Numerical analyses of steel and aluminum alloy bridge guard fences

伊藤, 義人, Itoh, Yoshito, Usami, K, Kusama, Ryuichi, 貝沼, 重信, Kainuma, Shigenobu

12 1900

No description available.

bridge guard fence

strain rate effect

numerical analysis of vehicle collision

Loading rate effects on pile load-displacement behaviour derived from back-analysis of two load testing procedures

Charue, Nicolas

25 October 2004

Soils, like several other materials, exhibit strong time-dependent behaviour which can be evidenced in terms of creep or strain-rate effects. The degree of this rheological behaviour varies with the type of soil, its structure, and with the stress history. This effect is exacerbated in pile load testing where the procedure duration tends to be shortened under increasing time pressures. The modelling needed to interpret the results therefore becomes more and more complex, including soil viscosity, wave radiation into the soil and other significant phenomena. The objective of the research reported herein is to refine the rheological parameters characterizing the influence of the loading rate within the framework of a relevant pile/soil interaction model fed with dynamic measurements acquired during pile Dynamic Load Tests (DLTs). The final goal is to predict and simulate the quasi-static pile load settlement curve. The pile/soil interaction system is described by a non-linear mass/spring/dashpot system supposed to represent the pile and the soil, with constitutive relationships existing within and between them. These relationships account for the static and the dynamic or rheologic behaviour. A back-analysis process based on a matching procedure between measured and computed quantities allows one to characterize the pile/soil interaction in terms of constitutive and rheologic parameters based on the dynamic measurements. After optimisation of the matching procedure, the parameters obtained are used to simulate the “static” load-settlement curve. The matching procedure is based on an automatic and stochastic parameter perturbation analysis. Since the parameters influence the system response with a relative weight, they are sorted in order to optimise all the parameters by successively retrieving the most influential ones and working on the remaining ones. The back-analysis performed on real dynamic measurements in this research leads to an improved pile/soil interaction model. The slippage between pile and soil along the pile shaft must be explicitly taken into account. This refinement increases the number of degrees of freedom needed to describe the pile/soil system but brings deeper insight into the behaviour of an interfacing zone of limited thickness surrounding the pile shaft.

Dynamic load test

Loading rate effect

Pile

Load displacement behaviour

Static load test

Back analysis

車両衝突を受ける橋梁用鋼製防護柵の材料ひずみ速度効果と性能照査に関する研究

伊藤, 義人, ITOH, Yoshito, 劉, 斌, LIU, Bin, 宇佐見, 康一, USAMI, Koichi, 草間, 竜一, KUSAMA, Ryuichi, 貝沼, 重信, KAINUMA, Shigenobu

04 1900

No description available.

steel bridge guard fence

vehicle collision

numerical analysis

strain rate effect

performance-based design

The Presence of Binaural Interaction Component (BIC) in the Auditory Brainstem Response (ABR) of Normal Hearing Adults

Wong, Man Sze

05 July 2002

The purpose of this study was to determine the prevalence of the binaural interaction component (BIC) in a large sample of normal hearing adults, and to measure the absolute latency and amplitude of the BIC as a function of the click rate of the stimulus and the electrode montage. The BIC is obtained by subtracting the auditory evoked potential waveform obtained with binaural stimulation from the waveform obtained by adding the responses from the left and right monaural stimulation. The tested hypothesis was that the recordings of the BIC vary among normal hearing individuals, and BIC latency and amplitude values change as a function of stimulus rate. Studies of the BIC help to explain the neural correlates of some binaural processes, and to develop an electrophysiological index of binaural processes for objective clinical evaluations. Data was completed and analyzed on 47 adults between the ages of 20 and 41 (mean = 25) with hearing in the normal range (thresholds less than or equal to 20 dB HL at 500, 1000, 2000, and 4000 Hz in each ear) and no known neurological disorders. The results revealed a great variability in BIC morphology between subjects. The BIC waveforms were categorized into five distinct groups according to the number of positive and negative peaks present. Chi-square analyses revealed a significant relationship between click rate and BIC category; however, the relationship between recording montage and BIC category was insignificant. An Analysis of Variance (ANOVAs) revealed a significant increase in absolute latency and decrease in absolute amplitude of both negative and positive peaks as click rate increased from 7.7/s to 57.7/s. The results did not reveal a significant change in the type of BIC as an effect of electrode montage. In conclusion, the BIC within the binaural difference waveform may be obtained in the majority of young individuals with normal hearing. Specifically, a slower stimulus rate revealed more components of the waveform, as well as an improvement in the morphology of the BIC compared to a faster stimulus rate. As these findings may aid in the development of an electrophysiological index of binaural neural processes in young individuals with normal hearing, more research should be attempted in the study of BIC in other age groups and patients with different audiograms.

