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Showing 251 to 258 of 258 (0.034 seconds)Spelling suggestions: "subject:"explosive"" "subject:"explosives""
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Numerical Simulation of Blast Interaction with the Human Body: Primary Blast Brain Injury PredictionHaladuick, Tyler January 2014 (has links)
In Operations Enduring Freedom and Iraqi Freedom, explosions accounted for 81% of all injuries; this is a higher casualty percentage than in any previous wars. Blast wave overpressure has recently been associated with varying levels of traumatic brain injury in soldiers exposed to blast loading. Presently, the injury mechanism behind primary blast brain injury is not well understood due to the complex interactions between the blast wave and the human body. Despite these limitations in the understanding of head injury thresholds, head kinematics are often used to predict the overall potential for head injury. The purpose of this study was to investigate head kinematics, and predict injury from a range of simulated blast loads at varying standoff distances and differing heights of bursts.
The validated Generator of body data multi-body human surrogate model allows for numerical kinematic data simulation in explicit finite element method fluid structure interaction blast modeling. Two finite element methods were investigated to simulate blast interaction with humans, an enhanced blast uncoupled method, and an Arbitrary Lagrangian Eularian fully coupled method. The enhanced blast method defines an air blast function through the application of a blast pressure wave, including ground reflections, based on the explosives relative location to a target; the pressures curves are based on the Convention Weapons databases. LBE model is efficient for parametric numerical studies of blast interaction where the target response is the only necessary result. The ALE model, unlike classical Lagrangian methods, has a fixed finite element mesh that allows material to flow through it; this enables simulation of large deformation problems such as blast in an air medium and its subsequent interaction with structures. The ALE model should be used when research into a specific blast scenario is of interest, since this method is more computationally expensive. The ALE method can evaluate a blast scenario in more detail including: explosive detonation, blast wave development and propagation, near-field fireball effects, blast wave reflection, as well as 3D blast wave interaction, reflection and refraction with a target.
Both approaches were validated against experimental blast tests performed by Defense Research and Development Valcartier and ConWep databases for peak pressure, arrival time, impulse, and curve shape. The models were in good agreement with one another and follow the experimental data trend showing an exponential reduction in peak acceleration with increasing standoff distance until the Mach stem effect reached head height. The Mach stem phenomenon is a shock front formed by the merging of the incident and reflected shock waves; it increases the applied peak pressure and duration of a blast wave thus expanding the potential head injury zone surrounding a raised explosive. The enhanced blast model was in good agreement with experimental data in the near-field, and mid-field; however, overestimated the peak acceleration, and head injury criteria values in the far-field due to an over predicted pressure impulse force. The ALE model also over predicted the response based on the head injury criteria at an increased standoff distance due to smearing of the blast wave over several finite elements leading to an increased duration loading.
According to the Abbreviated Injury Scale, the models predicted a maximal level 6 injury for all explosive sizes in the near-field, with a rapid acceleration of the head over approximately 1 ms. There is a drastic exponential reduction in the insult force and potential injury received with increasing standoff distance outside of the near-field region of an explosive charge.
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| 252 |
Sportspesifieke inoefening en antropometriese, fisieke en motoriese vereistes van 15– tot 17–jaar oue vroulike netbalspelers / Y. WillemseWillemse, Yolandi January 2010 (has links)
In the light of the facts given in literature it is evident that players in the game of netball
need to meet specific anthropometric (body length, body mass, percentage body fat and
percentage muscle mass), physical (pliancy, abdominal power, aerobic endurance and
anaerobic endurance) and motor (speed over 5 m and 10 m, agility and explosive
power) requirements. This consequently necessitates specific attention to be given to
the mentioned requirements. In spite of the fact that a few studies do exist that enter
into the requirements of the profile of netball players in different positions, as well as
into what the effect of a periodization programme is on anthropometric, physical and
motor requirements, voids do exist regarding the positional profile of 15 to 17 year old
netball players and as to what the effect is of a sport specific periodization programme
in the course of a season on 15 to 17 year old netball players.
