Global ETD Search

21	Design of Hinge-Line Geometry to Facilitate Non-Plastic Folding in Thin Metallic Origami-Inspired Devices Zhang, Miaomiao 29 August 2019 (has links) No description available. Mechanical Engineering bulk metallic glasses membrane hinges folding stress distribution panel spacing
22	Plieninių strypų, įklijuotų medienoje, tyrimas ir analizė / Research and analysis of steel rods glued - in glulam Gečys, Tomas 28 June 2010 (has links) Baigiamajame magistro darbe pateiktos pagrindinės prielaidos, kurios priimamos analizuojant klijų kontaktą tarp medienos ir metalo. Aptartos plačiausiai taikomos plieninių sriegtų strypų įklijavimo medienoje technologijos. Apibendrinti plieninių sriegtų strypų įklijavimo medienoje technologijos kontrolės metodai. Išanalizuota mokslinė literatūra, susijusi su plieninių sriegtų strypų įklijavimu medienoje. Tiriamojoje dalyje surasti ir išnagrinėti Pasaulinės patentų sistemos „esp@cenet“ 11 patentų, kuriuose pateikiami montažiniai medienos elementų mazgai, sukonstruoti panaudojant plieninius įklijuojamus strypus. Pateikti pagrindiniai standžių montuojamųjų mazgų konstravimo principai. Eksperimentinėje dalyje laboratoriniais bandymais ištirta sąveika tarp medienos ir plieninio sriegto strypo, kai kontaktas tarp jų užtikrinamas klijais. Atlikti eksperimentiniai tyrimai: plieninių sriegtų strypų takumo bei stiprumo įtempių nustatymas; medienos tankio ir drėgnio nustatymas; plieninių sriegtų strypų ištraukiamojo atspario nustatymas. Aptarti pagrindiniai gamybos netikslumai, kurie turi įtakos jungties elgsenai ir laikomajai galiai. Išanalizuota pavienio plieninio strypo, įklijuoto medienoje, gniuždomojo ir tempiamojo atspario skaičiavimo metodika, pateikiama projektavimo normose STR ir Eurokode 5. Bandymų rezultatai palyginti su teorinėmis išraiškomis, pateikiamomis projektavimo normose. Remiantis eksperimentinių bandymų rezultatais ir ankstesnių autorių tyrimų... [toliau žr. visą tekstą] / In this master degree thesis submitted general assumtions which are being adopted while analysis of glued joint between timber and steel. Discussed the main technologies of glueing in steel rod into timber. Summarized technolgy control methods of glueing in steel rods process. Overviewed the scientific literature which is related to the steel rods glued in timber. In research part of the work submitted 11 patents of esp@cenet patent base of rigid joints in which construction used glued in steel rods. Given the main principles of construction of rigid joints with glued in steel rods. In experimental part of the work investigated the behavior of the timber – steel joint which contact is ensured by glue. Experimental studies were done: yield and strength stress determination of threaded steel rods; determination tests of timber moisture content and density; determination of tensile carrying capacity of threaded steel rod glued in glulam. Reported production inaccuracies and its influence on joint‘s behavior and final carrying capacity. The results are compared with theoretical expressions provided by the design rules. Based on the experimental results of the test and study reports of previous authors, submitted proposals for design rules of the addition of comments. Structure: introduction, the concept of the matter, literature review, experimental studies, conclusions and suggestions, references. Thesis consist of: 100 p. text without appendixes, 64 pictures, 20 tables, 43... [to full text] Civil Enginering Medienos jungtis Įklijuotieji medienoje strypai Įtempių pasiskirstymas medienoje Timber joint Glued – in steel rods in timber Stress distribution in timber
23	Experimental and numerical analysis of deformation and damage in thermally bonded nonwoven material Farukh, Farukh January 2013 (has links) No description available.
