Your search keyword '"Severin Seifert"' showing total 13 results

1. Possibility to Optimize Hydrothermal Conditions for the Production of Autoclaved Aerated Concrete Using Rice Husk Ash as the Silica Raw Material

Author

Taban Shams, Georg Schober, Detlef Heinz, and Severin Seifert

Published

2022

2. Rice husk ash as a silica source for the production of autoclaved aerated concrete - A chance to save energy and primary resources

Author

Taban Shams, Georg Schober, Detlef Heinz, Severin Seifert, and Publica

Subjects

Mechanics of Materials, C-S-H formation, Architecture, autoclaving temperature, rice husk ash, Building and Construction, Safety, Risk, Reliability and Quality, compressive strength, drying shrinkage, autoclaved aerated concrete, Civil and Structural Engineering

Abstract

If the silica raw material used in autoclaved aerated concrete (AAC) requires a lower level of energy for dissolution, a lower autoclaving temperature could be applied to reach the required product performance. Accordingly, the raw material quartz sand in the AAC mixture was replaced with rice husk ash (RHA) which has a higher solubility of silica with increasing temperatures in alkaline binder systems. AAC samples were produced at autoclaving temperatures of 152 ◦C, 165 ◦C, 175 ◦C, and 192 ◦C with an autoclaving time of 6 h. Quantitative X-ray diffraction (XRD) analysis according to Rietveld refinement, qualitative XRD analysis, and scanning electron microscopy (SEM) were carried out to investigate the microstructure of the hardened AAC samples. Additionally, the compressive strength, dry bulk density, A-value, and total drying shrinkage were determined. In contrast to the quartz-based AAC, the properties of the RHA-based AAC were improved by applying a lower autoclaving temperature than the typical temperature used for industrial production of AAC, i.e. 192 ◦C. For the RHA-based AAC, a maximum increase of 22% in the compressive strength, 132% in the total content of tobermorite, 19% in the A-value, and a maximum decrease of 33% in the total value of drying shrinkage were observed as the applied autoclaving temperature was changed from 192 ◦C to 165 ◦C. Moreover, the material efficiency of the AAC product can be improved by using RHA as an agricultural waste product in the mixture. The RHA-based AAC autoclaved at 165 ◦C exhibited a slightly higher compressive strength to density ratio (A-value) than the quartz-based AAC autoclaved at 192 ◦C. However, a higher total drying shrinkage was observed for the RHA-based AAC autoclaved at 165 ◦C compared to the quartz-based AAC autoclaved at 192 ◦C. From a general point of view, the results showed that the optimum temperature for autoclaving AAC has a direct dependency on the dissolution properties of silica raw materials used in the mixture.

Published

2022

3. Recovery of Raw Materials from Ceramic Waste Materials for the Refractory Industry

Author

Severin Seifert, Jürgen Bach, Sebastian Dittrich, and Publica

Subjects

Materials science, Bioengineering, 02 engineering and technology, Raw material, engineering.material, recycling, 010502 geochemistry & geophysics, lcsh:Chemical technology, 01 natural sciences, lcsh:Chemistry, Refractory, Mechanical strength, 0202 electrical engineering, electronic engineering, information engineering, Chemical Engineering (miscellaneous), lcsh:TP1-1185, Ceramic, innovative process, Chemical purity, 0105 earth and related environmental sciences, Cement, Waste management, Process Chemistry and Technology, 020208 electrical & electronic engineering, regenerate, electrodynamic fragmentation, Processing methods, Bauxite, refractory, lcsh:QD1-999, visual_art, visual_art.visual_art_medium, engineering

Abstract

Products of the refractory industry are key for the production of heavy industry goods such as steel and iron, cement, aluminum and glass. Corresponding industries are dependent on thermal processes to manufacture their products, which in turn would not be possible if there were no refractory materials, such as refractory bricks or refractory mixes. For the production of refractory materials, primary raw materials or semi-finished products such as corundum, bauxite or zircon are used. Industrial recycling of refractory raw materials would reduce dependencies, conserve resources and reduce global CO2 emissions. Today, only a small quantity of the refractory materials used can be recycled because raw materials (regenerates) obtained from end-of-life materials are of insufficient quality. In this study, regenerates from different refractory waste products could be obtained using the innovative processing method of electrodynamic fragmentation. It was shown that these regenerates have a high chemical purity and are therefore of high quality. It could be confirmed that the use of these regenerates in refractory materials does not affect the characteristic properties, such as refractoriness and mechanical strength. Thus, electrodynamic fragmentation is a process, which is able to provide high-quality raw materials for the refractory industry from used materials.