In the light of the above–mentioned, this study was undertaken with the aim to:
1) Determine the requirements for 15 to 17 year old netball players;
2) Compile positional profile scales of netball specific requirement for 15 to 17 year old
players in the Tlokwe region;
3) Establish the effect of a sport specific periodization programme on anthropometric,
physical and motor requirements for 15 to 17 year old female netball players, of a
specific school in the Tlokwe region, in the course of a season.
96 players (28 goalkeepers, 44 centre court players and 24 defenders) between ages
15 and 17 years from two high schools in the North–West Province were used in the
study to determine positional differences. A group of only 22 player of one school was
exposed to a sport specific periodization programme for purposes of the study, since
the coach and players from only one school’s teams were prepared to participate in the
sport scientific intervention programme for the full duration of the netball season. The
afore–mentioned group was evaluated over a period of two years, namely prior to the start of the season (T1), after conclusion of the season once the sport specific
periodization programme was completed (T2), prior to the start of the season in the
subsequent year (T3) and after conclusion of the season without the sport specific being
followed. The data is processed on the basis of descriptive statistics. Furthermore, the
practical significance of test result changes between the respective groups and different
test sessions were compared using Cohen’s effect size.
Literature was consulted to determine whether specific requirements exist for netball
players and whether differences occur in the three positional groups. However, no
literature could be traced in which only netball specific requirements for 15 to 17 year
old players were focused on. The literature did indeed point out clear anthropometric
differences between the three positional groups, namely attacking, centre court and
defence players in club and elite netball players. The goalkeeper and defence players
are, according to literature, considerably taller and heavier than the centre court players.
Literature also indicated that differences do indeed occur regarding physical and motor
requirements. Centre court players are significantly faster and more agile than the
goalkeeper and defenders. However, there were components of which the differences
were not prominent concerning the three positional groups.
Where a specific positional profile of anthropometric, physical and motor requirements
for 15 to 17 year old female netball players was composed from available data of
players in the North–West Province, Tlokwe region, the results of the anthropometric
requirements indicated that body length showed a large significant difference between
the three positional groups, with defenders being the tallest, followed by goalkeepers,
and the centre court players being the shortest. Body mass also showed a medium
significant difference between goalkeepers and centre court players as well as between
centre court players and defence players. Goalkeepers were heavier than centre court
players, and defenders also showed a higher body mass than centre court players. The
other two variables, namely percentage fat and percentage muscle mass, only showed
small practically significant differences, in this group of netball players, between the test
sessions.
With the physical and motor requirements, results indicated that large practically
significant differences occurred in vertical jumping, 5 m speed, 10 m speed and agility between the groups. The general trend observed in the profiles was that the largest
significant differences occurred between goalkeepers and defence players on the one
hand and centre court players on the other. Vertical jump and speed showed a large
significant difference between goalkeepers and centre court players as well as between
centre court players and defenders, although the goalkeepers and defenders’ results
corresponded considerably. Other large significant differences occurred in the 10 m
speed as well as in 505–agility to the left between centre court players and defenders.
In summary it can be mentioned that the most and the largest significant differences
occurred between goalkeepers and centre court players as well as between defenders
and centre court players. Only one medium significant difference occurred between the
goalkeepers and defenders, which is ankle dorsiflexion and which can be ascribed to
injuries. From this it can be inferred that a positional profile can indeed be compiled for
the different positional groups in netball, but that the requirements of positional variables
between goalkeepers and defenders correspond largely and that the large difference
between the last–mentioned two groups occur when compared with those of the centre
court players of this specific group.
The results of the group of twenty–two players that were evaluated twice during the
course of both netball seasons indicate that the variable that showed a large significant
difference between T1 and T2, following the sport specific periodization program, was
body mass (inverted difference). Although there was no large significant difference, it
can clearly be deduced from the graphs presented in the study that a visible difference
(improvement) was observed in most of the variables. The variables that showed a
large practically significant difference with the training of the coach’s general
programme, were ankle dorsiflexion on the left, abdominal power and 5 m speed
(inverted effect). A number of variables indeed existed that also showed medium and
small significant differences during the course of both seasons, but it will not be
mentioned here.
