锻压技术

5182-H19铝合金罐盖成形轻量化技术

英文标题：Lightweight forming technology for can lid of 5182-H19 aluminum alloy

单位：1.义乌工商职业技术学院机电信息学院 2.义乌工商职业技术学院时尚创意设计中心 3.义乌市易开盖实业公司

分类号：TG386

出版年,卷(期):页码：2018,43(12):146-150

摘要：

5182-H19铝合金罐盖在成形过程中存在埋头筋两侧材料局部减薄严重的问题，降低了产品的变形抗力。为了保证罐头的包装质量，需采用较大厚度的材料来制作罐盖，这大大增加了企业的生产成本。通过对铝合金罐盖成形工艺的研究，设计出一种复合气压反向成形模具。该模具可一次完成多道工序，实现厚度仅为0.218 mm的超硬5182-H19铝合金罐盖的成形，能使罐盖埋头筋两侧斜面材料的最薄处厚度从181.7 μm提高到197.0 μm。与原有成形技术相比，罐盖的局部减薄率从16.7%降低到9.6%，这有利于提高罐盖的变形抗力，实现产品轻量化，降低生产成本，具有很高的实用价值。

Local thinning of materials on the both sides of countersunk rib for 5182-H19 aluminum alloy can lid during forming process is a critical problem, and the deformation resistance of product is severely reduced. In order to ensure the quality of canned packaging, the can lid was produced by material with large thickness, and the production cost in the enterprise was greatly increased. Through researching on the forming process of the aluminum alloy can lid, a kind of reverse forming die with compound air pressure for the can lid was designed. Then, the die completes the multiple processes at one time to form the super hard 5182-H19 aluminum alloy can lid with thickness of only 0.218 mm, and the thinnest thickness of materials on the both slope sides of countersunk rib increases from 181.7 μm to 197.0 μm. Compared with the original forming technology, the local thinning rate of the can lid decreases from 16.7% to 9.6%. Thus, the above process is beneficial to improve the deformation resistance of the can lid, achieve the light weight of product and reduce the production cost which has high practical value.

基金项目：

基金项目: 浙江省高等学校访问工程师校企合作项目（FG2015123）；义乌市重点科技攻关项目（2015-J-03）；义乌工商职业技术学院立项科研项目（201621）

作者简介：朱堂葵（1981-），男，博士，讲师 Email：zhutangkui@mail.nwpu.edu.cn

参考文献：

参考文献:

［1］王祝堂. 铝合金及其加工手册
［M］. 长沙：中南工业大学出版社, 2000.

Wang Z T. Aluminium Alloy and Its Processing Manual
［M］. Changsha: Central South University Press, 2000.

［2］张永皞, 张志清, 林林. 3xxx系罐身铝合金第二相及其对加工过程的影响研究进展
［J］. 材料导报, 2012, 26(13): 101-108.

Zhang Y H, Zhang Z Q, Lin L. Research progress of secondphase in 3xxx can body aluminum alloys and their effects on manufacturing
［J］. Materials Review, 2012, 26(13):101-108.

［3］叶凯, 林明山. 铝质易拉罐技术研究与应用
［J］. 中国包装工业, 2002, (3): 6-9.

Ye K, Lin M S. Aluminumeasycan technology: Research & application
［J］. China Packing Industry, 2002, (3): 6-9.

［4］王祝堂. 改革开发30年来中国铝罐料工业从无到有
［J］. 有色金属加工, 2010, 39(2): 4-7, 12.

Wang Z T. Development of china alumimum can industry since 30 years
［J］. Nonferrous Metals Processing, 2010, 39(2): 4-7, 12.

［5］达永福. 马口铁易开盖的减薄轻量化技术研究
［J］. 食品与机械, 2014, 30(2): 126-127, 145.

Da Y F. Tinplate easy open end thinnig lightweight technology
［J］. Food & Machinery, 2014, 30(2): 126-127, 145.

［6］叶凯, 傅高升, 林娜. 铝质易拉罐轻量化实现途径及其关键技术
［J］. 湖南工业大学学报, 2014, 28(6): 65-69.

Ye K, Fu G S, Lin N. Realization of the lightweighting of aluminum easyopen can and its key technology
［J］. Journal of Hunan University of Technology, 2014, 28(6): 65-69.

［7］刘玉石, 王荣堂. 铝易拉罐轻量化的动向
［J］. 铝加工, 1994, 17(6): 46-50.

