Propuesta de diseño de muro de suelo reforzado como soporte de vías ferroviarias mediante técnicas numéricas en el tramo Mariscal Cáceres – Acoria del Ferrocarril Huancayo – Huancavelica / Design proposal for a reinforced soil wall as a support for railway tracks using numerical techniques in the Mariscal Cáceres – Acoria section of the Huancayo - Huancavelica Railway

Coria Urcia, Marjorie Lilibeth, Herquinio Meza, Will Bryan

23 November 2021

En la actualidad, se puede observar situaciones en las que el terreno sufre constantes cambios debido a factores climáticos, geológicos, sísmicos, y demás fenómenos naturales, provocando movimientos que ocasionan la falla del talud. Por lo cual, cada proyecto de ingeniería debe tener como objetivo principal velar por la integridad del usuario final, interviniendo de manera adecuada en un diseño óptimo para cada situación, ya que esto depende de las características, condiciones y necesidades propias de cada proyecto, no dejando de lado la logística, aérea o terrestre, necesaria. El proyecto de ingeniería en el cual se enfoca la tesis es la “Rehabilitación Integral del Ferrocarril Huancayo Huancavelica”, donde el tramo de estudio elegido es entre las estaciones Mariscal Cáceres y Acoria. Este tramo analizado presenta socavación y deslizamientos o flujos que incrementan paulatinamente debido a las vibraciones ocasionadas por el paso del tren, por agentes naturales y climáticos. También, se evidencia la ausencia de estructuras de soporte y la falta de mantenimiento constante en las progresivas km 86+154 al km 86+208. Este problema puede traer consigo la falta de acceso de pasajeros y/o transporte de mercancías y mineral, a los pueblos que une la línea ferroviaria. Frente a la problemática en mención, existen varias opciones de reforzamiento estructural para el mejoramiento de la capacidad portante del suelo e incluso desde una visión más general existen diferentes tipos de muros de contención. Por ende, una solución óptima frente a nuestra problemática es el uso de suelos reforzados con paramento de gavión como estructura de soporte y protección. El diseño de muro de suelo reforzado para el tramo estudiado se realizó considerando la teoría de equilibrio límite de la metodología de “Diseño por Esfuerzos Admisibles” (ASD - Allowable Stress Design) basada en las recomendaciones de la guía FHWA-NHI-00-043 y las consideraciones en el método de diseño de la “American Association of State Highway and Transportation Officials” (AASHTO). La metodología ASD consiste en evaluar la estabilidad externa e interna en todos los esfuerzos límites de resistencia, mientras que la estabilidad global y el desplazamiento vertical u horizontal se evalúan en los estados límites de servicio. Para el análisis de la estabilidad del muro se utilizó los softwares SLIDE (equilibrio límite) y PLAXIS (elementos finitos), en el cual se concluye que el diseño propuesto de muro de suelo reforzado para la estructura ferroviaria en el tramo estudiado es estable, ya que los valores de los Factores de Seguridad (F.S.) superan los valores mínimos y el desplazamiento horizontal no supera al valor máximo permitido recomendado por la Federal Highway Administration en la publicación FHWA-NHI-00-043. / At present, situations can be observed in which the terrain undergoes constant changes due to climatic, geological, seismic factor s, and other natural phenomena, causing movements that cause the slope to fail. Therefore, each engineering project must have as its main objective to ensure the integrity of the end user, intervening appropriately in an optimal design for each situation, since this depends on the characteristics, conditions, and needs of each project, without leaving aside the necessary air or ground logistics. The engineering project on which the thesis is focused is the "Integral Rehabilitation of the Huancayo Huancavelica Railway", where the section of study chosen is between the Mariscal Cáceres and Acoria stations. This section analyzed presents landslides or debris flow that gradually increase due to the vibrations caused by the passage of the train; furthermore, there is evidence of the absence of support structures and the lack of maintenance in the progressive km 86+154 to km 86+208. This problem brings with it the lack of access for passengers and/or transport of merchandise and minerals, to the towns that the railway line connects. Faced with the problem in question, there are several options for structural reinforcement to improve the bearing capacity of the soil and even from a more general view there are different types of retaining walls. Therefore, an optimal solution to our problem is the use of reinforced soil as a support structure. The design of the reinforced soil wall for the section studied was carried out considering the theory of limit equilibrium of the methodology of "Design by Allowable Stress Design" (ASD - Allowable Stress Design) based on the recommendations of the guide FHWA-NHI- 00-043 and the considerations in the American Association of State Highway and Transportation Officials (AASHTO) design method. The ASD methodology consists of evaluating the external and internal stability in all the resistance limit stresses, while the global stability and the vertical or horizontal displacement are evaluated in the service limit states. For the analysis of the stability of the wall, the software SLIDE (limit equilibrium) and PLAXIS (finite elements) were used, in which it is concluded that the proposed design of reinforced soil wall for the railway structure in the studied section is stable since the values ​​of the Safety Factors (FS) exceed the minimum values ​​and the horizontal displacement does not exceed the maximum allowed value recommended by the Federal Highway Administration in publication FHWA-NHI-00-043. / Tesis