24	Analysis and Characterization of Residual Stresses in Pipe and Vessel Welds Song, Shaopin 15 December 2012 (has links) This research sought to establish residual stress distribution characteristics in typical pipe and vessel welds by carrying out a comprehensive parametric study using an advanced sequentially coupled thermo-mechanical finite element procedure. The parametric study covered vessel and pipe components with a ranging radius to thickness ratio from r/t=2 to 100, for thickness ranging from t=1/4” to 10”. Component materials varied from low carbon steel to high alloy steels, such as stainless steel and titanium alloy. Furthermore, a structural mechanics based framework is proposed to generalize through-thickness residual stress distributions for a broad spectrum of joint geometry and welding conditions. The results of this study have been shown to provide both a significantly improved understanding of important parameters governing residual stresses in pipe and vessel welds, as well as a unified scheme for achieving consistent residual stress prescriptions for supporting fitness-for-service assessments of engineering structures. Specific contributions of this investigation may be summarized as follows: (a) A welding heating input characterization procedure has been developed and validated to relate prescribed temperature thermal modeling procedure to conventional linear input definition. With this development, a large number of parametric analyses can be carried in a cost-effective manner without relying on the heat flux based weld pool model that can be exhaustive and time-consuming. (b) A set of governing parameters controlling important residual stress distribution characteristics regardless of joint types, materials, and welding procedures have been identified. These are characteristic heat input intensity and radius over thickness ratio. (c) A shell theory based residual stress estimation scheme has been developed to interrelate all parametric analysis results for circumferential girth welds, which can also be used to estimate residual stress distributions in both through-thickness and at any distance away from the weld, for cases that are not covered in the parametric study. (d) In a similar manner, a curve bar theory based residual stress estimation scheme has also been developed for longitudinal seam welds. These developments can significantly advance the residual stress profile prescription methods stipulated in the current national and international FFS Codes and Standards such as 2007 API 579 RP/ASME FFS-1 and BS 7910: 2011. Engineering
25	Análise da distribuição das tensões através de prótese fixa implanto-suportada e dento-implanto-suportada em hemi-mandíbulas de canis familiaris mediante o método de interferometria holográfica de dupla exposição / Stress analysis of tooth-implant and implant supported prosthesis in dog mandibles. Holographic interferometry double exposition method Rodriguez, José Eduardo Chorres 20 September 2005 (has links) Este estudo objetivou pesquisar a distribuição das tensões através de próteses fixas implanto-suportadas e dento-implanto-suportadas em hemi-mandíbulas de canis familiaris mediante o método de interferometria holográfica de dupla exposição. Três cães foram selecionados e colocados três implantes em cada um deles (hemi-mandíbula direita: um implante e na hemi-mandíbula esquerda: dois implantes). Após a espera de dois meses, os dois tipos de próteses foram fixados sobre os implantes e os animais sacrificados. A seguir, as hemi -mandíbulas foram extraídas e fixadas no dispositivo especialmente desenhado para tal fim (CAMPOS, 2001). Todo o sistema foi colocado sobre uma mesa holográf ica e carga estática foi aplicada sobre três posições previamente estabelecidas nas próteses (sobre o pilar anterior, ponto médio da barra e pilar posterior). 