Estudo comparativo das propriedades mecânicas de aço AISI 5160 submetidos à Têmpera Convencional e Têmpera Intensiva / Comparative study of the mechanical properties of AISI 5160 submitted to Conventional Quenching and Intensive Quenching

Luigi Leonardo Mazzucco Albano

18 February 2013

Durante os anos desde 1910, diversos trabalhos científicos foram desenvolvidos, tornando o processo de têmpera bem estabelecido nas plantas industriais. Atualmente, existem diferentes tipos de têmpera e mais técnicas estão sendo desenvolvidas para aumentar as propriedades de componentes de aço. Um deles é o de têmpera intensiva, que pode ser considerado como um processo relativamente novo. O método de têmpera intensiva visa otimizar o processo produtivo, ao mesmo tempo em que diminui consideravelmente o custo da etapa de tratamento térmico. Além disso, atualmente o uso de soluções ambientalmente amigáveis torna este processo bem menos agressivo ao planeta. Neste trabalho realizou-se a têmpera intensiva e a têmpera convencional em corpos de prova preparados para teste de tenacidade à fratura. Trata-se, porém, de um método alternativo de teste, relativamente recente, no qual são considerados parâmetros de fratura dúctil e fratura frágil para o cálculo de K1C. Estes ensaios de tenacidade foram feitos a partir de ensaios de tração em corpos de prova com pré-trinca. Embora as tensões residuais compressivas tenham atingido os valores mais altos na têmpera intensiva, os resultados de tenacidade à fratura foram mais positivos para as amostras com têmpera convencional. A junção e aplicação desses métodos pode trazer um novo parâmetro de fabricação e análise de materiais metálicos, em especial aços-mola, que foi o objeto de estudo deste trabalho. / Since the beginning of 20th Century, several scientific works were developed and conventional quenching process became well established into the industrial area. Nowadays new quenching process were introduced increasing mechanical properties of the heat treated components. Intensive quenching is one of these process which optimize the heat treatment process using also quenchants considered nontoxic to the environment. In this work it was made comparative studies in the SAE 5160 samples which were submitted to conventional quenching and intensive quenching. Toughness fracture were evaluated using an alternative test where are analyzed ductile fracture and brittle fracture parameters to calculate KIC. In this method tensile test are performed in pre-cracked samples. Residual stresses were also measured and although intensive quenching promoted highest compressive stresses in the surface, KIC obtained in such samples presented low values compared with conventional quenching. The presented method of analysis will bring a new parameter for production and analysis for metallic materials, particularly spring steel, where compressive stress and toughness are important as properties for suspension components.

Têmpera

Têmpera intensiva

Tenacidade à fratura

Fracture toughness

Intensive quenching

Quenching

Thermoneutral Housing Did Not Impact the Combined Effects of External Loading and Raloxifene on Bone Morphology and Mechanical Properties in Growing Female Mice

Carli Anne Tastad (9656060)

07 January 2021

Raloxifene is an FDA-approved selective estrogen receptor modulator (SERM) that improves tissue quality by binding to collagen and increasing the bound water content in the bone matrix in a cell-independent manner. In this thesis, active tissue formation was induced by non-invasive external tibial loading in female mice and combined with raloxifene treatment to assess their combined effect on bone morphology and mechanical properties. Thermoregulation is an important factor that could have physiological consequences on research outcomes, and was introduced as an additional experimental factor in this study. We hypothesized that by removing the mild cold stress under which normal lab animals are housed, a metabolic boost would allow for further architectural and mechanical improvements as a result of the combination of tibial loading and raloxifene treatment. Ten week old female C57BL/6J mice were treated with raloxifene, underwent tibial loading to a strain level of 2050με and were housed in thermoneutral conditions (32°C) for 6 weeks. We investigated bone morphology through microcomputed tomography (μCT) and mechanical properties via four-point bending and fracture toughness testing. Results indicated a combined improvement by external loading and raloxifene on geometry, particularly in the cancellous region of the bone, and also in bone mechanics leading to greater improvements than either treatment individually. Temperature did not have a robust impact on either bone architecture or mechanical integrity.

Bone

microCT

fracture toughness

adaptation

Krátkovláknové kompozity pro stomatologické aplikace / Short fiber reinforced composites in dental applications

Matysová, Dorota

January 2014

This diploma thesis deals with short-fibre reinforced composites for dental applications. Particulate barium filler, short polyacrylonitryle fibres or short glass fibres were added to the dimethacrylate matrix to study their effect on the composite material properties. Methods used for this study were thermogravimetric analysis (TGA), differential compensation photocalorimetry (DPC), dynamic mechanical analysis (DMA), three point bending, scanning electron microscopy (SEM) and confocal laser scanning microscopy (CLSM). The matrix curing was defined by heat of polymerisation, degree of conversion and polymerisation rate. Composite materials were characterized by the glass transition temperature, storage moduli at 35 °C and 100 °C, elastic modulus, strength, the critical value of stress intensity factor and the critical value of energy release rate. Fracture surface investigation is also included in this thesis.