A number of shortcomings and recommendations did indeed come to the fore during
and after the course of the study. It should, however, be borne in mind that such a
structured periodization programme is very important for the development of netball
potential. / Thesis (Ph.D. (Human Movement Science))--North-West University, Potchefstroom Campus, 2011.
|
| 253 |
Sportspesifieke inoefening en antropometriese, fisieke en motoriese vereistes van 15– tot 17–jaar oue vroulike netbalspelers / Y. WillemseWillemse, Yolandi January 2010 (has links)
In the light of the facts given in literature it is evident that players in the game of netball
need to meet specific anthropometric (body length, body mass, percentage body fat and
percentage muscle mass), physical (pliancy, abdominal power, aerobic endurance and
anaerobic endurance) and motor (speed over 5 m and 10 m, agility and explosive
power) requirements. This consequently necessitates specific attention to be given to
the mentioned requirements. In spite of the fact that a few studies do exist that enter
into the requirements of the profile of netball players in different positions, as well as
into what the effect of a periodization programme is on anthropometric, physical and
motor requirements, voids do exist regarding the positional profile of 15 to 17 year old
netball players and as to what the effect is of a sport specific periodization programme
in the course of a season on 15 to 17 year old netball players.
In the light of the above–mentioned, this study was undertaken with the aim to:
1) Determine the requirements for 15 to 17 year old netball players;
2) Compile positional profile scales of netball specific requirement for 15 to 17 year old
players in the Tlokwe region;
3) Establish the effect of a sport specific periodization programme on anthropometric,
physical and motor requirements for 15 to 17 year old female netball players, of a
specific school in the Tlokwe region, in the course of a season.
96 players (28 goalkeepers, 44 centre court players and 24 defenders) between ages
15 and 17 years from two high schools in the North–West Province were used in the
study to determine positional differences. A group of only 22 player of one school was
exposed to a sport specific periodization programme for purposes of the study, since
the coach and players from only one school’s teams were prepared to participate in the
sport scientific intervention programme for the full duration of the netball season. The
afore–mentioned group was evaluated over a period of two years, namely prior to the start of the season (T1), after conclusion of the season once the sport specific
periodization programme was completed (T2), prior to the start of the season in the
subsequent year (T3) and after conclusion of the season without the sport specific being
followed. The data is processed on the basis of descriptive statistics. Furthermore, the
practical significance of test result changes between the respective groups and different
test sessions were compared using Cohen’s effect size.
Literature was consulted to determine whether specific requirements exist for netball
players and whether differences occur in the three positional groups. However, no
literature could be traced in which only netball specific requirements for 15 to 17 year
old players were focused on. The literature did indeed point out clear anthropometric
differences between the three positional groups, namely attacking, centre court and
defence players in club and elite netball players. The goalkeeper and defence players
are, according to literature, considerably taller and heavier than the centre court players.
Literature also indicated that differences do indeed occur regarding physical and motor
requirements. Centre court players are significantly faster and more agile than the
goalkeeper and defenders. However, there were components of which the differences
were not prominent concerning the three positional groups.
Where a specific positional profile of anthropometric, physical and motor requirements
for 15 to 17 year old female netball players was composed from available data of
players in the North–West Province, Tlokwe region, the results of the anthropometric
requirements indicated that body length showed a large significant difference between
the three positional groups, with defenders being the tallest, followed by goalkeepers,
and the centre court players being the shortest. Body mass also showed a medium
significant difference between goalkeepers and centre court players as well as between
centre court players and defence players. Goalkeepers were heavier than centre court
players, and defenders also showed a higher body mass than centre court players. The
other two variables, namely percentage fat and percentage muscle mass, only showed
small practically significant differences, in this group of netball players, between the test
sessions.
With the physical and motor requirements, results indicated that large practically
significant differences occurred in vertical jumping, 5 m speed, 10 m speed and agility between the groups. The general trend observed in the profiles was that the largest
significant differences occurred between goalkeepers and defence players on the one
hand and centre court players on the other. Vertical jump and speed showed a large
significant difference between goalkeepers and centre court players as well as between
centre court players and defenders, although the goalkeepers and defenders’ results
corresponded considerably. Other large significant differences occurred in the 10 m
speed as well as in 505–agility to the left between centre court players and defenders.
