size effects in the processing of thin metal sheets

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Size effects in thin sheet metal forming and its elastic–plastic

The present investigation addresses the influence of grain sizes on the processing of thin metal sheets. The problem was approached in two different ways: firstly, by reduction of the sheet thickness at a constant grain size (investigated in tension), and secondly, by changing .

Size effects in thin sheet metal forming

During the blanking process, a CCD camera records a set of successive images (Fig. .The change in the overall mechanical behavior of ultra-thin sheets due to a .

In this study, the hydraulic bulge test was used to investigate the size effects—the .This research is focused on the modeling of the deformation behavior of thin austenitic stainless steel sheets to consider size effect in microscale. First, the material with two different . Expand The problem was approached in two different ways: firstly, by reduction of the sheet thickness at a constant grain size (investigated in tension), and secondly, by changing .

The change in the overall mechanical behavior of ultra-thin sheets due to a reduction of the dimensions is governed by so-called size effects. In this paper, the attention .

Size effects in the processing of thin metal sheets. In Geiger M, editor, Sheet metal 1999 : proceedings of the 7th international conference held at the Friedrich-Alexander University, . This research is focused on the modeling of the deformation behavior of thin austenitic stainless steel sheets to consider size effect in microscale. First, the material with .

Size effects in the processing of thin metals

Size effects in the processing of thin metal sheets

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In this paper, the effect of thickness and grain size on the flow stress of very thin brass sheets has been investigated by conducting microstructural studies and uni axial tensile .

Size effects in the processing of thin metal sheets. Journal of Materials Processing Technology, 115(1), 44–48. doi:10.1016/s0924-0136(01)00770-1

In this study, the hydraulic bulge test was used to investigate the size effects—the grain/specimen size effect (N=t 0 /d) and the feature/specimen size effect (M=D c /t 0), on the . This research is focused on the modeling of the deformation behavior of thin austenitic stainless steel sheets to consider size effect in microscale.

Journal of Materials Processing Technology 174 (2006) 233–238 Size effects from grain statistics in ultra-thin metal sheets T. Fülöp a,b , W.A.M. Brekelmans b , M.G.D. Geers b∗ b a Netherlands Institute for Metals Research (NIMR), . Size effects make most know-how of traditional macro-forming not suitable for the micro-forming process. Material behaviour greatly varies in micro-sheet forming process with different sheet .

The aim of this study is to develop a micro-V-bending testing system and to investigate the grain size effect of 99.5% Ferrum sheet plate in the micro-V-bending process. In this study, two experiments have been conducted.Semantic Scholar extracted view of "Grain and specimen size effects in processing metal sheets" by Lv Raulea et al. . Size Effects on Mechanical Properties of Copper Thin Sheet in Uniaxial Tensile Tests. Feng Gong B. Guo. Materials Science, Engineering. 2014;Semantic Scholar extracted view of "Size effects in the processing of thin metal sheets" by Lv Raulea et al. Skip to search form Skip to main content Skip to . , title={Size effects in the processing of thin metal sheets}, author={Lv Raulea and Am Ad Goijaerts and Leon Le Govaert and Fpt Frank Baaijens}, journal={Ultrasound in Medicine and .

DOI: 10.1016/J.JMATPROTEC.2006.01.006 Corpus ID: 136747247; Size effects from grain statistics in ultra-thin metal sheets @article{Flp2006SizeEF, title={Size effects from grain statistics in ultra-thin metal sheets}, author={Tibor F{\"u}l{\"o}p and W. A. M. Brekelmans and Mgd Marc Geers}, journal={Journal of Materials Processing Technology}, year={2006}, . Ultra-thin sheets of metal are one of the main processing objects, and ultra-thin metal plates have recently gained increasing attention. In regard to this, the formability of ultra-thin ferritic stainless steel plates used for proton exchange membrane fuel . Request PDF | Size effects from grain statistics in ultra-thin metal sheets | This paper deals with the simulation of the mechanical response of ultra-thin ductile metal sheets. The basic theory .