Liu Y S, Wang R T. The trend of the lightweighting of aluminium easyopen can
［J］. Aluminium Fabrication, 1994, 17(6): 46-50.

［8］曲直, 和强, 曲新，等. 易拉罐轻量化的研究应用
［J］. 啤酒科技, 2016, (3): 21-25.

Qu Z, He Q, Qu X, et al. The research and application of the lightweighting of aluminium easyopen can
［J］. Beer Science and Technology, 2016, (3): 21-25.

［9］胡文昌. 金属罐壁厚变薄耐压试验的计算机模拟计算
［D］. 济南: 山东大学, 2011.

Hu W C. Computer Simulation of Pressure Resistance Test for the Metal Tank
［D］. Jinan: Shandong University, 2011.

［10］徐景珩. 我国易拉罐生产状况和出路
［J］. 包装与食品机械, 1998, 16(3): 25-28.

Xu J H. The manufacture of easyopen tin in China and the developing countermeasure
［J］. Packaging and Food Machinery, 1998, 16(3): 25-28.

［11］叶凯. 铝质易拉罐轻量化的罐型分析与模具改进
［J］. 模具工业, 2012, 38(1): 29-35.

Ye K. Analysis of lightweight aluminum tinplate can type and improvement of die
［J］. Die & Mould Industry, 2012, 38(1): 29-35.

［12］韩向东, 李志见. 铝质易拉罐轻量化技术探讨
［J］. 轻工机械, 2003, (4): 29-32.

Han X D, Li Z X. Research on the lightweighting technology for aluminum easyopen can
［J］. Light Industry Machinery, 2003, (4): 29-32.

［13］林明山, 林娜. 铝质易拉罐轻量化的技术手段
［J］. 轻金属, 2015, (5): 56-58.

Lin M S, Lin N. Study on the lightweighting technology for aluminum easyopen can
［J］. Light Metals, 2015, (5): 56-58.

［14］林明山, 林娜. 3104铝合金罐用板材减薄技术研究
［J］. 轻合金加工技术, 2013, (5): 58-62.

Lin M S, Lin N. Research on thinning technology of 3104 aluminum alloy sheet used for can body
［J］. Light Alloy Fabrication Technology, 2013, (5): 58-62.

［15］叶凯. 铝质易拉罐成形技术及应用
［J］. 轻合金加工技术, 2014, 42(6): 19-27, 63.

Ye K. Study and application of the forming technique of aluminum beverage cans
［J］. Light Alloy Fabrication Technology, 2014, 42(6): 19-27, 63.

［16］叶凯. 铝质易拉罐罐形优化设计研究
［J］. 宁德师范学院学报：自然科学版, 2014, 26(2): 160-165.

Ye K. Optimal design of the shape of easyopen aluminum cans
［J］. Journal of Ningde Normal University：Natural Science, 2014, 26(2): 160-165.

［17］蔡辉, 林顺岩. 5182铝合金材料的研究现状
［J］. 铝加工, 2012, (6): 21-26.

Cai H, Lin S Y. Current development situation of 5182 aluminum alloy
［J］. Aluminum Fabrication, 2012, (6): 21-26.

［18］王瑞亮, 高振鹏, 李金文，等. 5182-H19拉环料带材生产工艺研究
［J］. 铝加工, 2013, (6): 30-32.

Wang R L, Gao Z P, Li J W, et al. Research on production process of 5182-H19 aluminum alloy stock for pull ring
［J］. Aluminum Fabrication, 2013, (6): 30-32.

［19］宋丰轩, 任月路, 赵启忠，等. 拉伸对5182铝合金罐盖料板力学性能的影响
［J］. 轻合金加工技术, 2016, 44(8): 39-43.

Song F X, Ren Y L, Zhao Q Z, et al. Effect of stretching deformation on mechanical properties of 5182-H19 can top plate
［J］. Light Alloy Fabrication Technology, 2016, 44(8): 39-43.

［20］黄瑞银. 5182铝合金罐盖料生产工艺技术
［J］. 轻合金加工技术, 2011, 39(8): 14-17.

Huang R Y. Summary of research on 5182 aluminum alloy can lid sheet
［J］. Light Alloy Fabrication Technology, 2011, 39(8): 14-17.

［21］刘文军, 祝齐祁. 罐盖用5182铝合金的工艺研究
［J］. 铸造技术, 2014, 35(2): 359-361.

Liu W J, Zhu Q Q. Process study of 5182 Alalloy for can lid sheet
［J］. Foundry Technology, 2014, 35(2): 359-361.

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