18 hologramas foram obtidos mediante a técnica holográfica. A análise dos hologramas revelou que de forma geral, as hemi-mandíbulas com próteses dento-implanto-suportadas sofreram maior tensão quando comparadas com as hemi-mandíbulas com próteses implanto-suportadas. Em relação às próteses, as implanto-suportadas foram aquelas que melhor distribuíram os esforços quando comparadas com as dento-implanto-suportadas. / The aim of this study was to investigate the stress distribution of tooth-implant and implant supported prosthesis in dog mandibles by means of holographic interferometry double exposition method. Three mongrel dogs were selectioned and three osseointegrated implants were placed (right hemi-mandible: one implant and in the left hemi-mandible: two implants). After two months, both prostheses were fixed on the implants and the animals were sacrificed. The hemi-mandibles were fixed in a special device (CAMPOS, 2001) and placed on the holographic table. A static load was applied on three different positions on the prosthesis (anterior abutment, midpoint of the bar and posterior abutment) and eighteen holograms were obtained. The hologram analysis revealed that the hemi-mandibles with tooth-implant prosthesis transmitted more tension that the hemi-mandibles with implant supported prosthesis. In addition to, an equal distribution of stress were observed in the implant supported prosthesis when compared with the tooth-implant prosthesis. interferometry biomecânica biomechanics dental prosthesis distribuição de estresse holografia holography interferometria prótese dentária stress distribution tooth-implant prosthesis união dente-implante
26	Análise pelo método dos elementos finitos da distribuição de tensões em componentes protéticos posicionados em implantes com conexão cone morse na região anterior da maxila / Analysis by the finite element method of the stress distribution in prosthetic components placed in implants with morse cone connection in the anterior maxilla López, Camilo Andrés Villabona 02 August 2012 (has links) O objetivo desse estudo foi avaliar, por meio do método tridimensional dos elementos finitos, a distribuição de tensões na interface osso/implante e implante/pilar em implantes com conexão cone morse, posicionados na região anterior da maxila. A partir de uma reconstrução virtual óssea proveniente de uma tomografia computadorizada, foi simulada uma prótese cantilever (11-21) utilizando componente protético com pescoço de 2,5 mm de altura posicionado sobre implantes de 3,75 mm e 4,0 mm de diâmetro e 8,5 mm e 10 mm de comprimento; e prótese parcial fixa convencional (12-22) com componente protético com pescoço de 1,5 mm posicionado em implantes com 3,75 mm e 3,3 mm de diâmetro e 8,5 mm e 10 mm de comprimento. O ensaio realizado com aplicação de carga de 178 N e inclinação de 45° em relação ao longo eixo do implante na superfície palatina das próteses. A tensão de pico Equivalente Von Mises para ambos os casos clínicos foram localizados em áreas do pescoço dos componentes protéticos, plataforma e pescoço dos implantes e região óssea periimplantar. Na região dos incisivos centrais, o pico mais elevado de tensão Von mises correspondeu ao implante de 3,75 mm x 8,5 mm (370,413 MPa), e o menor ao implante de 4,0 mm x 8,5 mm valor (367, 475 MPa). No osso periimplantar a tensão de pico variou de 53,846 MPa para implante 3,75 mm x 8,5 mm à 47,284 MPa para implante 4,0 mm x 10 mm. Para implantes posicionados na região dos incisivos laterais, o valor mais elevado correspondeu ao implante de 3,3 mm x 8,5 mm (832, 911 MPa), e o menor valor ao implante de 3,75 mm x 8,5 mm (433, 666 MPa). No osso periimplantar a tensão de pico variou de 64,433 MPa, para implante 3,3 mm x 8,5 mm, à 50,277 MPa para implante 3,75 mm x 10 mm. Conclui-se que os valores e áreas de pico de tensão nos componentes protéticos posicionados em implantes com os diferentes comprimentos (8,5 mm e 10 mm) e diâmetros (3,75 mm e 4,0 mm), na região dos incisivos centrais, foram semelhantes. Implantes com mesmo diâmetro, posicionados na região dos incisivos laterais apresentaram valores e áreas de tensão semelhantes no pilar protético e osso periimplantar, independente do comprimento. Implantes com 3,3 mm de diâmetro apresentaram o dobro dos valores que implantes com 3,75 mm. / The aim of this study was to evaluate through the three-dimensional method of the finite elements the stress distribution in the bone / implant interface and implant / abutment on implants with morse cone connection, placed in the anterior maxilla. From a virtual reconstruction of bone from a CT scan, cantilever prosthesis (11-21) was simulated using prosthetic component with neck height of 2.5 mm placed in the implant with 3.75 and 4.0 mm diameter and 8.5 and 10 mm length; and conventional fixed partial denture (12-22) with prosthetic component with neck height of 1.5 mm placed in implants with 3.75 and 3.3mm of diameter and 8.5 mm and 10 mm length. The test performed with application of load of 178 N and inclination of 45 ° to the long axis