Influence of technological parameters on coating speed of Pb-GF composite wire

Yao Hong Geng; Wen Bin Fang; Xiang Yun Jiang; Hong Fei Sun; Er De Wang

Influence of technological parameters on coating speed of Pb-GF composite wire

Yao Hong Geng^*, Wen Bin Fang, Xiang Yun Jiang, Hong Fei Sun, Er De Wang

^*此作品的通讯作者

设计与艺术学院

Harbin Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

摘要

The technological parameters have important effects on molding process of lead-clad glass fiber composite wire. If the extrusion force, temperature and gap size are too large or small, a dead zone will form in the front of the inlet mold orifice, and the continuous clad extrusion and coating speed will be influenced. Under the condition of equal flow, the maximum and minimum theoretical values of the extrusion force, temperature and gap size are studied. The results show that the gap size is a key parameter that affects the continuous clad extrusion and coating speed when the extrusion force and temperature are kept constant. The maximum value (H_max) of gap size is 0. 50 mm and the minimum one (H_min) is 0. 12 mm. At a gap size of 0. 17 mm or 0. 29 mm, the maximum of metal extrusion per unit time and optimal coating speed can be obtained when the extrusion temperature is 300 C and the extrusion force is 450 kN.

源语言	英语
页（从-至）	204-208
页数	5
期刊	Transactions of Nonferrous Metals Society of China (English Edition)
卷	15
期	SPEC. ISS. 2
出版状态	已出版 - 4月 2005

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Geng, Y. H., Fang, W. B., Jiang, X. Y., Sun, H. F., & Wang, E. D. (2005). Influence of technological parameters on coating speed of Pb-GF composite wire. Transactions of Nonferrous Metals Society of China (English Edition), 15(SPEC. ISS. 2), 204-208.

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title = "Influence of technological parameters on coating speed of Pb-GF composite wire",

abstract = "The technological parameters have important effects on molding process of lead-clad glass fiber composite wire. If the extrusion force, temperature and gap size are too large or small, a dead zone will form in the front of the inlet mold orifice, and the continuous clad extrusion and coating speed will be influenced. Under the condition of equal flow, the maximum and minimum theoretical values of the extrusion force, temperature and gap size are studied. The results show that the gap size is a key parameter that affects the continuous clad extrusion and coating speed when the extrusion force and temperature are kept constant. The maximum value (Hmax) of gap size is 0. 50 mm and the minimum one (Hmin) is 0. 12 mm. At a gap size of 0. 17 mm or 0. 29 mm, the maximum of metal extrusion per unit time and optimal coating speed can be obtained when the extrusion temperature is 300 C and the extrusion force is 450 kN.",

keywords = "Composite wire, Extrusion, Glass fiber, Lead, Technological parameters",

author = "Geng, {Yao Hong} and Fang, {Wen Bin} and Jiang, {Xiang Yun} and Sun, {Hong Fei} and Wang, {Er De}",

year = "2005",

month = apr,

language = "English",

volume = "15",

pages = "204--208",

journal = "Transactions of Nonferrous Metals Society of China (English Edition)",

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number = "SPEC. ISS. 2",

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TY - JOUR

T1 - Influence of technological parameters on coating speed of Pb-GF composite wire

AU - Geng, Yao Hong

AU - Fang, Wen Bin

AU - Jiang, Xiang Yun

AU - Sun, Hong Fei

AU - Wang, Er De

PY - 2005/4

Y1 - 2005/4

N2 - The technological parameters have important effects on molding process of lead-clad glass fiber composite wire. If the extrusion force, temperature and gap size are too large or small, a dead zone will form in the front of the inlet mold orifice, and the continuous clad extrusion and coating speed will be influenced. Under the condition of equal flow, the maximum and minimum theoretical values of the extrusion force, temperature and gap size are studied. The results show that the gap size is a key parameter that affects the continuous clad extrusion and coating speed when the extrusion force and temperature are kept constant. The maximum value (Hmax) of gap size is 0. 50 mm and the minimum one (Hmin) is 0. 12 mm. At a gap size of 0. 17 mm or 0. 29 mm, the maximum of metal extrusion per unit time and optimal coating speed can be obtained when the extrusion temperature is 300 C and the extrusion force is 450 kN.

AB - The technological parameters have important effects on molding process of lead-clad glass fiber composite wire. If the extrusion force, temperature and gap size are too large or small, a dead zone will form in the front of the inlet mold orifice, and the continuous clad extrusion and coating speed will be influenced. Under the condition of equal flow, the maximum and minimum theoretical values of the extrusion force, temperature and gap size are studied. The results show that the gap size is a key parameter that affects the continuous clad extrusion and coating speed when the extrusion force and temperature are kept constant. The maximum value (Hmax) of gap size is 0. 50 mm and the minimum one (Hmin) is 0. 12 mm. At a gap size of 0. 17 mm or 0. 29 mm, the maximum of metal extrusion per unit time and optimal coating speed can be obtained when the extrusion temperature is 300 C and the extrusion force is 450 kN.

KW - Composite wire

KW - Extrusion

KW - Glass fiber

KW - Lead

KW - Technological parameters

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M3 - Article

AN - SCOPUS:77955398648

SN - 1003-6326

VL - 15

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EP - 208

JO - Transactions of Nonferrous Metals Society of China (English Edition)

JF - Transactions of Nonferrous Metals Society of China (English Edition)

IS - SPEC. ISS. 2

ER -

Influence of technological parameters on coating speed of Pb-GF composite wire

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