A failure criterion for brickwork in axial compression

Khoo, Cheng-Lim

January 1972

No description available.

624.1

Brickwork compressive strength

Compressive Strength Variation Due to Cement Source Change

Brown, Jared Lee

06 May 2017

Cementitious materials obtained from different sources, while evaluated and classified by the same methods and criteria, often produce concrete with compressive strength variance despite other inputs remaining constant. The focus of this thesis was to enumerate and illustrate the possible compressive strength variation when cementitious material sources are interchanged, and investigate the influence that aggregate can have on this variation. This was accomplished by compiling and analyzing compressive strength data from previous research initiatives, and concluded that coefficient of variation (COV) and range values at the 14-, 28-, and 56-day timeframes due to a cement source change varied between 15.3% and 18.1% and 1,988 psi and 2,728 psi in concrete, and 16.1% and 22.9% and 3,406 psi and 5,884 psi in paste or mortar. Concrete that included supplementary cementitious material (SCM) displayed up to 4.1% higher COV values versus non-SCM mixtures, and specific aggregate/cementitious material combinations influenced compressive strength variability.

variation

compressive strength

cement source

Material and structural properties of a novel Aer-Tech material

Dan-Jumbo, F. G.

January 2015

This study critically investigates the material and structural behaviour of Aer-Tech material. Aer- Tech material is composed of 10% by volume of foam mechanically entrapped in a plastic mortar. The research study showed that the density of the material mix controls all other properties such as fresh state properties, mechanical properties, functional properties and acoustic properties. Appreciably, the research had confirmed that Aer-Tech material despite being classified as a light weight material had given high compressive strength of about 33.91N/mm2. The compressive strength characteristics of Aer-Tech material make the material a potential cost effective construction material, comparable to conventional concrete. The material also showed through this study that it is a structural effective material with its singly reinforced beam giving ultimate moment of about 38.7KN. In addition, the Aer-Tech material is seen as a very good ductile material since, the singly reinforced beam in tension showed visible signs of diagonal vertical cracks long before impending rapture. Consequently, the SEM test and the neural network model predictions, carried out had showed how billions of closely tight air cells are evenly distributed within the Aer-Tech void system as well as the close prediction of NN model for compressive strength and density are same with the experimental results of compressive strength and density. The result shows that the Aer-Tech NN-model can simulate inputs data and predicts their corresponding output data.

624.1

COMPRESSIVE STRENGTH TO WEIGHT RATIO OPTIMIZATION OF COMPOSITE HONEYCOMB THROUGH ADDITION OF INTERNAL REINFORCEMENTS

Rudd, Jeffrey Roy

18 May 2006

No description available.

honeycomb

compressive strength

aircraft

sandwich panel

composite

Correlations Between Geometric and Material Properties of Vertebral Bodies and Their Compressive Strength

Stenekes, Jennifer

09 1900

Osteoporosis is a disease characterized by reduced bone strength leading to an increased fracture risk. Current diagnostic best practice involves measuring the bone mineral density (BMD) of a patient using absorptiometric imaging tools. This measurement is compared to a known value in order to compute fracture risk. This assessment of bone quality is based solely on the BMD, which has been shown to make up only a portion of the explanation of bone strength. The extent of BMD's contribution to bone strength is also extensively debated and widely varying in the scientific literature. This thesis work encompasses a preliminary investigation into factors in addition to density that contribute to bone strength. The geometric and material properties of 21 vertebral functional unit specimens were measured using dual energy absorptiometry (DXA), pQCT (peripheral quantitative computed tomography) and HCT (helical computed tomography) techniques. The strength of the functional units was assessed through mechanical testing under compressive loading conditions. These measurements were amalgamated into multiple linear regression models to characterize vertebral strength in terms of a few key variables. The model developed for failure load had a coefficient of determination of 0.725 and indicated that the volume of the vertebral body as well as the cross-sectional area of the cortical region were significant in the explanation of failure load. A model was also developed for stress at failure which indicated that the vertebral body height and cortex concavity were important parameters. The coefficient of determination for this model was 0.871. The goal of this study was to provide a foundation on which further investigation into the explanation of bone strength could be built. Ultimately, a better understanding of the parameters that affect bone strength will provide a basis for more accurate clinical tools for the diagnosis of osteoporosis. / Thesis / Master of Applied Science (MASc)

geometric

material properties

vertebral bodies

compressive strength

Comparação in vitro da resistência à compressão de raízes bovinas, tratadas endodoticamente e restauradas com pinos pré-fabricados estéticos e pino metálico fundido / Comparison, in vitro, of the resistance to compression of bovine roots endodontically treated and restored with prefabricated aesthetic posts and cast metallic post