of the implant in the palatal surface of the prosthesis. The peak stress concentration Equivalent Von Mises for both clinical cases were found in areas of the neck of the prosthetic components, platform and neck implants and peri-implant bone area. In the central incisors region, the highest value stressVon mises corresponded to 8.5 x 3.75 mm implant (370.413 MPa), and the lowest value to 4.0 x 8.5 mm implant (367 , 475 MPa). At the peri-implant bone the stress ranged from 53.846 MPa for 8.5 mm x 3.75 mm implant to 47,284 MPa for 4.0 mm x 10 mm implant. For implants placed in the lateral incisors region, the highest value corresponded to 3.3 x 8.5 mm implant (832 , 911 MPa ), and the lowest value to 3.75 mm x 8.5 mm implant (433, 666 MPa ). At the peri-implant bone the highest value stressVon mises ranged from 64.433 MPa for 3.3 mm x 8.5 mm implant, to 50,277 MPa for 3.75 x 10 mm implant. It follows that the values and peak areas of stress on the prosthetic components placed on implants with different lengths ( 8.5 to 10 mm) and diameter (3.75 and 4.0 mm), in the central incisors area, were similar. Implants with the same diameter, placed in the lateral incisors area showed values and areas of tension similar on the abutment and peri-implant bone area, regardless of the length. Implants with 3.3 mm diameter were twice the values that 3.75 mm implants. anterior maxillary distribuição de tensão elemento finito finite element fixed partial dentures prótese parcial fixa região anterior da maxila stress distribution
27	Effect Of Foundation Rigidity On Contact Stress Distribution In Soils With Variable Strength / Deformation Properties Cekinmez, Zeynep 01 January 2010 (has links) (PDF) In this study, a typical mat foundation and structural loading pattern is considered. Three dimensional finite element analyses, PLAXIS 3D, is performed to determine the soil / foundation contact stress distribution, settlement distribution, distribution of modulus of subgrade reaction as a function of column spacing, stiffness of the soil and thickness of the foundation. A parametric study is performed to demonstrate the dependence of those distributions on various parameters. Moreover, a relationship between size of the foundation, deformation modulus of foundation soil and modulus of subgrade reaction is proposed. Depending on the variations in those parameters, obtained shear force and bending moment distributions are compared. Consistency between the resulting shear forces and bending moments of a typical foundation, modeled in two different three dimensional finite element programs, PLAXIS 3D and SAP 2000, is discussed. It is found that the variation in the aforementioned parameters cause different influences on contact stress distribution, settlement distribution, distribution of modulus of subgrade reaction. The importance of those variations in beforementioned parameters, under different situations is discussed. A relationship between modulus of subgrade reaction and deformation modulus of foundation soil is proposed. QE General 1-350.62
28	Neotectonics And Evolution Of The Yenicaga Basin, Bolu - Turkey Arca, Serkan Mehmet 01 July 2004 (has links) (PDF) Study area, the Yeni&ccedil / aga Basin, is located in the western part of the North Anatolian Fault System. It is a 1-5-km-wide and 14-km-long WSWENE- trending depression bounded by a complex array of strike-slip faults. The Yeni&ccedil / aga Basin is interpreted to be a fault &ndash / wedge basin with the North Anatolian Fault&rsquo / s System Master Strand, namely the Gerede Fault, cutting across the basin itself. The basin and its surroundings contain mainly two groups of rock units namely the paleotectonic units and the neotectonic units. Paleotectonic units, which are deposited or formed during different phase(s) of tectonic regimes, comprise several formations. The most important one of these formations is the Upper Miocene &ndash / Lower Pliocene Eskipazar formation which plays an important role in understanding the evolutionary history of the basin. Neotectonic unit deposited under the control of today&rsquo / s tectonic regime is the Plio-Quaternary Betem&uuml / rl&uuml / formation.v Betem&uuml / rl&uuml / formation unconformably overlies the paleotectonic Eskipazar formation throughout the study area and the unconformity separating these two units corresponds to the time interval during which the paleotectonic stress regime changed into the neotectonic