Raulea LV, Goijaerts AM, Govaert LE, Baaijens FPT (2001) Size effects in the processing of thin metal sheets. Journal of Materials Processing Technology 115:44–48. Article Google Scholar Engel U, Meßner A, Geiger M (1996) Advanced concept für the FE-simulation of metal forming processes for the production of microparts.Size effects in the processing of thin metal sheets. In M. Geiger (Ed.), Sheet metal 1999 : proceedings of the 7th international conference held at the Friedrich-Alexander University, Erlangen-Nurenberg, Germany, 27-28 September 1999 (pp. 521-528). Therefore, for thin metal sheets with a constant grain size but varying thickness, the size effects on the mechanical properties can be significant. When the scale of materials is below a certain limit, . Size effects in the processing of thin metal sheets. J. Mater. Process. Technol., 115 (2001), pp. 44-48.

In order to study the grain size effect, thin stainless steel sheets with initial thickness of 51 . Size effects in the processing of thin metals. Journal of Materials Processing Technology, 115 (2001), pp. 44-48. View PDF View article View in Scopus Google Scholar [14]

Size effect and forming-limit strain prediction for microscale sheet metal forming of stainless steel 304 C-H Chen , R-S Lee , and J-T Gau View all authors and affiliations Volume 45 , Issue 4

Chang et al. [17] described the effect of small thicknesses on the formability of carbon steel sheets. At the same size of the crystalline grain, thin sheets have a smaller number of grains along . This paper deals with the simulation of the mechanical response of ultra-thin ductile metal sheets. The basic theory used for the analysis is rate-dependent single crystal plasticity. . Size effects in the processing of thin metal sheets. J. Mater. Proc. Technol. (2001) There are more references available in the full text version of this .

316L stainless steel is often used as the metal bipolar plate, which is a key component of fuel cells. For the thinner metal bipolar plates, the mechanical properties may be different for different specimen sizes. In this . The corrugated sheet is a crucial component of the metal honeycomb structure. This study investigates the size effects on the deformation behavior of ultra-thin-walled corrugated sheets in the roll bending process using experimental and simulation methods. A precision roll bending device was developed, which incorporated a specifically designed eccentric fine . Journal of Materials Processing Technology, Vol 45, pp371-376. Michel, J. F. & P. Picart (2003) Size effects on the constitutive behaviour for brass in sheet metal forming. Journal of Materials Processing Technology, Vol 141, pp439-446 Raulea, L. V., L.E. Govaert, et al. (1999). "Grain an specimen size effects in processing metal sheets."

The corrugated sheet is a crucial component of the metal honeycomb structure. This study investigates the size effects on the deformation behavior of ultra-thin-walled corrugated sheets in the roll bending process using experimental and simulation methods. A precision roll bending device was developed, which incorporated a specifically designed eccentric fine-tuning module . The aims of this study were to investigate the effect of initial grain size on mechanical properties of thin stainless steel sheet (SUS304) with an initial thickness of 1 mm underwent varying . Therefore t/d has been regarded as one of the most important parameters to characterize the size effect of sheet metal in the micro/meso scale forming process. The influence of t/d on the springback of specimens is . Size effects in the processing of thin metal sheets. J. Mater. Process. Tech., 115 (2001), pp. 44-48. View PDF View article .The ability for predicting the springback on sheet metal bending processes is identified as an important feature of the ability for predicting the final geometry of sheet metal parts. The grain size effect makes the difficult on application of traditional design method in processing. As through tool and processing design, to understand the effects of grain size effects is an important and .

This research is focused on the modeling of the deformation behavior of thin austenitic stainless steel sheets to consider size effect in microscale. First, the material with two different . Expand. 1. Highly Influenced. . Size effects in the processing of thin metal sheets. Lv Raulea Am Ad Goijaerts L. Govaert Fpt Frank Baaijens. Materials . Wang et al. [19] also used a modified GTN model that considers shear induced damage to analyze the tearing failure of ultra-thin sheet-metal, including the size effect in blanking process. In . According to Kim et al. [8], the size effects can be divided as the feature/specimen size effect and the grain size effect.In general, the feature/specimen size can be referred to as the thickness of thin sheet metal in micro-forming. For size effects I, the grain size effect follows the Hall–Petch equation when the thickness is kept constant upon minimization [9], and the flow . Size effects in the minimization make most know-how of traditional macro-forming not suitable for the micro-forming process. Material behaviours greatly vary in micro-forming process with .

A bending concept, which enables the investigation of the two contrary size effects originating from the share of surface grains and the strain gradient via scaled experiments, is introduced and an approach to implement strain gradient dependent material behaviour in the analytical description of bending processes is presented. Ongoing development in the .

Size effects from grain statistics in ultra

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size effects in the processing of thin metal sheets|Size effects in thin sheet metal forming

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