Published

2021

4. Application of recycled waste material for the production of autoclaved aerated concrete

Author

Volker Thome, Sebastian Dittrich, Severin Seifert, Daniela Wolfram, and Anna-Lena Liesch

Subjects

Waste management, Production (economics), Environmental science, Construction waste, Waste material, General Medicine, Autoclaved aerated concrete

Published

2018

5. Production of autoclaved aerated concrete with silica raw materials of a higher solubility than quartz Part II: Influence of autoclaving temperature

Author

D. Heinz, Georg Schober, Taban Shams, and Severin Seifert

Subjects

Thermogravimetric analysis, Materials science, 0211 other engineering and technologies, Tobermorite, 020101 civil engineering, 02 engineering and technology, Building and Construction, 0201 civil engineering, Autoclave, law.invention, Compressive strength, Chemical engineering, law, Differential thermal analysis, 021105 building & construction, General Materials Science, Calcination, Solubility, Autoclaved aerated concrete, Civil and Structural Engineering

Abstract

This study examines the effects of autoclaving temperature on the mechanical and microstructural properties of autoclaved aerated concrete (AAC) containing calcined diatomaceous earth (C-DE) as the main silica source. The autoclaving process was conducted using an autoclave at various temperatures of T = 134–192 °C and a corresponding steam pressure of P = 2–12 bar for 6 hours. The resultant phases were characterized using quantitative and qualitative X-ray diffraction (XRD), differential thermal analysis (DTA) and thermogravimetric analysis (TGA). The compressive strength of samples containing C-DE as the main silica source increased by 30% when the autoclaving temperature decreased by around 60 °C. This is in complete opposition to samples containing quartz as the only SiO2 source. The compressive strength of the latter decreased by 85% when the autoclaving temperature decreased by approximately 60 °C. For all samples, changes in compressive strength corresponded with changes in tobermorite formation.

Published

2021

6. Production of autoclaved aerated concrete with silica raw materials of a higher solubility than quartz part I: Influence of calcined diatomaceous earth

Author

Severin Seifert, Georg Schober, D. Heinz, and Taban Shams

Subjects

Thermogravimetric analysis, Materials science, 0211 other engineering and technologies, Tobermorite, 020101 civil engineering, 02 engineering and technology, Building and Construction, 0201 civil engineering, law.invention, chemistry.chemical_compound, Chemical engineering, chemistry, law, Differential thermal analysis, 021105 building & construction, General Materials Science, Solubility, Crystallization, Calcium silicate hydrate, Autoclaved aerated concrete, Quartz, Civil and Structural Engineering

Abstract

This study examines the effects of calcined diatomaceous earth (C-DE) as a silica raw material of a higher solubility than quartz, on the mechanical and microstructural properties of autoclaved aerated concrete (AAC) produced at the steam curing temperature of 192 °C for 6 h. Quartz within an AAC mixture was replaced at various replacement ratios by C-DE. The resultant phases were characterized using quantitative and qualitative X-ray diffraction (XRD), scanning electron microscopy (SEM), differential thermal analysis (DTA), and thermogravimetric analysis (TGA). In the mixtures with more than 50% substitution of quartz with C-DE, the autoclaving temperature of 192 °C with a duration of 6 h prevented the crystallization of amorphous calcium silicate hydrate (C-S-H) to tobermorite. The optimum strength was obtained at the substitution ratio of 75% despite having the lowest tobermorite content. By substituting quartz with C-DE for higher than 50%, plate-like tobermorite was changed to grass-like and amorphous C-S-H with low CaO/SiO2.

Published

2021

7. Aus Altbeton wird Beton - ein innovativer Recyclingansatz

Author

Sarah Homolka, Florian Gehring, Severin Seifert, Volker Thome, Stefan Albrecht, and Philip Leistner

Subjects

Engineering, Environmental Engineering, business.industry, Architecture, Resource conservation, Forestry, Building and Construction, business, Civil engineering