Marques, Daniela Rossatto

06 August 2009

O objetivo deste estudo foi comparar, in vitro, a resistência à compressão de 30 raízes bovinas, tratadas endodonticamente, divididas em 3 grupos com 10 raízes cada e restauradas com pino metálico fundido (Grupo 1), pino pré-fabricado de fibra de vidro (Grupo 2) e pino anatômico (Grupo 3). Todas as raízes, com comprimentos de 15mm, foram preparadas internamente para que a espessura dentinária cervical ficasse com 1,5mm, com o objetivo de aumentar a largura do canal radicular. O espaço para o pino foi preparado com 10mm de comprimento. O diâmetro do pino de fibra de vidro escolhido foi o número 2, do sistema utilizado, para que houvesse um espaço entre ele e a estrutura radicular. O Grupo 1 recebeu pino e núcleo metálico fundido cimentado com cimento de fosfato de zinco. O Grupo 2 recebeu pino préfabricado de fibra de vidro cimentado com cimento resinoso Panavia F e núcleo de resina composta Z100. O Grupo 3 recebeu um pino de fibra de vidro modelado no interior do canal com resina composta Z100, cimentado com cimento resinoso Panavia F e núcleo de resina composta Z100. Em todas as raízes dos grupos, um coping metálico foi cimentado com cimento de fosfato de zinco. As raízes foram incluídas em resina acrílica quimicamente ativada, previamente inserida no interior de tubos de PVC e submetidas a testes de compressão em máquina de ensaio Kratos, modelo k2000MP. A carga de compressão foi aplicada a um ângulo de 135 graus ao longo eixo do dente, na face palatina, até que ocorresse uma trinca ou and analysed. The results revealed a statistical difference among groups. Group 1 presented a stronger resistance to fracture than the other groups, which did not present statistical difference. The roots restored with post and cast metallic core were the only ones that presented radicular fracture in the apical root third. The roots that were restored with fibre glass posts presented similar fractures, from the cervical root third to the middle root third. / The aim of this study was to compare, in vitro, the resistance to compression strength of 30bovine roots among canines and incisors endodontically treated, divided into 3 groups with 10 roots each and restored with cast metallic post (Group 1), prefabricated fibre glass post (Group 2), and anatomical post (Group 3). All the roots, with a length of 15mm, were internally prepared so as to their cervical dentin wall thickness would be of 1,5mm, in order to enhance the width of the radicular canal. The space for the post was prepared with 10mm. The diameter of the glass fibre post chosen was the number 2, of the adopted system, so as to create a space between the glass fibre post and the radicular structure. Group 1 received post and cast metallic core cemented with zinc phosphate cement. Group 2 received prefabricated fibre glass post cemented with resin cement Panavia F and composite resin core Z100. Group 3 received a fibre glass post modeled inside the canal with composite resin Z100, cemented with resin cement Panavia F and composite resin core Z100. In all groups, all the roots were cemented with a metallic coping with zinc phosphate cement. The roots were mounted inside pvc pipes with chemically activated acrylic resin, and submitted to compression tests in a universal testing machine Kratos, model k2000MP. The compressive load was done in an angle of 135o in relation to the long axes of the roots, until the occurrence of failure or fracture. The amount of load correspondent to the occurrence of failure or fracture was statistically registered and analysed. The results revealed a statistical difference among groups. Group 1 presented a stronger resistance to fracture than the other groups, which did not present statistical difference. The roots restored with post and cast metallic core were the only ones that presented radicular fracture in the apical root third. The roots that were restored with fibre glass posts presented similar fractures, from the cervical root third to the middle root third.