Muro de suelo reforzado

Flujo de detritos

Análisis tensión-deformación

Reinforced floor wall

Debris flow

Stress-strain analysis

Biomechanická studie zubních implantátů pro sníženou densitu kostní tkáně / Biomechanical Study of Tooth Implants for Low Density Bone

Marcián, Petr

January 2012

This work deals with problem of dental implant area, where there are many problems at the dental implants application. The essential issue is the bone tissue quality at implant application, which sig-nificantly influences its deformation, tension and the possibility of subsequent implant failure. The knowledge of bone tissue mechanical properties of mandible and mandible with applied implant can significantly affect prediction of dental implant failure. The mechanical interaction can be described by variable determining deformation and tension of solved system. For this reason the computational modeling by using Finite Element Method was used for solving given problem. The computational model creation of solved system on the high resolution level is necessary for biomechanical assessment of implant failure, including bone tissue quality. For this purpose the biomechanical study was performed, which significantly spreads range of solved problem in this work afterwards. In this work the methodology, which describes assessment of bone tissue quality where the implant should be applied as well as mutual interaction, is presented. The results confirm necessity of bone tissue computational models creation on high resolution level including complex trabecular architecture. In this work the creation of trabecular structure computational model from data gained on micro-CT device is described. Further, the trabecular structure computational model was created on the 3D level with dental implant and the stress strain analysis was performed consequently. The last part of this work deals with introductory study of bone tissue modeling and remodeling.

Elastomer-based Cellular Micromechanical Stimulators for Mechanobiological Study

Wang, Qian

16 September 2014

No description available.

Biomedical Engineering

Micromechanical stimulator

Cell loading

PDMS membrane

Cellular Mechanobiology

Microfluidic

Differential pressure

In-plane strain

Strain analysis

Contoured thickness

Strain homogeneity

3D cell loading

Micro-gripper

Equivalent circuit analogy

Deformačně-napěťová analýza aneurysmatu břišní aorty / Stress-strain analysis of abdominal aortic aneurysm

Ryšavý, Pavel

January 2011

This thesis deals with problems of biomechanics of soft tissues, namely of stress-strain analysis of abdominal aortic aneurysm (AAA). The introduction describes briefly the possibility of aneurysm occurrence with a focus on an aneurysm in the abdominal aorta.

Biomechanická studie ruky / Biomechanical study of hand

Krpalek, David

Unknown Date

This work deals with issue of human wrist and appropriate total wrist implant allowing a restoration of hand mobility approaching physiological condition after traumatic and degenerative diseases. Treating these diseases are very complex. These issues including a biological and medical issues. To determine the appropriate treatment method and select right total wrist implant is important to know the behavior the human wrist at all stages in terms of medical and biomechanical. For this reason, it was developed a biomechanical study including computation model of human wrist allowing solution of strain and stress of hand in physiological and pathological conditions and condition after total wrist implant. The frost remodeling of bone tissue was used for analysis of human wrist bone tissues and bone tissues after application of total wrist implant RE-MOTION™ Total Wrist.

Berechnungsansatz für Strukturbauteile aus Holzfurnierlagenverbundwerkstoff – WVC / Calculation approach of structures made from Wood Veneer Composite – WVC

Eichhorn, Sven

15 February 2013

Es wird ein einfacher Berechnungsansatz für ein Baukastensystem aus Kastenprofilen verschiedener Querschnittsabmessungen erarbeitet. Diese Profile bestehen aus WVC (Wood Veneer Composites, Holzfurnierlagenverbundwerkstoffen). Der Ansatz bildet den statischen Lastfall und das Ermüdungsverhalten unter schwellende Dreipunktbiegung ab. Am Beispiel eines ausgewählten Strukturbauteils aus handelsüblichen Birkensperrholz wird der Berechnungsansatz konkretisiert und durch Versuche evaluiert. Aufbauend auf dem Kraft-Verformungsverhalten der analysierten Einzelbauteile und der kapillarporösen Struktur des Holzes wird bei dem Berechnungsansatz auf eine Analyse der Spannungen verzichtet. Stattdessen wird als Berechnungskriterium die kritische Normaldehnung in der Randfaser der Strukturbauteile genutzt. Weiterhin wird eine Methode vorgestellt um mittels niederzyklischen Ermüdungsversuchs (LCF, ca. 1e+03 Lastwechsel) den „Knickpunkt“ der Zeitfestigkeitslinie eines einstufigen Ermüdungsversuchs bei hohen Lastspielzahlen (HCF, 1e+06 bis 1e+07 Lastwechsel) für diese Strukturbauteile zu bestimmen. / It was developed a simple approach for the calculation of a modular construction system for box sections (profile structures) of different cross-sectional dimensions. These profile structures consists of WVC (Wood Veneer Composites). The approach maps the static load case and the fatigue behavior under pulsating three-point bending. By using a structural component made from commercial birch plywood, the calculation approach is specified and verified. Based on the force-deformation behavior of the analyzed single components in connection with the capillary-porous structure of the wood, the calculation approach dispense on an analysis of the tensions. Instead, a criterion, which calculates the critical normal strain in the outer fibers of the structural components, is used. Furthermore, a method of a low-cycle fatigue test (LCF, abbr. 1e+03 cycles) is presented. This method detects the “knee point" of the fatigue limit line for the profiles. That point is usually determined by the use of a high-cycle fatigue tests (HCF, 1e+06 until 1e+07 cycles).