Abstract

Altbeton wird eine Rohstoffquelle der Zukunft sein und damit zur Nachhaltigkeit beitragen. In welche Richtung dies geschehen kann, wird in diesem Beitrag mithilfe von Okobilanzergebnissen aus dem BMBF-Projekt “ELDYNTON – Elektrodynamische Fragmentierung von Altbeton“ erlautert. Hier wird Altbeton durch ein innovatives Recyclingverfahren ELDYNTON aufbereitet, um ein hochwertiges Recycling (Ruckfuhrung in den Betonkreislauf) der entstandenen Fraktionen zu gewahrleisten. Eine entscheidende Voraussetzung ist die zerstorungsfreie Trennung von Zementstein und Gesteinskornung. Die Methode der elektrodynamischen Fragmentierung beruht auf ultrakurzen Unterwasserentladungen und ermoglicht eine sortenreine Separierung. Unter dem Aspekt der Ressourcenschonung ist das Ruckgewinnen von Rohstoffen via Recycling grundsatzlich wunschenswert, ob es sich jedoch unter dem Gesichtspunkt der Okologie lohnt, muss naher untersucht werden. Hierzu wird die Methode der Okobilanz (ISO 14040/44) herangezogen und die Ergebnisse mit den okologischen Wirkungen der Primarbereitstellung verglichen. Bei gleicher Transportdistanz liegen die Emissionsaquivalente des ELDYNTON-Verfahrens in einigen Kategorien uber denen der primaren Bereitstellung. Mussen die Substitutionsguter jedoch weiter als 125 km gegenuber denen des ELDYNTON-Verfahrens transportiert werden, schneidet das ELDYNTON-Verfahren in den betrachteten Wirkungskategorien besser ab. Old concrete becomes new concrete – an innovative recycling approach. Old concrete will be a future raw material source and is thereby resource-saving. The study underlines this with the results of the conducted life cycle assessment. For this purpose old concrete gets treated by an innovative recycling approach to ensure a high valuable recycling of the prepared fractions (recirculation into the concrete cycle). A vital prerequisite is the non-destructive separation of cement stone and aggregate. The methodology of the electrodynamic fragmentation guarantees this with ultrashort, underwater electrical discharges. The recycling of resources is generally desirable under the target of resource conservation, but the methodology of the electrodynamic fragmentation has to be investigated if it is advantageous under environmental aspects. Therefore the methodology of the life cycle assessment according ISO 14040/44 is used and the results are compared with the environmental impact of the primary provision. The results show that by using waste heat from another suitable location/site the impacts of the innovative approach are lower than the impacts of the primary production. The results are similar by using higher transport distances for the primary products than for the recycled materials.

Published

2015

8. Effektive Aufbereitung von Müllverbrennungsschlacken mittels Hochspannungsimpulsen

Author

Severin Seifert, Matthias Maier, Sebastian Dittrich, Volker Thome, and Publica

Subjects

Chemistry, General Chemical Engineering, Metallurgy, Heavy metals, General Chemistry, 010402 general chemistry, 010403 inorganic & nuclear chemistry, 01 natural sciences, Industrial and Manufacturing Engineering, 0104 chemical sciences, Incineration, Nuclear chemistry

Abstract

Die vorliegende Untersuchung zeigt, dass mittels gepulster Hochspannungsimpulse eine selektive Aufbereitung von Schlacke aus Mullverbrennungsanlagen moglich ist. Es fallen, neben einem Feinanteil der als Filterruckstand aus dem Prozesswasser gewonnen wird, qualitativ funf Stoffgruppen an, deren Quantitat je nach Zusammensetzung der Schlacke variiert. Neben Glas, Keramik und Schmelzprodukten sind Eisen und NE-Metalle von grosem Interesse in Bezug auf Recycling. Schadliche Schwermetalle reichern sich im Feinanteil an, Chloride und Sulfate werden grostenteils mit dem Prozesswasser ausgewaschen. Somit kann das zu deponierenden Schlackevolumen auf die Halfte reduziert werden. A promising pulsed power technology for the effective processing of municipal waste incineration bottom ash is presented. After the selective fragmentation, beside a fine fraction extracted from the process water, five groups of material like glass, ceramics or melt products remain. Especially the recycling of metals is efficiently enabled. The quantity varies due to the waste composition. Heavy metals accumulate in the fine fraction whereas chlorides and sulfates are separated by the process water. The recycling rate can be increased by the selective fragmentation and the deposited slag volume can be halved.

Published

2016

9. Spatially resolved quantitative in-situ phase analysis of a self-leveling compound

Author

Friedlinde Goetz-Neunhoeffer, Severin Seifert, and Juergen Neubauer

Subjects

In situ, Diffraction, Ettringite, Materials science, Scattering, Solvation, Analytical chemistry, Mineralogy, Building and Construction, Microstructure, chemistry.chemical_compound, chemistry, X-ray crystallography, General Materials Science, Mortar

Abstract

The development of the crystalline microstructure of a hydrating self-leveling compound (SLC) was analyzed using a two-dimensional XRD (GADDS). The application of non-destructive micro-diffraction with the GADDS, combined with a custom-made sample holder, made it possible to carry out position-sensitive in-situ measurements of a Calcium–Aluminate–Cement-(CAC)-dominated SLC. Different substrates were used in the measurement procedures so as to acquire data regarding the influence of the properties of the ground surface on the process of hydration. The results show that the crystalline microstructure is strongly affected by the availability of free water. The strongly vertically-fluctuating water-content of the hydrating mortar, which is mainly influenced by outside conditions, has a very significant effect upon the resulting ettringite content. This fact is also reflected in the resulting microstructure of the cured SLC.