Cast core

Cast core

Compressive strength

Compressive strength

Fiber glass post

Fiber glass post

Post

Post

Comparação in vitro da resistência à compressão de raízes bovinas, tratadas endodoticamente e restauradas com pinos pré-fabricados estéticos e pino metálico fundido / Comparison, in vitro, of the resistance to compression of bovine roots endodontically treated and restored with prefabricated aesthetic posts and cast metallic post

Daniela Rossatto Marques

06 August 2009

O objetivo deste estudo foi comparar, in vitro, a resistência à compressão de 30 raízes bovinas, tratadas endodonticamente, divididas em 3 grupos com 10 raízes cada e restauradas com pino metálico fundido (Grupo 1), pino pré-fabricado de fibra de vidro (Grupo 2) e pino anatômico (Grupo 3). Todas as raízes, com comprimentos de 15mm, foram preparadas internamente para que a espessura dentinária cervical ficasse com 1,5mm, com o objetivo de aumentar a largura do canal radicular. O espaço para o pino foi preparado com 10mm de comprimento. O diâmetro do pino de fibra de vidro escolhido foi o número 2, do sistema utilizado, para que houvesse um espaço entre ele e a estrutura radicular. O Grupo 1 recebeu pino e núcleo metálico fundido cimentado com cimento de fosfato de zinco. O Grupo 2 recebeu pino préfabricado de fibra de vidro cimentado com cimento resinoso Panavia F e núcleo de resina composta Z100. O Grupo 3 recebeu um pino de fibra de vidro modelado no interior do canal com resina composta Z100, cimentado com cimento resinoso Panavia F e núcleo de resina composta Z100. Em todas as raízes dos grupos, um coping metálico foi cimentado com cimento de fosfato de zinco. As raízes foram incluídas em resina acrílica quimicamente ativada, previamente inserida no interior de tubos de PVC e submetidas a testes de compressão em máquina de ensaio Kratos, modelo k2000MP. A carga de compressão foi aplicada a um ângulo de 135 graus ao longo eixo do dente, na face palatina, até que ocorresse uma trinca ou and analysed. The results revealed a statistical difference among groups. Group 1 presented a stronger resistance to fracture than the other groups, which did not present statistical difference. The roots restored with post and cast metallic core were the only ones that presented radicular fracture in the apical root third. The roots that were restored with fibre glass posts presented similar fractures, from the cervical root third to the middle root third. / The aim of this study was to compare, in vitro, the resistance to compression strength of 30bovine roots among canines and incisors endodontically treated, divided into 3 groups with 10 roots each and restored with cast metallic post (Group 1), prefabricated fibre glass post (Group 2), and anatomical post (Group 3). All the roots, with a length of 15mm, were internally prepared so as to their cervical dentin wall thickness would be of 1,5mm, in order to enhance the width of the radicular canal. The space for the post was prepared with 10mm. The diameter of the glass fibre post chosen was the number 2, of the adopted system, so as to create a space between the glass fibre post and the radicular structure. Group 1 received post and cast metallic core cemented with zinc phosphate cement. Group 2 received prefabricated fibre glass post cemented with resin cement Panavia F and composite resin core Z100. Group 3 received a fibre glass post modeled inside the canal with composite resin Z100, cemented with resin cement Panavia F and composite resin core Z100. In all groups, all the roots were cemented with a metallic coping with zinc phosphate cement. The roots were mounted inside pvc pipes with chemically activated acrylic resin, and submitted to compression tests in a universal testing machine Kratos, model k2000MP. The compressive load was done in an angle of 135o in relation to the long axes of the roots, until the occurrence of failure or fracture. The amount of load correspondent to the occurrence of failure or fracture was statistically registered and analysed. The results revealed a statistical difference among groups. Group 1 presented a stronger resistance to fracture than the other groups, which did not present statistical difference. The roots restored with post and cast metallic core were the only ones that presented radicular fracture in the apical root third. The roots that were restored with fibre glass posts presented similar fractures, from the cervical root third to the middle root third.

Cast core

Compressive strength

Fiber glass post

Post

Cast core

Compressive strength

Fiber glass post

Post

Prosthetic socket in Titanium : An outer shell prosthetic socket for a lower-leg amputee manufactured in Ti6Al4V by Electron Beam Melting