Holz

Holzfurnierlagenverbundwerkstoff

Sperrholz

statische Berechnung

dynamische Berechnung

Ermüdungsverhalten

Ermüdung

schwellende Dreipunktbiegung

LCF

HCF

niederzyklische Ermüdung

Ermüdung bei hohen Lastspielzahlen

Verzerrungsanalyse

Abkürzungsversuch Knickpunkt

Wood

Wood Veneer Composite

plywood

static calculation

dynamic calculation

fatigue behavior

fatigue

pulsating three-point bending

low cycle fatigue

high cycle fatigue

strain analysis

abbreviation attempt knee point

ddc:620

Holzwerkstoff

Lagenholz

Maschinenbau

Schichtholz

Sperrholz

Ermüdung

Deformační a napěťová analýza dolní čelisti s aplikovaným fixátorem v důsledku deficitu kostní tkáně / Stress-strain analysis of mandible with applied fixator due to the missing bone tissue

Fňukal, Jan

January 2017

This thesis deals with the fixation of lower jaw with bone tissue defect using commercially produced fixator. Large defects of bone tissue are mainly caused due to the removal of bone tissue affected by tumor. These topics have been researched on the basis of the literature. Subsequently, stress strain analysis of the lower jaw with the applied fixation plate was performed. This analysis was solved by using computational modeling with variational approach, ie the finite element method. The work also describes in detail the procedure of creating model of geometry, model of material, model of boundary conditions and loads with subsequent solution of several computational models. The stress strain analysis was done for lower jaw with varying size of the removed bone tissue with applied reconstruction plate made of CP-Ti Grade 4 and for the lower jaw with the plate, which is made of -Ti-Mo. Finally, the influence of the mechanical properties of the callus during formation of new bone tissue (callus healing) on the stress and deformation of the solved system was evaluated.

Deformačně napěťová analýza TEP kyčelního kloubu – typ Santori / Stress - strain analysis of total hip replacement - type Santori

Huťka, Pavel

January 2008

Submitted Diploma thesis deals with stress-strain analysis of deformation proximal end of femur with applied total hip joint endoprosthesis (replacement) – shortcut type. To identify deformation and tensity (stress) was used computational simulation by method of final elements. Have been created two computational models TEP- type Santori and type DePuy Proxima. Geometry model Santori was created on low level model geometry through the use of X-ray photograph. Principle of geometry model type DePuy Proxima was real Femoral stem endoprosthesis which was scanned on scanner ATOS. Geometry of both these replacements were set up in program Rhinoceros 4.0 and then execute in program CatiaV5R17. Data for geometry model of femur were gained from CT chains. Material model of femur have been crated in two variants. The first one looks at structure bone tissues and the second one were created by Gruen´s zones. Femoral Stem was weighted by static equivalent resultant force acting in hip joint. Computational model of system and self solution, including depiction results, was done by ANSYS Workbench 11.0 for four model variants.

Deformačně napěťová analýza TEP kyčelního kloubu – typ Mayo / Stress - strain analysis of total hip replacement - type Mayo

Rýdel, Jiří

January 2008

This diploma thesis deals with hip endoprothesis, primarily with endoprothesis conservative Mayo. A part of this paper considers a study aimed at an anatomy, types and modern trends in endoprothetic. On the basis of this study, gained CT data and the help of systems Ansys Workbench, Rhino Ceros and Catia there was made a model of proximal part of femur and TEP Conservative Mayo. A computational model was build up afterwards, which was used for a stress-train analysis.

Biomechanická studie ruky / Biomechanical Study of Hand

Krpalek, David

January 2016

This work deals with issue of human wrist and appropriate total wrist implant allowing a restoration of hand mobility approaching physiological condition after traumatic and degenerative diseases. Treating these diseases are very complex. These issues including a biological and medical issues. To determine the appropriate treatment method and select right total wrist implant is important to know the behavior the human wrist at all stages in terms of medical and biomechanical. For this reason, it was developed a biomechanical study including computation model of human wrist allowing solution of strain and stress of hand in physiological and pathological conditions and condition after total wrist implant. The frost remodeling of bone tissue was used for analysis of human wrist bone tissues and bone tissues after application of total wrist implant RE-MOTION™ Total Wrist.