In summary it can be mentioned that the most and the largest significant differences
occurred between goalkeepers and centre court players as well as between defenders
and centre court players. Only one medium significant difference occurred between the
goalkeepers and defenders, which is ankle dorsiflexion and which can be ascribed to
injuries. From this it can be inferred that a positional profile can indeed be compiled for
the different positional groups in netball, but that the requirements of positional variables
between goalkeepers and defenders correspond largely and that the large difference
between the last–mentioned two groups occur when compared with those of the centre
court players of this specific group.
The results of the group of twenty–two players that were evaluated twice during the
course of both netball seasons indicate that the variable that showed a large significant
difference between T1 and T2, following the sport specific periodization program, was
body mass (inverted difference). Although there was no large significant difference, it
can clearly be deduced from the graphs presented in the study that a visible difference
(improvement) was observed in most of the variables. The variables that showed a
large practically significant difference with the training of the coach’s general
programme, were ankle dorsiflexion on the left, abdominal power and 5 m speed
(inverted effect). A number of variables indeed existed that also showed medium and
small significant differences during the course of both seasons, but it will not be
mentioned here.
A number of shortcomings and recommendations did indeed come to the fore during
and after the course of the study. It should, however, be borne in mind that such a
structured periodization programme is very important for the development of netball
potential. / Thesis (Ph.D. (Human Movement Science))--North-West University, Potchefstroom Campus, 2011.
|
| 254 |
Analýza účinků zkratového proudu v rozváděči / Analysis of effects of short-circuit current in switchgear cabinetProkop, Jan January 2015 (has links)
The work is focusing on dynamic effects of short-circuit currents, more precisely dynamic effects of short-circuit currents on switchgear cabinet (terminal box). The work was designated to a concrete construction type of two switchgear cabinets located on rotating machines via company Siemens Electric Machines Drásov s.r.o.. The switchgear cabinets are designed for non-explosive environment where the air is used as an insulating medium. The task was to determine how the device will behave during the three-phase short-circuit and three-phase short-circuit with earth/ground connection. The following programs were used for the calculations and simulations: Ansoft Maxwell 16.0, Ansoft Maxwell 2015 and ANSYS Workbench 16.0. By using these programs the effects of forces which acts on current paths in cabinet caused by the passage of short-circuit current were simulated, statically and also dynamically. Further the effects of pressure acting on cabinet frame during the arc short-circuit have been statically and dynamically simulated. All the results are summarized in the conclusion. Conclusion also contains the final evaluation of the functionality of both switchgear cabinets.
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| 255 |
Development of Total Vaporization Solid Phase Microextraction and Its Application to Explosives and Automotive RacingBors, Dana E. January 2015 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Pipe bombs are a common form of improvised explosive device, due in part to their ease of construction. Despite their simplistic nature, the lethality of pipe bombs should not be dismissed. Due to the risk of harm and their commonality, research into the pipe bomb deflagration process and subsequent chemical analysis is necessary. The laboratory examination of pipe bomb fragments begins with a visual examination. While this is presumptive in nature, hypotheses formed here can lead to subsequent confirmatory exams. The purpose of this study was to measure the mass and velocity of pipe bomb fragments using high speed video. These values were used to discern any trends in container type (PVC or black/galvanized steel), energetic filler (Pyrodex or double base smokeless powder), and ambient temperature (13°C and -8°C). The results show patterns based on container type, energetic filler, and temperature. The second stage of a laboratory exam is chemical analysis to identify any explosive that may be present. Legality calls for identification only, not quantitation. The purpose of this study is to quantitate the amount of explosive residue on post-blast pipe bomb fragments. By doing so, the instrumental sensitivities required for this type of analysis will be known. Additionally, a distribution of the residue will be mapped to provide insight into the deflagration process of a device. This project used a novel sampling technique called total vaporization solid phase microextraction. The method was optimized for nitroglycerin, the main energetic in double base smokeless powder. Detection limits are in the part per billion range. Results show that the concentration of residue is not uniform, and the highest concentration is located on the endcaps regardless of container type. Total vaporization solid phase microextraction was also applied to automotive racing samples of interest to the National Hot Rod Association. The purpose of this project is two-fold; safety of the race teams in the form of dragstrip adhesive consistency and monitoring in the form of fuel testing for illegal adulteration. A suite of analyses, including gas chromatography mass spectrometry, infrared spectroscopy, and evaporation rate, were developed for the testing of dragstrip adhesives. Gas chromatography mass spectrometry methods were developed for both nitromethane based fuel as well as racing gasolines. Analyses of fuel from post-race cars were able to detect evidence of adulteration. Not only was a novel technique developed and optimized, but it was successfully implemented in the analysis of two different analytes, explosive residue and racing gasoline. TV-SPME shows tremendous promise for the future in its ability to analyze a broad spectrum of analytes.