Skoglund, Per

January 2015

The common manufacturing process of prosthetic sockets is usually a time- and labor consuming activity. This project’s purpose was to look for alternative manufacturing methods that could speed up the process and enhance the experience for the patient for example make some personal design or make the socket lighter. The main goal was to investigate which properties could be achieved by applying Electron Beam Melting as an alternative manufacturing process for prosthetic sockets by applying an earlier developed methodology. An investigation of earlier scientific works with the keywords (additive manufacturing, free form fabrication, orthopedic, prosthetic sockets and rapid manufacturing) was done as well as gathering knowledge how to operate and handle the machines necessary to carry out the project. An updated version of the methodology was developed where the design was verified using finite element analysis. With the updated version the methodology contained nine steps, which in short was as follows. First apprehend an inner socket from an orthopedic clinic with a pattern drawn up on it, the pattern is then transferred to a computer environment and manipulated to the desired shape and thickness. A compressive strength test, both virtual and experimental, was designed by a modified version of the ISO-10328 standard and the virtual design was verified before the socket was manufactured in the Electron Beam Melting machine. The manufactured socket was tested in the experimental set-up to verify the virtual one. The result was a personal designed socket of Ti6Al4V including the male pyramid for connection and a suspension system, which consisted of an inner socket and a one-way valve. It was concluded that Electron Beam Melting could be used as an alternative manufacturing process of prosthetic sockets.

Prosthetic sockets

ISO 10328

compressive strength

Electron Beam Melting

Orthopedic.

Estudo comparativo da resistência à compressão entre coroa de porcelana aluminizada infiltrada por vidro, coroa de porcelana feldspática e dentes permanentes hígidos / Comparative study of the compressive strength between aluminized porcelain crown infiltrated for glass and crown of feldspática porcelain and hígido permanent natural tooth

Nobrega, Airton Alves da

02 March 2010

Este estudo objetivou avaliar a resistência máxima às forças de compressão entre dois grupos diferentes de coroas em porcelanas livres de metal cimentadas sobre dentes naturais e um grupo formado por dentes caninos naturais hígidos e comparar os resultados obtidos com os de (Chaves, 2001), em seu trabalho de Doutorado onde também se avaliou a resistência máxima às forças de compressão entre coroa metalo cerâmica fraturada e reparada com resina composta com coroa metalo cerâmica integra e dente natural permanente. No presente estudo foram feitos vinte preparos para coroa total em dentes naturais caninos e divididos em dois grupos para confecção de dez coroas do sistema cerâmico aluminizado infiltrado por vidro (Angelus Brasil) e dez coroas em porcelana feldspática Noritake ® (Noritake Kisai CO. Cada grupo de coroas foi cimentado com cimento resinoso auto adesivo RelyX Unicem ® , (3M ESPE, Brasil) com o objetivo de aumentar a resistência da porcelana frente às forças de compressão. O teste de compressão foi realizado em uma máquina de ensaio universal KRATOS, através de uma carga aplicada axialmente no ápice da borda incisal de cada espécime até a fratura. Os dados foram submetidos à análise de Variância ANOVA (p < 0,05) e teste de Tukey para comparação entre grupos. Os resultados mostraram que não houve diferença estatisticamente significante entre a coroa de porcelana aluminizada infiltrada por vidro e o dente natural. A coroa de porcelana feldspática apresentou-se menos resistente com relação ao dente natural e coroa de porcelana aluminizada infiltrada por vidro. / The objective of this study is evaluate the maximum load resistance between two different groups of porcelain metal free crown seated on natural teeth and a group of natural canine and to compare the results gotten with the ones of (Chaves, 2001), in its work of Doutorado where also the ultimate strength to the forces of compression between metalo ceramic broken and repaired with composite resin with ceramic crown metaloceramic integrates and permanent natural tooth. In the present study twenty natural canine teeth were prepared for crown canines and divided in two groups: aluminized porcelain crown infiltrated for glass (Angelus Brazil) and feldspathic Noritake Kisai Noritake (co). Crowns were seated using self adhesive resin cement RelyX Unicem (3M ESPE, Brazil) Compression testing was performed by a universal testing machine (KRATOS) by a load applied axially in incisal of each specimen until occurs the fracture. The data were analyzed by one way analyses of variance (ANOVA) and Tukey test for comparison between groups. The results showed that it did not have statistical significant difference between aluminized porcelain crown infiltrated by glass and natural tooth. The feldspathic porcelain crown presented less resistant than natural tooth and aluminized porcelain crown infiltrated by glass. .

