期刊文献+

Optimal forming zone length in continuous extrusion of lead-clad glass fiber wire

Optimal forming zone length in continuous extrusion of lead-clad glass fiber wire
下载PDF
导出
摘要 Forming zone length (FZL) is a key parameter of the lead-clad glass fiber extrusion dies, and an unsuitable FZL will lead to breakage of the glass fiber and/or unacceptable geometric and metallographic qualities of the product. The optimal FZL was determined theoretically based on a mathematical model established by upper bound method, and accepted Pb-GF wire was actually obtained experimentally by symmetric side-feed extrusion at a much lower temperature than that published before. The wire has features of fine grains, uniform diameter, good coaxiality and satisfied mechanical property. The results and conclusions obtained in the research can be used to design the forming tools for lead-clad glass fiber extrusion and have significance to further research on the extrusion of other complex wires of metal-clad brittle core. Forming zone length (FZL) is a key parameter of the lead-clad glass fiber extrusion dies, and an unsuitable FZL will lead to breakage of the glass fiber and/or unacceptable geometric and metallographic qualities of the product. The optimal FZL was determined theoretically based on a mathematical model established by upper bound method, and accepted Pb-GF wire was actually obtained experimentally by symmetric side-feed extrusion at a much lower temperature than that published before. The wire has features of fine grains, uniform diameter, good coaxiality and satisfied mechanical property. The results and conclusions obtained in the research can be used to design the forming tools for lead-clad glass fiber extrusion and have significance to further research on the extrusion of other complex wires of metal-clad brittle core.
出处 《Journal of Central South University》 SCIE EI CAS 2008年第S2期306-309,共4页 中南大学学报(英文版)
关键词 ZONE LENGTH UPPER BOUND method side-feed EXTRUSION glass fiber zone length upper bound method side-feed extrusion glass fiber
  • 相关文献

参考文献4

二级参考文献12

  • 1Pavlov D.Influence of temperature on the rate of oxygen evolution[A]..Lead-Acid Batteries:Technology and Operation (阀控式密封铅酸蓄电池国际讲学班讲义)[C].Hangzhou(杭州),2000..
  • 2伊晓波.电动自行车用铅酸蓄电池质量分析及标准的研究[A]..(全国第三次轻型电动车技术研讨会论文集)[C].Shanghai(上海),2001.1-4.
  • 3化学工业部化工机械研究院.腐蚀与防护手册[M].Beiiing(北京):ChemistryIndustry Press(化学工业出版社),1997..
  • 4MICHEL Saakes,EDWIN Kluiters,DICK Schmal.Development and tesing of a bipolar lead-battery for hybrid electric vehicles[J].Journal of Power,1999,78,199 -203.
  • 5JAY BENNY E,DATTA Ajoy,MATHEWS Charles.Performance of the horizon advanced lead-acid battery[J].Proceedings of the Annual Battery Conference Jan 11-13,1994.
  • 6AVIZUR B,Prevention of filament breaks during drawing and extrusion of multi-filamentary wire[J].Wire Journal International,1992,8,59-65.
  • 7AVITZUR B,XU R,TALBERT S,et al.Criterion for the prevention of core fracture during extrusion of bimetal rods[J].J Eng Ind,1982,104,293-304.
  • 8AVITZUR B,WU R,TALBERT S,Analysis of core fracture in drawing of bimetal rods and wires[J].J Eng Ind,1986,108,133-140.
  • 9SUN Hong-fei,FANG Wen-bin,HAN Fei.Fabrication of composite wire of lead coated on glass fiber by extrusion[J].The Chinese Journal of Nonferrous Metals,2003,3(1):180-184.
  • 10SLIWA R.Plastic zones in the extrusion of metal composites[J].Journal of Materials Processing Technology,1997,67,29-35.

共引文献21

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部