Effect of microstructure on toughness characteristics of cutting materials

sheikh, saad

January 2012

Improved fracture toughness at a given strength level is one of the most important properties of cemented carbides. Large number of different testing methods (both theoretical and experimental) has been proposed to determine fracture toughness of cemented carbides and it has been always a topic of interest to relate fracture toughness with mechanical properties. In this report method such as Palmqvist toughness, chevron notch, toughness determination through Hertzian indentation and different theoretical toughness models have been utilized in order to investigate fracture characteristics and is also compared with other mechanical properties by varying cobalt content and grain size. This study has provided some new and interesting results as well as new information about hardmetals in different loading conditions.

Fracture toughness

Microstructural characterization

Composite Science and Engineering

Kompositmaterial och -teknik

Thermoneutral Housing Did Not Impact the Combined Effects of External Loading and Raloxifene on Bone Morphology and Mechanical Properties in Growing Female Mice

Tastad, Carli A.

12 1900

Indiana University-Purdue University Indianapolis (IUPUI) / Raloxifene is an FDA-approved selective estrogen receptor modulator (SERM) that improves tissue quality by binding to collagen and increasing the bound water content in the bone matrix in a cell-independent manner. In this thesis, active tissue formation was induced by non-invasive external tibial loading in female mice and combined with raloxifene treatment to assess their combined effect on bone morphology and mechanical properties. Thermoregulation is an important factor that could have physiological consequences on research outcomes, and was introduced as an additional experimental factor in this study. We hypothesized that by removing the mild cold stress under which normal lab animals are housed, a metabolic boost would allow for further architectural and mechanical improvements as a result of the combination of tibial loading and raloxifene treatment. Ten week old female C57BL/6J mice were treated with raloxifene, underwent tibial loading to a strain level of 2050µε and were housed in thermoneutral conditions (32°C) for 6 weeks. We investigated bone morphology through microcomputed tomography (µCT) and mechanical properties via four-point bending and fracture toughness testing. Results indicated a combined improvement by external loading and raloxifene on geometry, particularly in the cancellous region of the bone, and also in bone mechanics leading to greater improvements than either treatment individually. Temperature did not have a robust impact on either bone architecture or mechanical integrity.

axial compression

computed tomography

fracture toughness

SERM

adaptation

Tensile Strength of Dovetail Joints in Furniture

Konukcu, Arif Caglar

10 August 2018

Dovetail joints are commonly seen in a furniture frame construction because of their unique configuration and strength. The tensile strength of dovetail joints was experimentally and analytically investigated using fracture mechanics method in this study. Experimental results of the investigation of effects of geometry factors on the tensile strength of dovetail joints in southern yellow pine and red oak indicated that the tensile strength of red oak joints was about 2 times higher than the one of southern yellow pine joints. Statistical analysis results indicated that the tail angle and tenon length of dovetail joints had significant influences on their tensile strength, and the tenon width was not a significant factor on the joint tensile strength. The fracture behaviors of southern yellow pine and red oak materials were investigated in the radial-longitudinal crack propagation system using a compact tension test method. Effects of wood specific gravity on fracture toughness for two wood species were studied in terms of their three growth ring combinations; earlywood, earlywood and latewood interface, and latewood. Regression analysis results indicated that the fracture toughness of two evaluated wood species can be predicted based on their specific gravity values. Statistical analyses indicated that the latewood yielded the significantly higher fracture toughness value, followed by earlywood and latewood interface, then earlywood for both wood species. Proposed prediction equations for tensile strengths of dovetail joints based on fracture toughness values of wooden materials used for frame construction were validated experimentally.

growth ring

specific gravity

fracture toughness

tensile strength

dovetail joint

Impact of Mental Toughness Training on Psychological and Physical Predictors of Illness and Injury

