西南林业大学学报
西南林業大學學報
서남임업대학학보
Journal of Southwest Forestry University
2015年
6期
92-96
,共5页
木塑复合材料%胶接接头%无损检测%表面处理%胶接强度
木塑複閤材料%膠接接頭%無損檢測%錶麵處理%膠接彊度
목소복합재료%효접접두%무손검측%표면처리%효접강도
wood-plastic composites%adhesive joint%non-destructive testing%surface treatment%bonding strength
采用环氧树脂胶黏剂,配以打磨、偶联剂涂覆、等离子体处理3种表面处理方法,对聚乙烯木塑复合材料进行胶接;利用纵向共振法研究了胶接接头无损检测中的动态参数与胶接强度之间的相关关系。结果表明:无论采用何种表面处理方法,其共振频率与胶接强度之间均没有相关性;打磨处理的试件,其胶接前后的共振频率之比与胶接强度有着一定的相关关系;硅烷偶联剂涂覆处理的试件,无论胶接后的动态弹性模量,还是胶接前后的动态弹性模量之比,均与胶接强度有着显著的相关性,且其相关性明显优于打磨处理的试件;等离子体处理试件的动态参数与胶接性能的相关性均不显著。
採用環氧樹脂膠黏劑,配以打磨、偶聯劑塗覆、等離子體處理3種錶麵處理方法,對聚乙烯木塑複閤材料進行膠接;利用縱嚮共振法研究瞭膠接接頭無損檢測中的動態參數與膠接彊度之間的相關關繫。結果錶明:無論採用何種錶麵處理方法,其共振頻率與膠接彊度之間均沒有相關性;打磨處理的試件,其膠接前後的共振頻率之比與膠接彊度有著一定的相關關繫;硅烷偶聯劑塗覆處理的試件,無論膠接後的動態彈性模量,還是膠接前後的動態彈性模量之比,均與膠接彊度有著顯著的相關性,且其相關性明顯優于打磨處理的試件;等離子體處理試件的動態參數與膠接性能的相關性均不顯著。
채용배양수지효점제,배이타마、우련제도복、등리자체처리3충표면처리방법,대취을희목소복합재료진행효접;이용종향공진법연구료효접접두무손검측중적동태삼수여효접강도지간적상관관계。결과표명:무론채용하충표면처리방법,기공진빈솔여효접강도지간균몰유상관성;타마처리적시건,기효접전후적공진빈솔지비여효접강도유착일정적상관관계;규완우련제도복처리적시건,무론효접후적동태탄성모량,환시효접전후적동태탄성모량지비,균여효접강도유착현저적상관성,차기상관성명현우우타마처리적시건;등리자체처리시건적동태삼수여효접성능적상관성균불현저。
The epoxy resin adhesive was used to bond the polyethylene wood-plastic composites (WPC) combined with three treatment methods,including sanding treatment,coupling agent coating and plasma treatment. The correlations between dynamic parameters and shear strength in non-destructive testing for the WPC adhesive joints were measured with the longitudinal vibration method.The results showed that there was no correlation between resonant frequency and the shear strength of the WPC specimens regardless of surface treatment methods. The ratio of resonance frequency before and after bonding had a certain correlation with the bonding strength for the WPC specimens only treated with sanding process.Both dynamic modulus of elasticity and dynamic modulus of elasticity ratio had significant correlations with the shear strength for the WPC specimens coating treated with silane coupling agent,which was better than that for the WPC specimens only treated with sanding process.The dynamic parameters had no obvious correlation with the shear strength for the WPC specimens treated with plasma treatment.