stress regime. Thus, onset age of the strike-slip neotectonic regime in the study area is Late Pliocene (~ 2,6 My). Common basin margin-bounding faults of the Yeni&ccedil / aga Basin are, the ASagi Kuldan fault, the Aksu fault, the izmirli fault set, the Saray&ccedil / ali fault, the Degirmen fault set and the Hamzabey fault set. They display well-preserved fault scarps in places. Morphological expressions of these faults and their geometrical relationships with the local stress regime indicate that these faults are mainly strike-slip and oblique-slip faults. Morphotectonic expressions of the faults exposing within the study area indicate that these faults are active. Most of the settlements within the study area are located on water-saturated loose basin fill nearby the active faults. Hence, these are open to future earthquake hazards. Therefore, structures and settlements have to be constructed on strong grounds away from the active faults. QE Structural Geology 601-613.5 neotectonics, Yeni&ccedil
29	Análise pelo método dos elementos finitos da distribuição de tensões em componentes protéticos posicionados em implantes com conexão cone morse na região anterior da maxila / Analysis by the finite element method of the stress distribution in prosthetic components placed in implants with morse cone connection in the anterior maxilla Camilo Andrés Villabona López 02 August 2012 (has links) O objetivo desse estudo foi avaliar, por meio do método tridimensional dos elementos finitos, a distribuição de tensões na interface osso/implante e implante/pilar em implantes com conexão cone morse, posicionados na região anterior da maxila. A partir de uma reconstrução virtual óssea proveniente de uma tomografia computadorizada, foi simulada uma prótese cantilever (11-21) utilizando componente protético com pescoço de 2,5 mm de altura posicionado sobre implantes de 3,75 mm e 4,0 mm de diâmetro e 8,5 mm e 10 mm de comprimento; e prótese parcial fixa convencional (12-22) com componente protético com pescoço de 1,5 mm posicionado em implantes com 3,75 mm e 3,3 mm de diâmetro e 8,5 mm e 10 mm de comprimento. O ensaio realizado com aplicação de carga de 178 N e inclinação de 45° em relação ao longo eixo do implante na superfície palatina das próteses. A tensão de pico Equivalente Von Mises para ambos os casos clínicos foram localizados em áreas do pescoço dos componentes protéticos, plataforma e pescoço dos implantes e região óssea periimplantar. Na região dos incisivos centrais, o pico mais elevado de tensão Von mises correspondeu ao implante de 3,75 mm x 8,5 mm (370,413 MPa), e o menor ao implante de 4,0 mm x 8,5 mm valor (367, 475 MPa). No osso periimplantar a tensão de pico variou de 53,846 MPa para implante 3,75 mm x 8,5 mm à 47,284 MPa para implante 4,0 mm x 10 mm. Para implantes posicionados na região dos incisivos laterais, o valor mais elevado correspondeu ao implante de 3,3 mm x 8,5 mm (832, 911 MPa), e o menor valor ao implante de 3,75 mm x 8,5 mm (433, 666 MPa). No osso periimplantar a tensão de pico variou de 64,433 MPa, para implante 3,3 mm x 8,5 mm, à 50,277 MPa para implante 3,75 mm x 10 mm. Conclui-se que os valores e áreas de pico de tensão nos componentes protéticos posicionados em implantes com os diferentes comprimentos (8,5 mm e 10 mm) e diâmetros (3,75 mm e 4,0 mm), na região dos incisivos centrais, foram semelhantes. Implantes com mesmo diâmetro, posicionados na região dos incisivos laterais apresentaram valores e áreas de tensão semelhantes no pilar protético e osso periimplantar, independente do comprimento. Implantes com 3,3 mm de diâmetro apresentaram o dobro dos valores que implantes com 3,75 mm. / The aim of this study was to evaluate through the three-dimensional method of the finite elements the stress distribution in the bone / implant interface and implant / abutment on implants with morse cone connection, placed in the anterior maxilla. From a virtual reconstruction of bone from a CT scan, cantilever prosthesis (11-21) was simulated using prosthetic component with neck height of 2.5 mm placed in the implant with 3.75 and 4.0 mm diameter and 8.5 and 10 mm length; and conventional fixed partial denture (12-22) with prosthetic component with neck height of 1.5 mm placed in implants with 3.75 and 3.3mm of diameter and 8.5 mm and 10 mm length. The test performed with application of load of 178 N and inclination of 45 ° to the long axis of the implant in the palatal surface of the