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| 256 |
Ablagerungsfazies der Grobklastika der oberen Halle-FormationGrieswald, Heike 21 June 2016 (has links) (PDF)
Die Sedimente des Halleschen Permokarbonkomplexes gaben schon immer Raum für Spekulationen. Aufgrund ihrer Dominanz an rhyolithischen Geröllen wurden sie über einen langen Zeitraum einheitlich als Postporphyrschutt ausgehalten. Vielfältig wechselnde Faziesbedingungen machten es jedoch notwendig, die Sedimente aufzugliedern. Neuere Erkenntnisse in der Erforschung des Halleschen Permokarbonkomplexes erfordern eine Überprüfung v. a. der nach KUNERT (1995) aufgestellten allgemeinen stratigraphischen Gliederung der Unterrotliegendsedimente in Halle,- Hornburg,- Sennewitz- und Brachwitz-Formation anhand einiger ausgewählter Beispiele. Der ursprüngliche Gedanke der Diplomarbeit bestand darin, eine Fazies- und eine Geröllanalyse der unterpermischen Abtragungsprodukte des Halle-Vulkanitkomplexes anzufertigen. Zur Verfügung standen zwei Kernbohrungen und zwei Aufschlüsse, sowie diverse Unterlagen zu angrenzenden Bohrungen in der Saale-Senke. Die beiden Oberflächenaufschlüsse Riveufer und Teichgrund sollten stratigraphisch aufgenommen werden, so dass eine Fazieszuordnung möglich ist. Die Bohrung Brachwitz 2/62 wurde mit dem Ziel aufgenommen, neuere Theorien über den Ablagerungszeitraum der Rotliegend-Sedimente in Bezug auf den permokarbonen Vulkanismus zu widerlegen oder zu bekräftigen. Die zweite Bohrung (Kb Lochau 7/65) wurde am Rande mit in die Diplomarbeit einbezogen, da sie das immense Spektrum der spätvulkanischen Aktivitäten im Halle Permokarbonkomplex erweitert. Ergebnis ist eine Neugliederung des Rotliegend im Halleschen Permokarbonkomplex, in der nur noch die Halle-Formation mit ihrem ausgeprägten Vulkanismus und die Hornburg-Formation, stellvertretend für alle jüngeren Abtragungsprodukte des Halle Vulkanitkomplexes, unterschieden werden. Mit einem großen Hiatus folgt anschließend die Eisleben-Formation.