Binaural interaction component

Auditory brainstem response

Binaural psychoacoustic functions

Stimulus rate effect

American Studies

Arts and Humanities

Development of Portable Undrained Ring Shear Apparatus and Its Application / ポータブル非排水リングせん断試験機の開発とその応用

Maja Ostric

24 September 2013

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第17868号 / 工博第3777号 / 新制||工||1577(附属図書館) / 30688 / 京都大学大学院工学研究科社会基盤工学専攻 / (主査)教授 寶 馨, 教授 木村 亮, 准教授 立川 康人 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Undrained ring shear apparatus

Grohovo landslide

Negative rate effect

silica sand

silica sand-bentonite mixtyres

500

Quasi-static and Dynamic Mechanical Response of T800/F3900 Composite in Tension and Shear

Deshpande, Yogesh

12 October 2018

No description available.

Mechanical Engineering

composites

material properties

strain rate effect

dynamic testing

Digital Image Correlation

Einfluss von Poren und Porenwasser auf die Festigkeitssteigerung von Beton unter hohen Belastungsgeschwindigkeiten

Mosig, Oliver

09 December 2021

Die Festigkeitssteigerung von Betonen unter hohen Belastungsgeschwindigkeiten ist seit über 100 Jahren im Fokus der Forschung. Bisher konnten bereits eine Vielzahl von möglichen Er-klärungen dieser Festigkeitssteigerung benannt werden, wobei die Heterogenität des Betons im Allgemeinen als eine wesentliche Ursache angenommen werden kann. Die Heterogenität des Betons resultiert aus den im Zementstein eingebetteten Zuschlägen, aber auch durch da-rin eingeschlossene Luft- und Wasserporen, welche Hauptgegenstand dieser Arbeit sind. Es wurde untersucht, inwieweit vorhandenes Porenwasser die Festigkeitssteigerung von Be-ton unter hohen Belastungsgeschwindigkeiten beeinflusst. Auf Basis von experimentellen Ver-suchen im Split-HOPKINSON-Bar an verschiedenen Normalbetonen konnte gezeigt werden, dass vorhandenes Porenwasser die statische und dynamische Betondruckfestigkeit in gleicher Weise signifikant reduziert. Diese Abnahme der Betondruckfestigkeit kann als unabhängig von der Belastungsgeschwindigkeit angesehen werden. Des Weiteren wurden numerische Untersuchungen zum Einfluss von Poren auf die Ausbrei-tung von Belastungswellen durchgeführt. Dabei rückten sowohl das globale Wellenausbrei-tungsverhalten in einer porendurchsetzten Struktur als auch die lokale Wellenbrechung an ei-ner Einzelpore, sowie das Porenmedium (Luft oder Wasser) in den Fokus. Es konnte gezeigt werden, dass vorhandene Poren die Wellenausbreitungsgeschwindigkeit reduzieren und dass das Verhältnis aus Porengröße zur Belastungswellenlänge einen wesentlichen Einflussfaktor für die transiente Spannungsverteilung im Porenbereich darstellt. Insbesondere konnte mit ab-nehmender Belastungswellenlänge eine Reduzierung der örtlichen Kerbspannungen am Po-renrand beobachtet werden, woraus festigkeitssteigernde Effekte resultieren können.

info:eu-repo/classification/ddc/624

ddc:624

Rate effects in fine grained soils

Quinn, Turlough

January 2013

The strain rate dependent behaviour of fine grained soils is an important aspect of geotechnical engineering. During dynamic or rapid events such as earthquakes and rapid pile testing, a fine grained soil will display significantly different behaviour than may be observed over the long life span of a structure. There is currently little understanding of the factors which influence the behaviour of fine grained soils during dynamic events (extremely high strain rates), making their response difficult to predict. This research investigates the behaviour of fine grained soils subjected to a wide range of constant strain rates in monotonic triaxial compression testing. Each test is conducted under drained conditions to observe the behaviour of soils as they transition from a drained response at lower strain rates, through to an undrained or viscous response at higher strain rate tests. Where the response of soils is drained or partially drained, higher strain rate tests measure a decrease in strength. The point of transition from partially drained to undrained behaviour corresponds to the lowest strain rate dependent strength. Further tests at higher strain rates measure consistently greater strength. The strain rate dependence of three fine grained soils is investigated, enabling a comparison of strain rate effects with soil index properties. The influence of initial state on the strain rate dependence of these Kaolin based model soils is also evaluated. The drained to partially drained response of the soils to strain rate increase is controlled by the coefficient of consolidation. Tests at high strain rates show the undrained or viscous strain rate effect on strength is related to liquidity index. Local strain instrumentation allowed comparison of strain rate effects on small strain stiffness. At higher strain rate the soils display increasingly linear behaviour. At non-linear elastic strains, liquidity index appears to control the magnitude of the strain rate effects on stiffness.