Visram, Aisha

01 January 2012

Intense training for prolonged periods of time without adequate recovery can result in psychological problems and increased susceptibility to illness and injury in collegiate athletes. The Cognitive-Affective Model of Athletic Burnout (Smith, 1986), a framework for understanding the relationships among stressors, identifies cognitive appraisal as the mediating factor between negative or positive health outcomes, and therefore could be a target of interventions to reduce overtraining, burnout, injury, and illness. Mental toughness, the ability to perform at one’s best regardless of the circumstances, is a modifiable psychological construct that may influence cognitive appraisal. Altering an athlete’s interpretation of stressful situations through mental toughness training could change how the athlete evaluates his/her ability to handle the stressors of training and competition, and may attenuate negative psychological outcomes associated with increased illness and injury risk. The purpose of this study was to establish cross-sectional relationships among mental toughness and psychological and physical variables, implement an online Mental Toughness Training Program, and evaluate the impact of the training on changes in mental toughness, mood disturbances, athlete burnout, coping ability, depression, physical symptoms, and perceived stress before, during, and after the intervention program. Female student athletes from a private Division III institution on the varsity Field Hockey (N=19) and Soccer (N=28) teams participated in this study. All participants (N=47) provided cross-sectional data demonstrating that mental toughness was significantly correlated with total mood disturbance (ρ=-0.51, p≤.01), depression (ρ=-0.49, p≤.01), perceived stress (ρ=-0.53, p≤.01), and athlete burnout (ρ=-.46, p≤.01). Thirty-seven athletes (N= 16 Field Hockey, N=21 Soccer) were randomly assigned by team to the six-week Mental Toughness Training Program, involving psychological skills training, or control condition, and had longitudinal data available for analysis. Mental toughness levels were significantly increased in the intervention group from pre- to post-training. The training led to significant attenuations in levels of athlete burnout, depression, physical symptoms, and perceived stress. These findings show that mental toughness is associated with psychological variables, and mental toughness training had a positive impact on variables that have been associated with increased risk of injury in collegiate athletes.

mental toughness

intervention

athletes

mood states

Kinesiology

Psychology

Fracture Toughness of a Hyperelastic Material During Surgical Cutting

Smith, Kevin

01 December 2013

Despite being one of the most important organs of vertebrates, the material properties of skin are also one of the most poorly understood. In the field of designing medical devices and surgical tools there are significant advantages to having a model that describes the interaction of forces between a blade tip and skin during surgical cutting. In general, skin can best be described as a composite layer consisting of a viscoelastic dermis with interwoven collagen and elastin fibers beneath a superficial epidermis. The purpose of this research is to study the fracture toughness of porcine skin during practical cutting applications, the behavior of skin under quasistatic loads, and viscoelastic behavior of skin during stress relaxation. To fully describe the mechanics of skin in this model tensile test are conducted to determine the material properties of skin. The fracture toughness of the material is calculated by measuring the energy release rate of the material during required during cutting with Number 11 scalpel blade with a tip radius of 12 [micro]m . These results are then compared to a finite element analysis with a debonding interface and a Mooney-Rivlin hyperelastic material model with viscoelastic relaxation in an effort to predict the loads required by tools during surgical applications. The main outcome of this research is the development of a testing protocol and material model of skin that can be used in finite element simulations of uniaxial loads and surgical cutting.

Mechanical Engineering

Small Scale Fracture Toughness Testing

Lereim, Jon

04 1900

<p> Small scale tests were utilized in order to obtain characteristic fracture mechanics parameters such as the crack opening displacement (C.O.D.) and the J-integral. Two main types of steels were used (H.S.L.A. and AISI 4340) in obtaining data over a wide range of yield strengths and ductilities. Tests were done to see the effect of both notch geometry and sample geometry·in one of the H.S.L.A. steels, and it is verified that the minimum value of C.O.D., at crack initiation in plane strain, is independent of the geometry and plastic zone size. Further the development of a simple single specimen J-integral test method is done during this work. In terms of the data obtained both the minimum C.O.D.i values and the Jlc values increase with increasing ductility of the materials tested. In the attempt to relate the magnitude of the fracture toughness with microstructural parameters and the limiting processes occuring at the crack tip prior to fracture, the concept of the process zone is discussed. For this study a simple plain carbon steel spheroidized with different carbon contents was examined in addition to the H.S.L.A. and 4340 steels. From the data obtained the minimum C.O.D.i at crack initiation was found to be approximately equal to the product of the materials plain strain ductility and a characteristic distance scaling with the spacing between large non metallic inclusions or the spacing between the bands of the sulphides. </p> / Thesis / Master of Engineering (MEngr)

fracture toughness

fracture mechanics

notch geometry

ductility

microstructural parameter

The Effects of Additives on the Fracture Toughness of Magdol

Roy, Robert D.

09 August 2016

<p> The effects of small additions of Fe2O3, GeO2, Ta2O5, V2O5, TiO2, and SiO2 on the microstructure and fracture toughness of magnesia enriched doloma were investigated. Effects of up to 5% additive oxides on grain growth and sintering in MgO and CaO were determined in preliminary tests. One percent additions were made to 40%, 60% and 80% MgO dolomas and the fracture toughness at temperatures up to 1500°C determined using the single edge notched beam specimen. Fracture surfaces were studied on the scanning electron microscope to determine fracture mode. Silica and Ta2O5 doped material showed high toughness at 1500°C possibly due to microcracks, while TiO2 resulted in formation of a viscous grain boundary film producing high toughness at 1300°C followed by a rapid decline by 1500°C. In undoped samples increases in MgO resulted in the appearance of a toughness peak near 1300°C. This was attributed to grain boundary segregation of impurities.</p> / Thesis / Master of Engineering (MEngr)