表面技术
錶麵技術
표면기술
SURFACE TECHNOLOGY
2014年
3期
43-47
,共5页
赵海燕%魏晓伟%羊凡%黄玲%罗婷
趙海燕%魏曉偉%羊凡%黃玲%囉婷
조해연%위효위%양범%황령%라정
6063铝合金%阳极氧化%硫酸电解液%生长%微观形貌
6063鋁閤金%暘極氧化%硫痠電解液%生長%微觀形貌
6063려합금%양겁양화%류산전해액%생장%미관형모
aluminum alloy 6063%anodic oxidization%sulfuric acid electrolyte%growth%microcosmic feature
目的:探究铝合金在低浓度硫酸电解液中,阳极氧化膜的生长及特性。方法在3%H2 SO4和18%H2 SO4(均为质量分数)电解液中对6063铝合金进行硬质阳极氧化,通过对膜层生长过程中的电压-时间曲线及微观形貌进行分析,研究膜层的生长特性。结果在低浓度硫酸电解液中,氧化膜初期生长为“缺陷择优生长”方式,即在高表面能缺陷处不断形成氧化膜核心并铺展,直到相遇形成界面为止;后期生长为“交界面择优生长”方式,即在较薄氧化膜交界面不断溶蚀并产生Al3+和O2-反向传输,使氧化膜增厚。结论低浓度硫酸中阳极氧化膜的生长方式与传统阳极氧化膜显著不同,膜层更加致密,厚度、硬度和粗糙度较大。
目的:探究鋁閤金在低濃度硫痠電解液中,暘極氧化膜的生長及特性。方法在3%H2 SO4和18%H2 SO4(均為質量分數)電解液中對6063鋁閤金進行硬質暘極氧化,通過對膜層生長過程中的電壓-時間麯線及微觀形貌進行分析,研究膜層的生長特性。結果在低濃度硫痠電解液中,氧化膜初期生長為“缺陷擇優生長”方式,即在高錶麵能缺陷處不斷形成氧化膜覈心併鋪展,直到相遇形成界麵為止;後期生長為“交界麵擇優生長”方式,即在較薄氧化膜交界麵不斷溶蝕併產生Al3+和O2-反嚮傳輸,使氧化膜增厚。結論低濃度硫痠中暘極氧化膜的生長方式與傳統暘極氧化膜顯著不同,膜層更加緻密,厚度、硬度和粗糙度較大。
목적:탐구려합금재저농도류산전해액중,양겁양화막적생장급특성。방법재3%H2 SO4화18%H2 SO4(균위질량분수)전해액중대6063려합금진행경질양겁양화,통과대막층생장과정중적전압-시간곡선급미관형모진행분석,연구막층적생장특성。결과재저농도류산전해액중,양화막초기생장위“결함택우생장”방식,즉재고표면능결함처불단형성양화막핵심병포전,직도상우형성계면위지;후기생장위“교계면택우생장”방식,즉재교박양화막교계면불단용식병산생Al3+화O2-반향전수,사양화막증후。결론저농도류산중양겁양화막적생장방식여전통양겁양화막현저불동,막층경가치밀,후도、경도화조조도교대。
Objective To study the growth and characteristics of hard anodic oxidization film with low sulfuric concentration for aluminum alloy. Methods The hard anodic oxidization of aluminum alloy 6063 was performed in the electrolyte with 3%H2 SO4 and 18% H2 SO4( mass fraction) , the voltage-time curve and microstructure in the film growth process were analyzed to study the charac-teristics of the growth of the films. Results In the electrolyte with low sulfuric concentration, the oxidation film grew to″Preferential Growing Mode for Oxidation Film″ at the initial stage. At the site of high surface energy defect, the oxidation film core formed con-tinuously and spread out until met and formed the interface;at later stage, the oxidation film grew to ″Preferential Growing Mode for Oxidation Film Interface″ and was eroded continuously on the thinner oxidation film interface to produce the reverse conveying of Al3+ and O2-, which thickened the oxidation film. Conclusion The growth manner of anodic oxidization film at low sulfuric concen-tration was obviously different from the traditional one. The film was denser and the thickness, hardness and roughness of the film were greater.