624

The Role of High-Level Reasoning and Rule-Based Representations in the Inverse Base-Rate Effect

Wennerholm, Pia

January 2001

<p>The inverse base-rate effect is the observation that on certain occasions people classify new objects as belonging to rare base-rate categories rather than common ones (e.g., D. L. Medin & S. M. Edelson, 1988). This finding is inconsistent with normative prescriptions of rationality, and provides an anomaly for current theories of human knowledge representation, such as the exemplar-based models of categorization, which predict a consistent use of base-rates (e.g., D. L. Medin & M. M. Schaffer, 1978). This thesis presents a novel explanation of the inverse base-rate effect. The proposal is that participants sometimes eliminate category options that are inconsistent with well-supported inference rules. These assumptions contrast with those by attentional theory (J. K. Kruschke, in press), according to which the inverse base-rate effect is the outcome of rapid attention shifts operating on cue-category associations. Study I, II, and III verified seven qualitative predictions derived from the eliminative inference idea. None of these phenomena can be explained by attentional theory. The most important of these findings were that elimination of well-known, common categories mediate the inverse base-rate effect rather than the strongest cue-category associations (Study I), that only participants with a rule-based mode of generalization exhibit the inverse base-rate effect (Study II), and that rapid attentional shifts per se do not accelerate learning, but rather decelerate it (Study III). In addition, Study I provided a quantitative implementation of the eliminative inference idea, ELMO, that demonstrated that this high-level reasoning process can produce the basic pattern of base-rate effects in the inverse base-rate design. Taken together, as an account of the inverse base-rate effect the empirical evidence of this thesis suggest that rule-based elimination is a powerful component of the inverse base-rate effect. But previous studies have indicated that attentional shifts affect the inverse base-rate effect, too. Therefore, a complete account of the inverse base-rate effect needs to integrate inductive and eliminative inferences operating on rule-based representations with attentional shifts. The Discussion of this thesis propose a number of suggestions for such integrative work. </p>

Psychology

inverse base-rate effect

rationality

human knowledge representations

exemplar-based models of categorization

eliminative inference

inference rules

rapid attention shifts

associations

Psykologi

Psychology

Psykologi

The Role of High-Level Reasoning and Rule-Based Representations in the Inverse Base-Rate Effect

Wennerholm, Pia

January 2001

The inverse base-rate effect is the observation that on certain occasions people classify new objects as belonging to rare base-rate categories rather than common ones (e.g., D. L. Medin &amp; S. M. Edelson, 1988). This finding is inconsistent with normative prescriptions of rationality, and provides an anomaly for current theories of human knowledge representation, such as the exemplar-based models of categorization, which predict a consistent use of base-rates (e.g., D. L. Medin &amp; M. M. Schaffer, 1978). This thesis presents a novel explanation of the inverse base-rate effect. The proposal is that participants sometimes eliminate category options that are inconsistent with well-supported inference rules. These assumptions contrast with those by attentional theory (J. K. Kruschke, in press), according to which the inverse base-rate effect is the outcome of rapid attention shifts operating on cue-category associations. Study I, II, and III verified seven qualitative predictions derived from the eliminative inference idea. None of these phenomena can be explained by attentional theory. The most important of these findings were that elimination of well-known, common categories mediate the inverse base-rate effect rather than the strongest cue-category associations (Study I), that only participants with a rule-based mode of generalization exhibit the inverse base-rate effect (Study II), and that rapid attentional shifts per se do not accelerate learning, but rather decelerate it (Study III). In addition, Study I provided a quantitative implementation of the eliminative inference idea, ELMO, that demonstrated that this high-level reasoning process can produce the basic pattern of base-rate effects in the inverse base-rate design. Taken together, as an account of the inverse base-rate effect the empirical evidence of this thesis suggest that rule-based elimination is a powerful component of the inverse base-rate effect. But previous studies have indicated that attentional shifts affect the inverse base-rate effect, too. Therefore, a complete account of the inverse base-rate effect needs to integrate inductive and eliminative inferences operating on rule-based representations with attentional shifts. The Discussion of this thesis propose a number of suggestions for such integrative work.

Psychology

inverse base-rate effect

rationality

human knowledge representations

exemplar-based models of categorization

eliminative inference

inference rules

rapid attention shifts

associations

Psykologi

Psychology

Psykologi