Published

2012

10. Corrigendum to 'Thermal resistance and apparent thermal conductivity of thin plasma-sprayed mullite coatings [Surf. Coat. Technol., 200(11) (2006) 3404–3410]'

Author

Robert B. Heimann, Severin Seifert, Efim Litovsky, and Jacob I. Kleiman

Subjects

Thermal conductivity, Materials science, Plasma sprayed, Thermal resistance, Materials Chemistry, Mullite, Surfaces and Interfaces, General Chemistry, Composite material, Condensed Matter Physics, Surfaces, Coatings and Films

Published

2018

11. Application of two-dimensional XRD for the characterization of the microstructure of self-leveling compounds

Author

Hubert Motzet, Severin Seifert, Friedlinde Goetz-Neunhoeffer, and Juergen Neubauer

Subjects

Cement, Ettringite, Radiation, Materials science, Aluminate, Substrate (chemistry), Mineralogy, Condensed Matter Physics, Microstructure, Characterization (materials science), chemistry.chemical_compound, chemistry, Chemical engineering, General Materials Science, Mortar, Instrumentation, Layer (electronics)

Abstract

The two-dimensional XRD (GADDS) was used to characterize the microstructure of an applied self-leveling compound (SLC). A calcium aluminate cement based SLC was prepared on two different substrates (water absorbent and nonwater absorbent) to determine the vertical distribution of the crystalline phases. The application of the GADDS enables the detection of the phase composition of the hydrating mortar in horizontal slices. Thus the analysis could be carried out in position-sensitive mode at three different areas: near the bottom, in the center, and at the top of the mortar. For investigation of SLCs from the very early hydration stage up to 10 h of hydration, a custom-made in situ sample holder for the measurements was designed and constructed. The combination of the GADDS and the custom-made in situ sample holder provides the possibility to characterize additionally the time-dependent phase composition within the SLC. The nonabsorbent substrate has no effect on the hydration of the binder phases but the absorbent substrate influences the formation of ettringite. In the top layer of the SLC the ettringite content is reduced during the first hours of hydration. The absorbing forces of the substrate lead to migration of the mix water to the substrate. This lack of water results in the reduced formation of ettringite.

Published

2009

12. Thermal Optical Properties of Plasma-Sprayed Mullite Coatings for Space Launch Vehicles

Author

Severin Seifert, Jacob I. Kleiman, and Robert B. Heimann

Subjects

Materials science, business.industry, Aerospace Engineering, Mullite, engineering.material, Solar energy, Thermal barrier coating, Coating, Space and Planetary Science, Space Shuttle thermal protection system, Thermal, Surface roughness, engineering, Thermal emittance, Composite material, business

Abstract

Thermal optical properties, for example, solar absorptance a and thermal emittance e of thin plasma sprayed mullite coatings, were determined to assess the material's suitability for space application. The mullite coatings were developed in an attempt to find a new material for thermal protection systems as well as thermal barrier coatings for atmospheric reentry vehicles. All mullite coatings show the properties of a solar reflector and hence suggest a potential application as thermal control coating to protect space-bound structures from the effect of heating by solar radiation in the low Earth orbit. Preliminary space stability tests including atomic-oxygen resistance tests confirmed that the coatings show only negligible variations both in their mechanical and thermal optical properties under the conditions selected.

Published

2006

13. Thermal resistance and apparent thermal conductivity of thin plasma-sprayed mullite coatings

Author

Severin Seifert, Robert B. Heimann, Efim Litovsky, and Jacob I. Kleiman

Subjects

Materials science, Thermal resistance, Contact resistance, Surfaces and Interfaces, General Chemistry, engineering.material, Condensed Matter Physics, Thermal conduction, Surfaces, Coatings and Films, Thermal barrier coating, Thermal conductivity, Coating, visual_art, Materials Chemistry, visual_art.visual_art_medium, engineering, Ceramic, Composite material, Thin film

Abstract

A transient comparative exponential method (CEM) was developed to measure the thermal conductivity of thin ceramic coatings based on comparing the rate of heating during its exponential stage of a metal specimen with known thermal capacity without and with a coating. The experimental results were explained based on modelling the conductive heat transfer within the plasma-sprayed porous coating structure taking into account the contact heat barrier resistance (CHBR) between splat boundaries, and between substrate and coating as well as their dependence on the gas pressure within pores and microcracks as a function of the geometric altitude.

Published

2006