cost. READ MORE
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14. Role of nanopowder as sintering aid in the densification of water atomized ferrous powder
Abstract : Press and sinter powder metallurgy (PM) steels are cost-effective solutions for structural applications. There is a constant drive for the improvement in the density of these PM steels which helps in expanding their usage in applications demanding higher performance than what they deliver today. READ MORE
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15. Isoconversional analysis for the prediction of mass-loss rates during pyrolysis of biomass
Abstract : Biomass is the only renewable carbon source that can compete with fossil energy sources in terms of production of materials, chemicals and fuels. Biomass can be transformed into charcoal, liquid and gas through pyrolysis, i.e. pure thermal decomposition. READ MORE