prosthesis. The peak stress concentration Equivalent Von Mises for both clinical cases were found in areas of the neck of the prosthetic components, platform and neck implants and peri-implant bone area. In the central incisors region, the highest value stressVon mises corresponded to 8.5 x 3.75 mm implant (370.413 MPa), and the lowest value to 4.0 x 8.5 mm implant (367 , 475 MPa). At the peri-implant bone the stress ranged from 53.846 MPa for 8.5 mm x 3.75 mm implant to 47,284 MPa for 4.0 mm x 10 mm implant. For implants placed in the lateral incisors region, the highest value corresponded to 3.3 x 8.5 mm implant (832 , 911 MPa ), and the lowest value to 3.75 mm x 8.5 mm implant (433, 666 MPa ). At the peri-implant bone the highest value stressVon mises ranged from 64.433 MPa for 3.3 mm x 8.5 mm implant, to 50,277 MPa for 3.75 x 10 mm implant. It follows that the values and peak areas of stress on the prosthetic components placed on implants with different lengths ( 8.5 to 10 mm) and diameter (3.75 and 4.0 mm), in the central incisors area, were similar. Implants with the same diameter, placed in the lateral incisors area showed values and areas of tension similar on the abutment and peri-implant bone area, regardless of the length. Implants with 3.3 mm diameter were twice the values that 3.75 mm implants. distribuição de tensão elemento finito prótese parcial fixa região anterior da maxila anterior maxillary finite element fixed partial dentures stress distribution
30	Análise da distribuição das tensões através de prótese fixa implanto-suportada e dento-implanto-suportada em hemi-mandíbulas de canis familiaris mediante o método de interferometria holográfica de dupla exposição / Stress analysis of tooth-implant and implant supported prosthesis in dog mandibles. Holographic interferometry double exposition method José Eduardo Chorres Rodriguez 20 September 2005 (has links) Este estudo objetivou pesquisar a distribuição das tensões através de próteses fixas implanto-suportadas e dento-implanto-suportadas em hemi-mandíbulas de canis familiaris mediante o método de interferometria holográfica de dupla exposição. Três cães foram selecionados e colocados três implantes em cada um deles (hemi-mandíbula direita: um implante e na hemi-mandíbula esquerda: dois implantes). Após a espera de dois meses, os dois tipos de próteses foram fixados sobre os implantes e os animais sacrificados. A seguir, as hemi -mandíbulas foram extraídas e fixadas no dispositivo especialmente desenhado para tal fim (CAMPOS, 2001). Todo o sistema foi colocado sobre uma mesa holográf ica e carga estática foi aplicada sobre três posições previamente estabelecidas nas próteses (sobre o pilar anterior, ponto médio da barra e pilar posterior). 18 hologramas foram obtidos mediante a técnica holográfica. A análise dos hologramas revelou que de forma geral, as hemi-mandíbulas com próteses dento-implanto-suportadas sofreram maior tensão quando comparadas com as hemi-mandíbulas com próteses implanto-suportadas. Em relação às próteses, as implanto-suportadas foram aquelas que melhor distribuíram os esforços quando comparadas com as dento-implanto-suportadas. / The aim of this study was to investigate the stress distribution of tooth-implant and implant supported prosthesis in dog mandibles by means of holographic interferometry double exposition method. Three mongrel dogs were selectioned and three osseointegrated implants were placed (right hemi-mandible: one implant and in the left hemi-mandible: two implants). After two months, both prostheses were fixed on the implants and the animals were sacrificed. The hemi-mandibles were fixed in a special device (CAMPOS, 2001) and placed on the holographic table. A static load was applied on three different positions on the prosthesis (anterior abutment, midpoint of the bar and posterior abutment) and eighteen holograms were obtained. The hologram analysis revealed that the hemi-mandibles with tooth-implant prosthesis transmitted more tension that the hemi-mandibles with implant supported prosthesis. In addition to, an equal distribution of stress were observed in the implant supported prosthesis when compared with the tooth-implant prosthesis. biomecânica distribuição de estresse holografia interferometria prótese dentária união dente-implante interferometry biomechanics dental prosthesis holography stress distribution tooth-implant prosthesis

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