工程塑料应用
工程塑料應用
공정소료응용
ENGINEERING PLASTICS APPLICATION
2013年
6期
10-14
,共5页
庄晓伟%张伟%王春鹏%李守海%储富祥
莊曉偉%張偉%王春鵬%李守海%儲富祥
장효위%장위%왕춘붕%리수해%저부상
薄竹单板%酚醛泡沫%夹芯复合板%力学性能
薄竹單闆%酚醛泡沫%夾芯複閤闆%力學性能
박죽단판%분철포말%협심복합판%역학성능
sliced bamboo veneer%phenolic foam%sandwich panels%mechanical property
利用竹纤维、薄竹单板等短生长周期的可再生生物质资源制备了薄竹面竹纤维增强酚醛泡沫夹芯复合板材。研究环氧AB胶、白胶、万能胶和塑料胶4种市场上常见粘合剂对复合板材的胶合强度和耐高温性能的影响,确定最佳粘合剂为环氧AB胶。对无纺布、玻璃纤维布、不锈钢丝网、天然麻纤维网格布、抗裂的确良等5种不同网格材料增强薄竹面竹纤维增强酚醛泡沫夹芯复合板材的力学性能和尺寸稳定性进行了对比研究。结果表明,天然麻纤维网格布是最佳增强材料,与未用网格材料增强的薄竹面竹纤维增强酚醛泡沫夹芯复合板材相比,其压缩强度提高5.55%,纵向弯曲强度提高26.28%,横向弯曲强度提高28.33%,冲击强度提高68.47%。且天然麻纤维网格布增强薄竹面竹纤维增强酚醛泡沫夹芯复合板材性能基本达到JC/T 1051–2007“铝箔面硬质酚醛泡沫夹芯板”行业标准要求。
利用竹纖維、薄竹單闆等短生長週期的可再生生物質資源製備瞭薄竹麵竹纖維增彊酚醛泡沫夾芯複閤闆材。研究環氧AB膠、白膠、萬能膠和塑料膠4種市場上常見粘閤劑對複閤闆材的膠閤彊度和耐高溫性能的影響,確定最佳粘閤劑為環氧AB膠。對無紡佈、玻璃纖維佈、不鏽鋼絲網、天然痳纖維網格佈、抗裂的確良等5種不同網格材料增彊薄竹麵竹纖維增彊酚醛泡沫夾芯複閤闆材的力學性能和呎吋穩定性進行瞭對比研究。結果錶明,天然痳纖維網格佈是最佳增彊材料,與未用網格材料增彊的薄竹麵竹纖維增彊酚醛泡沫夾芯複閤闆材相比,其壓縮彊度提高5.55%,縱嚮彎麯彊度提高26.28%,橫嚮彎麯彊度提高28.33%,遲擊彊度提高68.47%。且天然痳纖維網格佈增彊薄竹麵竹纖維增彊酚醛泡沫夾芯複閤闆材性能基本達到JC/T 1051–2007“鋁箔麵硬質酚醛泡沫夾芯闆”行業標準要求。
이용죽섬유、박죽단판등단생장주기적가재생생물질자원제비료박죽면죽섬유증강분철포말협심복합판재。연구배양AB효、백효、만능효화소료효4충시장상상견점합제대복합판재적효합강도화내고온성능적영향,학정최가점합제위배양AB효。대무방포、파리섬유포、불수강사망、천연마섬유망격포、항렬적학량등5충불동망격재료증강박죽면죽섬유증강분철포말협심복합판재적역학성능화척촌은정성진행료대비연구。결과표명,천연마섬유망격포시최가증강재료,여미용망격재료증강적박죽면죽섬유증강분철포말협심복합판재상비,기압축강도제고5.55%,종향만곡강도제고26.28%,횡향만곡강도제고28.33%,충격강도제고68.47%。차천연마섬유망격포증강박죽면죽섬유증강분철포말협심복합판재성능기본체도JC/T 1051–2007“려박면경질분철포말협심판”행업표준요구。
Fire-retardant phenolic foam sandwich panels were manufactured by using renewable bamboo fiber and sliced bamboo veneer. Effects of four types of adhesive,including epoxy adhesive,PVAC,decorating-adhesive and polystyrene adhesive on heat resistance and bonding strength of sandwich panels were studied. The results show that four types of adhesives can meet the demand of bonding strength of sandwich panels and the epoxy adhesive demonstrates best properties. Then five types grid fabrics such as non-woven fabrics,fiberglass fabrics,stainless steel wire mesh,natural hemp’s fiber mesh fabrics and terylene were used to improve the mechanical properties and the dimensional stability of bamboo fiber reinforced phenolic foamed sandwich panels. It is found that the natural hemp’s fibers mesh fabrics shows best results in five types fabrics. Compared the unreinforced composite plates,the compression strength of the sandwich panels reinforced by natural hemp’s fibers mesh fabrics increases by 5.55%, lengthways flexural strength increases by 26.28%,transverse flexural strength increases by 28.33%,and impact strength increases by 68.47%. The properties of the sandwich panels reinforced by natural hemp’s fibers mesh fabrics can meet closely the demanded of industry standard (JC/T1051–2007)“aluminum foil faced rigid phenolic foam sandwich panels”.
