Development of Embedded Aluminum-Steel Cladding Strip for Brazed Air Cooling System by Cold Rolling Bonding

李龙; 张小军; 曾祥勇; 陈鑫; 高闯; 周德敬

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Development of Embedded Aluminum-Steel Cladding Strip for Brazed Air Cooling System by Cold Rolling Bonding

更新时间：2026-01-21

- Development of Embedded Aluminum-Steel Cladding Strip for Brazed Air Cooling System by Cold Rolling Bonding
- Special Steel Vol. 36, Issue 1, Pages: 34-37(2015)
- 作者机构：
  
  银邦金属复合材料股份有限公司江苏省金属层状复合材料重点实验室,无锡,214145
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：28 August 2014，
  
  Online First：29 August 2022，
  
  Published：29 August 2015
- 稿件说明：
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李龙, 张小军, 曾祥勇, et al. Development of Embedded Aluminum-Steel Cladding Strip for Brazed Air Cooling System by Cold Rolling Bonding[J]. Special Steel, 2015, 36(1): 34-37.
DOI：

李龙, 张小军, 曾祥勇, et al. Development of Embedded Aluminum-Steel Cladding Strip for Brazed Air Cooling System by Cold Rolling Bonding[J]. Special Steel, 2015, 36(1): 34-37. DOI：

摘要

通过"表面处理+冷轧复合+退火处理"三步法

即先采用钢丝刷对4 mm 08Al钢(/%:0.01C

0.018Al)和0.23 mm 4A60铝带表面进行处理

然后在前张力30 kN下利用高精度Φ420 mm四辊轧机对铝-钢进行60%的单道次冷轧复合

并于罩式退火炉进行520℃24 h的退火处理

开发出了极薄复层(80~90μm)冷轧4A60铝/08Al钢1.7 mm复合带材。复合带材中08Al钢的组织为平均晶粒尺寸15μm的等轴铁素体

抗拉强度≥320MPa

伸长率≥28%

弯曲性能也符合指标要求。复合带材在(600±10) ℃ 钎焊后铝钢界面未发现金属间化合物

铝钢界面未发现分层现象。

Abstract

With three-step method “surface process + cold rolling bonding + annealing treatment"

i. e. first

treating the surface of 4mm 08 Al steel strip (/% : 0. 01G

0. 018A1) and 0.23 mm 4A60 aluminium strip by brushing

then single pass-rolled by 60% reduction for the aluminium-steel strip using high precision Φ420 mm four high rolling mill with 30 kN forward tension to get large deformation cladding

and annealing treatment at 520 ℃ for 24 h in a bell type annealing furnace

the cold-rolled 1. 7 mm 4A60 aluminium-08Al steel cladding strip with 80 〜90 μm extra-thin cladding layer is developed. The microstructure of 08Al steel in cladding strip is equiaxed ferrite with average grain size 15 μm

its tensile strength ≥320MPa and elongation ≥28%

and the bending properties of cladding strip also meet the requirement of standard. The intermetallic compound is not found in aluminum-steel interface region of cladding strip brazed at (600 ± 10) ℃

and the delamination phenomenon is not observed at interface of aluminium and steel.

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