Avaliação numérica da influência da geometria do ferramental na geração de tensões residuais durante o processo de trefilação de barras de aço

Coser, Tiago Brun; Souza, Tomaz Fantin de; Rocha, Alexandre da Silva

doi:10.1590/s1517-707620150004.0089

Cited by 4 publications

(5 citation statements)

References 7 publications

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“…The Variations in radial stress affect the mechanical properties, and subsequently, the quality of the drawn product, which might lead to disqualification. Such defects include shape distortion, crack propagation, inferior surface finish quality, and reduced dimensional accuracy [13][14][15][16][17]. For instance, it has been demonstrated in [18,19] that the radial stress due to specific die bearing contour geometry has a significant impact on the degree of residual stress.…”

Section: Methodsmentioning

confidence: 99%

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Influences of Different Die Bearing Geometries on the Wire-Drawing Process

Martínez

Santos

Kabayama

et al. 2019

Metals

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Metalworking is an essential process for the manufacture of machinery and equipment components. The design of the die geometry is an essential aspect of metalworking, and directly affects the resultant product’s quality and cost. As a matter of fact, a comprehensive understanding of the die bearing geometry plays a vital role in the die design process. For the specific case of wire drawing, however, few efforts have been dedicated to the study of the geometry of the bearing zone. In this regard, the present paper involves an attempt to investigate the effects of different geometries of the die bearing. For different forms of reduction as well as bearing zones, measurements are carried out for the wire-drawing process. Subsequently, by extracting the friction coefficients from the electrolytic tough pitch copper wire in cold-drawn essays, the numerical simulations are also implemented. We present the results on both the superficial and center radial tensions obtained by finite element methods. It is observed that the reduction of the friction coefficient leads to an increase in radial stress, while for a given friction coefficient, the substitution of the C-type die by the R-type one results in a decrease in the superficial radial stress of up to 93.27%, but an increase at the center of the material. Moreover, the die angle is found to play a less significant role in the resultant center radial stress, but it significantly affects the superficial radial stress. Lastly, R-type dies result in smaller superficial radial stress, with a change of up to 34.48%, but a slightly larger center radial stress up to 6.55% for different die angles. The implications of the present findings are discussed.

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Section: Methodsmentioning

confidence: 99%

“…Other studies by Nakagiri [8], Coser [17], and Godfrey [23] focused on the effects of the wire/die contact length to diameter ratio (L/Di). Here the length of L is defined as the sum of the frustum slant length at 2β die angle and the length of the bearing zone Hc indicated in Figure 1.…”

Section: Introductionmentioning

confidence: 99%

Influences of Different Die Bearing Geometries on the Wire-Drawing Process

Martínez

Santos

Kabayama

et al. 2019

Metals

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“…Obteve-se um valor médio por ponto medido e seu respectivo desvio padrão. Para objetos trefilados, a direção das tensões residuais de maior importância são as axiais [3,10], portanto, somente tensões axiais serão apresentadas. Os resultados obtidos em termos de tensões residuais foram agrupados segundo a seguinte classificação:…”

Section: Figuraunclassified

“…Isto pode ser atingido através da filosofia da "engenharia de distorção" [1] que visa entender o processo de fabricação como um todo, identificando possíveis portadores de potencial de distorção, atuando sobre eles e, consequentemente, reduzindo distorções durante todas as etapas do processo bem como no produto final [2,3]. Existem diversos potenciais de distorção identificados [4], mas, dentre eles, os mais estudados devido aos seus efeitos gerais no material são geometria, histórico mecânico, composição química, microestrutura e tensões residuais.…”

Section: Introductionunclassified

Os efeitos do processo de corte cisalhante em barras oriundas do processo de trefilação combinada

2017

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RESUMO No cenário produtivo atual, toma-se cada vez mais importante avaliar o processo de fabricação como um todo e levar em conta que cada etapa em uma rota de fabricação terá alguma influência no produto final para assim minimizar perdas na produção. O presente trabalho visou caracterizar os efeitos do método corte cisalhante (tesoura) realizado durante o processo de trefilação combinada de barras de aço AISI 1045. Um entendimento mais aprofundado dos efeitos provocados pelo corte no material recebido do processo permitirá a avaliação da necessidade ou não de se remover a ponta cortada por cisalhamento para a fabricação de um billet para o forjamento. Para isso, realizou-se uma caracterização microestrutural, de microdureza e tensões residuais com o uso de difração de raios-X. Os resultados indicam que as influências vão muito além das deformações de grãos observadas através de metalografia, apresentando efeitos significativos em termos de tensões residuais superficiais até uma distância de aproximadamente 30 mm em relação à face cortada.

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“…Vega, et al [26] studied the influence of the process parameters on the copper wire drawing and noticed that an increase in effective strain makes the deformation more inhomogeneous over the cross-section, especially near the die wire interface, thus leading to severe wire damage. Coser, et al [245] investigated the influence of the residual stress distribution in steel rods by changing the bearing geometry and length through numerical analysis and concluded that differing the bearing length (BL) in the ratio of 0.4D to 0.6D (where D is the diameter of the wire drawn) produced less residual stress on the wire surface. The research was analogous to the work of Overstam [246] who altered between two bearing geometry namely circular and tapered and concluded that tapered profile bearing has a better effect in reducing the inhomogeneous deformation in the wire.…”

Section: Introductionmentioning

confidence: 99%

Co-Cr-Ni-Mo wires for medical applications : processing, mechanical, microstructure and fatigue characterization

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Avaliação numérica da influência da geometria do ferramental na geração de tensões residuais durante o processo de trefilação de barras de aço

Cited by 4 publications

References 7 publications

Influences of Different Die Bearing Geometries on the Wire-Drawing Process

Influences of Different Die Bearing Geometries on the Wire-Drawing Process

Os efeitos do processo de corte cisalhante em barras oriundas do processo de trefilação combinada

Co-Cr-Ni-Mo wires for medical applications : processing, mechanical, microstructure and fatigue characterization

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