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| 257 |
Ablagerungsfazies der Grobklastika der oberen Halle-FormationGrieswald, Heike 16 August 2004 (has links)
Die Sedimente des Halleschen Permokarbonkomplexes gaben schon immer Raum für Spekulationen. Aufgrund ihrer Dominanz an rhyolithischen Geröllen wurden sie über einen langen Zeitraum einheitlich als Postporphyrschutt ausgehalten. Vielfältig wechselnde Faziesbedingungen machten es jedoch notwendig, die Sedimente aufzugliedern. Neuere Erkenntnisse in der Erforschung des Halleschen Permokarbonkomplexes erfordern eine Überprüfung v. a. der nach KUNERT (1995) aufgestellten allgemeinen stratigraphischen Gliederung der Unterrotliegendsedimente in Halle,- Hornburg,- Sennewitz- und Brachwitz-Formation anhand einiger ausgewählter Beispiele. Der ursprüngliche Gedanke der Diplomarbeit bestand darin, eine Fazies- und eine Geröllanalyse der unterpermischen Abtragungsprodukte des Halle-Vulkanitkomplexes anzufertigen. Zur Verfügung standen zwei Kernbohrungen und zwei Aufschlüsse, sowie diverse Unterlagen zu angrenzenden Bohrungen in der Saale-Senke. Die beiden Oberflächenaufschlüsse Riveufer und Teichgrund sollten stratigraphisch aufgenommen werden, so dass eine Fazieszuordnung möglich ist. Die Bohrung Brachwitz 2/62 wurde mit dem Ziel aufgenommen, neuere Theorien über den Ablagerungszeitraum der Rotliegend-Sedimente in Bezug auf den permokarbonen Vulkanismus zu widerlegen oder zu bekräftigen. Die zweite Bohrung (Kb Lochau 7/65) wurde am Rande mit in die Diplomarbeit einbezogen, da sie das immense Spektrum der spätvulkanischen Aktivitäten im Halle Permokarbonkomplex erweitert. Ergebnis ist eine Neugliederung des Rotliegend im Halleschen Permokarbonkomplex, in der nur noch die Halle-Formation mit ihrem ausgeprägten Vulkanismus und die Hornburg-Formation, stellvertretend für alle jüngeren Abtragungsprodukte des Halle Vulkanitkomplexes, unterschieden werden. Mit einem großen Hiatus folgt anschließend die Eisleben-Formation.:Inhalt
Abbildungsverzeichnis
Tabellenverzeichnis
Abkürzungsverzeichnis
1. Einleitender Teil 1
1.1 Einleitung 1
1.2 Aufgabenstellung und Problematik 1
1.3 Geographischer Überblick über die Bohrungen und Aufschlüsse 2
2. Regionalgeologischer Teil 4
2.1 Aufbau des Halle Vulkanitkomplexes 4
2.2 Beckenentwicklung des Permokarbons im Bereich des Halle-
Vulkanitkomplexes 5
2.3 Historischer Rückblick über die Einstufung der Rotliegend-Formationen
im Halle Vulkanitkomplex 10
2.4 Neueste Entwicklungen in der Erforschung des Saale-Beckens 15
2.4.1 Die Ablagerungen der Halle-Formation 15
2.4.2 Die Ablagerungen der Sennewitz-Formation 16
2.4.3 Die Ablagerungen der Hornburg-Formation 17
2.4.4 Die Ablagerungen der Brachwitz-Formation 19
2.4.5 Die Ablagerungen der Eisleben-Formation 20
2.4.6 Aktuelle Stratigraphische Gliederung 22
2.5 Die späte Phase des Halle Vulkanitkomplexes und ihr Bezug zur
Diplomarbeit 23
3 Arbeitsmethodik 24
3.1 Aufnahme der Bohrungen Brachwitz 2/62 und Lochau 7/65 24
3.2 Aufnahme des Aufschlusses am Teichgrund bei Döblitz 26
3.3 Aufnahme des Aufschlusses am Riveufer im Stadtgebiet von Halle 26
4. Vulkanische und sedimentäre grobklastische Transport- und
Ablagerungssysteme 27
4.1 Vulkanische Massentransporte 27
4.1.1 Pyroklastische Ablagerungen 27
4.1.1.1 Pyroklastische Fallablagerungen 28
(1) Aschefallablagerungen 28
