新能源汽车镁合金零部件的开发分析
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摘要
为了推动新能源汽车行业发展,需要针对零部件材料的应用进行研究。首先探讨了大环境下新能源汽车的研究发展现状,了解到目前全世界对于镁合金这一材料的使用情况,随后分析了镁合金材料在汽车中应用的优势,确定了该材料的重要性,再次从常规汽车、新能源汽车两个方面探讨了镁合金零部件的开发与应用,并分析了包括3D打印在内的先进技术,总结今后镁合金材料在新能源汽车零部件中应用有广阔的前景,最后得出结论,加强对先进材料与技术的应用,有利于推动新能源汽车行业发展。
To promote development of new energy automobile industry, it is necessary to study application of spare parts materials. Firstly, the papter discusses research and development status of new energy vehicles under general environment, to understand application situation of magnesium alloys across the world. Then, it analyzes advantages and importance of magnesium alloys in automobiles. Thirdly, it discusses development and application of magnesium alloys in routine automobiles and new energy automobiles, and analyzes 3 D printing ect advanced technology, summarizes broad prospects of magnesium alloy materials in application of new energy automotive parts in the future, and finally draws conclusion, strengthening application of advanced materials and technology is conducive to promoting development of new energy automotive industry.
To promote development of new energy automobile industry, it is necessary to study application of spare parts materials. Firstly, the papter discusses research and development status of new energy vehicles under general environment, to understand application situation of magnesium alloys across the world. Then, it analyzes advantages and importance of magnesium alloys in automobiles. Thirdly, it discusses development and application of magnesium alloys in routine automobiles and new energy automobiles, and analyzes 3 D printing ect advanced technology, summarizes broad prospects of magnesium alloy materials in application of new energy automotive parts in the future, and finally draws conclusion, strengthening application of advanced materials and technology is conducive to promoting development of new energy automotive industry.
引文
[1]李雪婷,张梦雅.绿色经济下襄阳汽车零部件制造企业绿色竞争能力研究[J].物流工程与管理,2018,40(12):121-123+62.LI Xue-ting,ZHANG Meng-ya.Research on Green Competitiveness of Xiangyang Automotive Parts Manufacturing Enterprises under Green Economy[J].Logistics Engineering and Management,2018,40(12):121-123+62.
[2]崔伟丽.破解制约难题,增强新能源汽车发展动力[J].福建质量技术监督,2018(9):48-49.CUI Wei-li.Solving Constraints and Enhancing Development Power of New Energy Vehicles[J].Fujian Quality and Technical Supervision,2018(9):48-49.
[3]董方,刘月,郭升乐,等.稀土元素Y对AZ91D镁合金显微组织和力学性能的影响[J].轻合金加工技术,2018,46(5):62-66.DONG Fang,LIU Yue,GUO Sheng-le,et al.Effect of Rare Earth Element Y on Microstructure and Mechanical Properties of AZ91D Magnesium Alloy[J].Light Alloy Processing Technology,2018,46(5):62-66.
[4]付彭怀,彭立明,丁文江.汽车轻量化技术:铝/镁合金及其成型技术发展动态[J].中国工程科学,2018,20(1):84-90.FU Peng-huai,PENG Li-ming,DING Wen-jiang.Automobile Lightweight Technology:Development Trends of Aluminum/Magnesium Alloy and Forming Technology[J].China Engineering Science,2018,20(1):84-90.
[5]闫福成.中国新能源汽车车用涂料和涂装技术的发展[J].中国涂料,2017,32(12):30-34.YAN Fu-cheng.Development of Coatings and Painting Technology of China New Energy Automotive[J].China Coatings,2017,32(12):30-34.
[6]佚名.环保促进汽车轻量化,镁合金打开市场空间[J].特种铸造及有色合金,2017,37(7):785.Anonymous.Environmental Protection Promotes Automobile Lightweight,Magnesium Alloys Opens up Market Space[J].Special Casting and Non-ferrous Alloys,2017,37(7):785.
[7]唐见茂.新能源汽车轻量化材料[J].新型工业化,2016,6(1):1-14.TANG Jian-mao.Lightweight Materials of New Energy Vehicles[J].The Journal of New Industrialization,2016,6(1):1-14.
[8]冯奇,范军锋,干频,等.新能源汽车镁合金零部件开发及应用趋势[J].汽车工艺与材料,2010(11):51-55.FENG Qi,FAN Jun-feng,GAN Pin,et al.Development and Application Trends of Magnesium Alloy Components of New Energy Vehicles[J].Automotive Technology and Materials,2010(11):51-55.
[2]崔伟丽.破解制约难题,增强新能源汽车发展动力[J].福建质量技术监督,2018(9):48-49.CUI Wei-li.Solving Constraints and Enhancing Development Power of New Energy Vehicles[J].Fujian Quality and Technical Supervision,2018(9):48-49.
[3]董方,刘月,郭升乐,等.稀土元素Y对AZ91D镁合金显微组织和力学性能的影响[J].轻合金加工技术,2018,46(5):62-66.DONG Fang,LIU Yue,GUO Sheng-le,et al.Effect of Rare Earth Element Y on Microstructure and Mechanical Properties of AZ91D Magnesium Alloy[J].Light Alloy Processing Technology,2018,46(5):62-66.
[4]付彭怀,彭立明,丁文江.汽车轻量化技术:铝/镁合金及其成型技术发展动态[J].中国工程科学,2018,20(1):84-90.FU Peng-huai,PENG Li-ming,DING Wen-jiang.Automobile Lightweight Technology:Development Trends of Aluminum/Magnesium Alloy and Forming Technology[J].China Engineering Science,2018,20(1):84-90.
[5]闫福成.中国新能源汽车车用涂料和涂装技术的发展[J].中国涂料,2017,32(12):30-34.YAN Fu-cheng.Development of Coatings and Painting Technology of China New Energy Automotive[J].China Coatings,2017,32(12):30-34.
[6]佚名.环保促进汽车轻量化,镁合金打开市场空间[J].特种铸造及有色合金,2017,37(7):785.Anonymous.Environmental Protection Promotes Automobile Lightweight,Magnesium Alloys Opens up Market Space[J].Special Casting and Non-ferrous Alloys,2017,37(7):785.
[7]唐见茂.新能源汽车轻量化材料[J].新型工业化,2016,6(1):1-14.TANG Jian-mao.Lightweight Materials of New Energy Vehicles[J].The Journal of New Industrialization,2016,6(1):1-14.
[8]冯奇,范军锋,干频,等.新能源汽车镁合金零部件开发及应用趋势[J].汽车工艺与材料,2010(11):51-55.FENG Qi,FAN Jun-feng,GAN Pin,et al.Development and Application Trends of Magnesium Alloy Components of New Energy Vehicles[J].Automotive Technology and Materials,2010(11):51-55.
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