Establishing a simple and reliable method of measuring ductility of fine metal wire

IF 3.4 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Mechanical and Materials Engineering Pub Date : 2018-03-02 DOI:10.1186/s40712-018-0091-0
Shiori Gondo, Shinsuke Suzuki, Motoo Asakawa, Kosuke Takemoto, Kenichi Tashima, Satoshi Kajino
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引用次数: 6

Abstract

Measurement of the ductility like elongation and reduction of area of the fine metal wire is important because of the progress for the weight reduction and miniaturization of various products. This study established a simple and reliable method of measuring the ductility of a fine metal wire.

Tensile and loading-unloading tests were performed with applying initial load to high-carbon steel wire (diameters of 0.06–0.296 mm) through capstan-type grippers for non-metal fiber. The wire fastened with the grippers was separated into three parts: the fastened part, the contact part, and the non-contact part. Scanning electron microscope (SEM) images were used to measure the wire radius under uniform deformation and agreed well with the radius calculated using the radius before tensile testing and uniform elongation.

The following conditions were clarified: non-slippage at the fastening between gripper and wire, a longitudinally uniform elongation, negligible cross-head bending, and the stroke calculation accuracy of elongated length by the initial load. Thus, uniform elongations were calculated as the ratio of the stroke at 0 N subtracted from the stroke at maximum tensile load to the additional initial chuck distance and the stroke at 0 N. The maximum error of uniform elongation was 0.21%. The reduction of area could be calculated by using the radius at uniform deformation portion, while the radius at the most constricted point was measured using SEM image of one fractured piece and uniform elongation. The measurement error of reduction of area was 1.9%.

This measurement method can be applied to other metal wires less than 1 mm in diameter.

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建立了一种简单可靠的测量细金属丝延展性的方法
随着各种产品的轻量化和小型化的发展,细金属丝的延展性,如伸长率和面积收缩率的测量变得越来越重要。本研究建立了一种简单可靠的测量细金属丝延展性的方法。通过非金属纤维绞盘式夹持器对直径为0.06 ~ 0.296 mm的高碳钢丝施加初始载荷,进行拉伸和加载-卸载试验。将夹钳固定的金属丝分为固定部分、接触部分和非接触部分三部分。采用扫描电镜(SEM)图像对均匀变形下的线材半径进行了测量,结果与拉伸试验前半径和均匀伸长率计算的线材半径吻合较好。明确了以下条件:夹具与钢丝紧固处无滑移,纵向伸长率均匀,十字头弯曲可忽略不计,以及初始载荷拉伸长度的行程计算精度。因此,均匀伸长率计算为0 N时的行程减去最大拉伸载荷时的行程与额外初始卡盘距离和0 N时的行程之比,均匀伸长率的最大误差为0.21%。采用均匀变形处的半径来计算收缩面积,采用单断片的扫描电镜图像和均匀伸长率来测量最大收缩点的半径。面积收缩率的测量误差为1.9%。这种测量方法也适用于直径小于1mm的其他金属导线。
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来源期刊
CiteScore
8.60
自引率
0.00%
发文量
1
审稿时长
13 weeks
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