Ceramic crowns

Compressive strength

Coroas cerâmicas

Resistência à compressão

Influence of etching time and adhesive system on shear bond strength and compression resistance of the reinforced leucite ceramic / Influência do tempo de condicionamento ácido e do sistema adesivo na resistência de união e compressão da cerâmica reforçada por leucita

Libardi, Camila Cruz

11 March 2019

This in vitro study evaluated the bond and compression strength of cemented leucite reinforced glass ceramics in bovine tooth enamel, comparing three etching times with hydrofluoric acid 10% of the ceramic surface (20, 60 and 90 seconds) and two adhesive treatments (adhesive system + silane and universal adhesive system). For the bond strength test, 120 ceramic cylinders (2mm diameter x 2mm length; n=20) were etched and cemented (80m thick) in enamel with a dual resin cement, varying the adhesive treatment, obtaining the groups: UEXC20s, UEXC60s, UEXC90s, USBU20s, USBU60s, USBU90s. After 24 hours, the shear bond strength test was performed on a universal test machine (0.5mm/min, 50kgf). For the compression test, 30 ceramic plates (5x5mm with 1mm thick, n=5) were etched, received the same adhesive treatments and were cemented (80m) in enamel, obtaining the following groups: CEXC20s, CEXC60s, CEXC90s, CSBU20s, CSBU60s, CSBU90s. After 24 hours of cementation, the compression test (0.5mm/min, 500kgf) was performed. Statistical analysis was performed using two-way ANOVA and Tukey test (=.05). For the shear bond strength test significant differences were found among the adhesives (p<.05). For the etching times there were no differences (p=.059). However, there was a significant interaction between the adhesives and the etching times (p=.021). At 60 seconds, the Silane + ExciTE F DSC Adhesive presented the highest bond strength values (47.53±16.70Mpa). And at 20 seconds, the Universal adhesive presented the lowest bond strength values (27.72±10.76Mpa). For the compression test there were no significant differences between the adhesives (p=.571) and between the times (p=.154). The group that presented the highest values of compression force was the Universal adhesive at 60 seconds (1757.89±200.47N). The lowest values were also the Universal adhesive, but at 90 seconds (1213.30±546.34N). The study concluded that the silane associated with the ExciTE F DSC adhesive showed the highest bond strength values at the etching time of 60 seconds with 10% hydrofluoric acid, without compromising the compressive strength of the leucite reinforced ceramic. / Este estudo in vitro avaliou a resistência de união e compressão da cerâmica reforçada por cimentada em esmalte de dentes bovinos, comparando-se três tempos de condicionamento com ácido fluorídrico 10% da superfície cerâmica (20, 60 e 90 segundos) e dois tratamentos adesivos (sistema adesivo + silano e sistema adesivo universal). Para o teste de resistência de união (U), 120 cilindros cerâmicos (2mm diâmetro x 2mm comprimento; n=20) foram condicionados e cimentados (80 m de espessura) em esmalte, com cimento resinoso dual, variando-se o tratamento adesivo, obtendo-se os grupos: UEXC20s, UEXC60s, UEXC90s, USBU20s, USBU60s, USBU90s. Após 24h, foi realizado o teste de cisalhamento (0,5mm/min, 50kgf). Para o teste de compressão (C), 30 placas cerâmicas (5x5mm com 1mm de espessura; n=5) foram condicionadas, receberam os mesmos tratamentos adesivos e foram cimentadas (80m) em esmalte, obtendo-se os grupos: CEXC20s, CEXC60s, CEXC90s, CSBU20s, CSBU60s, CSBU90s. Após 24h da cimentação, foi realizado o teste de compressão (0,5mm/min, 500kgf). Foi realizada a análise estatística por meio de ANOVA dois critérios e teste de Tukey (P < 0,05). Para o teste de cisalhamento diferenças significativas foram encontradas entre os adesivos (p<0,05). Para os tempos de condicionamento não houve diferenças significativas (p=0,059). No entanto, houve interação significativa entre os adesivos e os tempos de condicionamento (p=0,021). No tempo de 60 segundos, o silano + adesivo ExciTE F DSC apresentou os maiores valores de resistência de união (47,53±16,70Mpa). E no tempo de 20 segundos, o adesivo Universal apresentou os menores valores de resistência de união (27,72±10,76Mpa). Para o teste de compressão não houve diferenças significativas entre os adesivos (p=0,571) e entre os tempos (p=0,154). O grupo que apresentou maiores valores de força de compressão foi o adesivo Universal no tempo de 60 segundos (1757,89±200,47N). Já os menores valores, foi também o adesivo Universal, mas no tempo de 90 segundos (1213,30±546,34N). Pode-se concluir que, o Silano associado ao adesivo ExciTE F DSC, mostrou os maiores valores de resistência de união no tempo de condicionamento de 60 segundos com ácido fluorídrico a 10%, sem comprometer a resistência a compressão da cerâmica reforçada por leucita.

Ceramics

Compressive strength

Hydrofluoric acid

Shear bond strength