(2) Bimsführende Fallablagerungen 29
(3) Scoriaführende Fallablagerungen 29
4.1.1.2 Pyroklastische Stromablagerungen 29
(1) Bimsführende pyroklastische Stromablagerungen
oder Ignimbrite 29
(2) Block- und Aschestromablagerungen 31
(3) Scoriaführende pyroklastische Stromablagerungen 32
4.1.1.3 Pyroklastische Surge-Ablagerungen 32
(1) Surgeablagerungen durch Aschewolken 32
(2) Ablagerungen am Boden der pyroklastischen Surge 33
(3) Ablagerungen an der Basis der pyroklastischen Surge 33
4.1.2 Explosive vulkanische Eruptionen 33
(1) Hawaiianische Eruptionen 34
(2) Plinianische Eruptionen 34
(3) Strombolianische Eruptionen 35
(4) Vulkanianische und Surtseyanische Eruptionen 35
4.1.3 Produkte phreatomagmatischer Eruptionen 36
(1) Maare 37
(2) Tuffkegel und Tuffringe 37
4.1.4 Tephraablagerungen 38
4.2 Sedimentäre Massentransporte 39
4.2.1 Alluviale Fächer 40
4.2.2 Schichtfluten 42
4.2.3 Flußsyteme 42
4.2.4 Überflutungsebenen 43
4.2.5 Deltas und Ästuare 44
5. Lithologien und Faziestypen 45
6. Aufschlüsse und Bohrungen 45
6.1 Aufschlußkomplex am Riveufer im Stadtteil Giebichenstein in Halle 48
6.1.1 Allgemeine Aussagen 48
6.1.2 Das Faziesmodell eines verflochtenen Flußsystems 48
(1) Ausbildung von Rinnen 48
(2) Einfallen der Rinnen 50
(3) Prallhänge 50
(4) Seitenanschnitte an beiden Enden des Aufschlusses 51
6.1.3 Ein tuffgefülltes Spaltensystem als syn- bis postsedimentäres
Ereignis 52
6.1.4 Interpretation 53
6.2 Aufschluß am Teichgrund bei Döblitz 55
6.2.1 Allgemeine Aussagen 55
6.2.2 Sedimentäre Lithofaziestypen und -assoziationen 56
6.2.3 Dokumentation der einzelnen Aufschlüsse 56
6.2.3.1 Aufschluß T1 56
(1) Detaildarstellung Aufschluß am Teichgrund T1-1 56
6.2.3.2 Aufschluß T2 59
6.2.3.3 Aufschluß T3 59
6.2.4 Fazielle Diskussion 59
6.3 Kernbohrung Brachwitz BrwSk 2/62 südöstlich der Ortschaft
Friedrichsschwerz 61
6.3.1 Allgemeine Informationen 61
6.3.2 Erläuterungen zu den Lithofaziestypen 61
(1) SFT-B1 Konglomerat der Eislebenformation 61
(2) SFT-T1 Sedimentäre Brekzie 61
(3) SFT-T4 Mittel- bis Grobsandstein 62
(4) SFT-B2 Schluffstein 62
(5) VFT-T0 Rhyolith, brekziös/
VFT-T1 Porphyrbrekzie, monomikt 63
(6) VFT-B12 Porphyrbrekzie mit Obsidianmatrix 64
(7) VFT-B2 Porphyrbrekzien, oligomikt und polymikt 64
(8) VFT-B3 Mittelsand, vulkanogen 65
(9) VFT-B5 Schluffstein, brekziiert 66
6.3.3 Auswertung 66
6.4 Kernbohrung Lochau 7/65 südöstlich Halle 68
6.4.1 Allgemeines 68
6.4.2 Erläuterungen zu den Vulkanischen Faziestypen 68
(1) VFT-L1 Aschentuff 68
(2) VFT-L2 Surges 69
(3) VFT-L3 Surge oder Explosionsbrekzie 70
(4) VFT-L4 Explosionsbrekzie mit Tuffzwickelfüllung 71
(5) Tuff mit einzelnen Ballistischen Bomben 72
6.4.4 Beispiel Ha-Lo7/17 73
6.4.5 Diskussion 74
7. Zusammenfassung und Ausblick 76
8. Literatur- und Quellenverzeichnis 78
9. Anhang
Anlage 1: Allgemeines
Anlage 2: Teichgrund bei Döblitz
Anlage 3: Riveufer im Stadtzentrum von Halle (Saale)
Anlage 4: Kb Brachwitz 2/62
Anlage 5: Kb Lochau 7/65
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| 258 |
Kleinskalige Magnetfelder der Sonne und ihr Einfluß auf Chromosphäre, Übergangszone und Korona / Small-Scale Solar Magnetic Fields and their Influence upon Chromosphere, Transition Region and CoronaWilken, Volker 28 June 2001 (has links)
No description available.
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