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醋酸水溶液浓度与PH值的关系:醋酸是一种弱电解质,在水的作用下才能电离出氢离子,按理说春醋酸是没有氢离子的,它的PH值应为7,用PH试纸检验,由于吸附空气中的水分,纯醋酸的PH显示值约为4左右,在很低的浓度下,随着浓度的增加,PH值是下降的,即醋酸溶液的酸性增加,但增加到一定浓度,PH值几乎不变,这是由于到达一定的浓度,醋酸的电离已达到最大值,即使增加醋酸浓度,溶液中氢离子的浓度是一定的,但浓度高的溶液,由于醋酸的挥发,浓度也会随着时间下降,下降到一定程度,PH值也会随着下降,但对于浓度高的溶液,未电离的醋酸分子会随时电离以保证较长时间溶液的酸值维持在一定的水平。通过比较,醋酸溶液的极限PH值为2左右,最高接近4(很低的浓度就能达到4)。下表是醋酸溶液浓度与PH值的关系:醋酸浓度PH值0.18%40.4%3.60.58%3.50.82%3.31.26%3-4,接近32.5%35%2-3接近27%2-3接近210%2-3接近2用5%浓度的醋酸在70℃下酸煮成品和EKT样品,其中MDI样品重100.1克,NDI样品重100.5克,两种样品形状相同,酸煮20天后,从外观看不出三者的差别,但NDI样品有一个裂纹,用手掰样品,EKT和NDI样品都能被掰断,而MDI样品掰不断。Autothane和Vulkollan耐酸煮性能比较:把这两种材料分别投入到浓度为2.5%、5%、7.5%的醋酸溶液中,酸煮温度定为70℃浓度为2.5%的醋酸溶液PH值为3~4,接近3;浓度为5%的醋酸溶液PH值为2~3,接近3;浓度为7.5%的醋酸溶液PH值为2~3,接近2;考察了酸煮时间的影响和酸的浓度对水解作用的影响。时间的影响:分别考察了在酸浓度为2.5%、5%、7.5%时样品拉伸强度和延伸率随水煮时间的变化。其中黑线代表Autothane,红线代表Vulkollan1、醋酸浓度为2.5%时,样品性能随酸水煮时间的变化:Figure1thechangeofTensilestrengthwithtimeinacetum(2.5%)table1thechangeofTensilestrengthwithtimeinacetum(2.5%)0hr(Mpa)47hr(Mpa)98hr(Mpa)158hr(Mpa)Autothane3.804.033.863.68Vulkollan3.91.970.980.48Table2thechangeofElongationwithtimeinacetum(2.5%)0hr(%)47hr(%)98hr(%)158hr(%)Autothane338400398410Vulkollan44226811066Figure2thechangeofElongationwithtimeinacetum(2.5%)020406080100120140160180050100150200250300350400450εs%TimehrAutothaneVulkollan从上各图表可以看出,在浓度为2.5%的条件下,Autothane随时间拉伸强度和延伸率都变化很小,而Vulkollan随时间急剧下降。说明在该条件下,Vulkollan已经发生了急剧的的水解作用,主链已发生断裂,机械性能显著下降。而这种条件对Autothane的分子结构没什么影响。2、醋酸浓度为5%时,样品性能随酸水煮时间的变化:0204060801001201401601800.00.51.01.52.02.53.03.54.0TsMPaTimehrAutothaneVulkollanFigure3thechangeofTensilestrengthwithtimeinacetum(5%)02040608010012014016018001234TsMPaTimehrAutothaneVulkollanTable3thechangeofTensilestrengthtimeinacetum(5%)0hr(Mpa)47hr(Mpa)98hr(Mpa)158hr(Mpa)Autothane3.803.733.292.79Vulkollan3.91.280.590Figure4thechangeofElongationwithtimeinacetum(5%)0204060801001201401601800100200300400500εs%TimehrAutothaneVulkollanTable4thechangeofElongationwithtimeinacetum(5%)0hr(%)47hr(%)98hr(%)158hr(%)Autothane338390370379Vulkollan442229760醋酸浓度为5%时Autothane的拉伸强度稍微下降,延伸率没有变化,可能是水分子的进入起到了增塑作用,使大分子之间的作用力下降而导致拉伸强度的下降却不会对伸长率有影响,当然也不排除分子量有轻微的断裂。而Vulkollan的拉伸强度和延伸率迅速降为03、醋酸浓度为7.5%时,样品性能随酸水煮时间的变化:Table5thechangeofTensilestrengthwithtimeinacetum(7.5%)0hr(Mpa)47hr(Mpa)98hr(Mpa)158hr(Mpa)Autothane3.803.633.242Vulkollan3.91.040.270Figure5thechangeofTensilestrengthwithtimeinacetum(7.5%)02040608010012014016018001234TsMPaTimehrAutothaneVulkollanFigure6thechangeofElongationwithtimeinacetum(7.5%)0204060801001201401601800100200300400500εs%TimehrAutothaneVulkollanTable6thechangeofElongationwithtimeinacetum(7.5%)0hr(%)47hr(%)98hr(%)158hr(%)Autothane338407375288Vulkollan442112530在该浓度下Autothane的拉伸强度和伸长率都有下降,这是由于其中的酯基发生了水解的缘故,但由于分子中还存在相当一部分的醚键,并不会使分子解体,因此还保持相当的强度,但Vulkollan已完全解体。酸浓度的影响1、浸泡47小时,样品性能随酸浓度的变化:Figure7thechangeofTensilestrengthwithconcentrationofacetum(47hr)3456780.00.51.01.52.02.53.03.54.0TsMPaconcentrationofacetum%AutothaneVulkollanTable7thechangeofTensilestrengthwithconcentrationofacetum(47hr)2.5%(Mpa)5%(Mpa)7.5%(Mpa)Autothane4.033.733.63Vulkollan1.971.281.04Figure8thechangeofElongationwithconcentrationofacetum(47hr)345678050100150200250300350400εs%concentrationofacetum%AutothaneVulkollanTable8thechangeofElongationwithconcentrationofacetum(47hr)2.5%(%)5%(%)7.5%(%)Autothane400390407Vulkollan2682291122、浸泡98小时,样品性能随酸浓度的变化:Figure9thechangeofTensilestrengthwithconcentrationofacetum(98hr)3456780.00.51.01.52.02.53.03.54.0TsMPaconcentrationofacetum%AutothaneVulkollanTable9thechangeofTensilestrengthwithconcentrationofacetum(98hr)2.5%(Mpa)5%(Mpa)7.5%(Mpa)Autothane3.863.293.24Vulkollan0.980.590.27Figure10thechangeofElongationwithconcentrationofacetum(98hr)345678050100150200250300350400εs%concentrationofacetum%AutothaneVulkollanTable10thechangeofElongationwithconcentrationofacetum(98hr)2.5%(%)5%(%)7.5%(%)Autothane398370375Vulkollan11076533、浸泡158小时,样品性能随酸浓度的变化:Figure11thechangeofTensilestrengthwithconcentrationofacetum(158hr)3456780.00.20.40.60.81.01.21.41.61.82.02.22.42.62.83.03.23.43.63.8TsMPaconcentrationofacetum%AutothaneVulkollanTable11thechangeofTensilestrengthwithconcentrationofacetum(158hr)2.5%(Mpa)5%(Mpa)7.5%(Mpa)Autothane3.682.792Vulkollan0.480Figure12thechangeofElongationwithconcentrationofacetum(158hr)345678050100150200250300350400εs%concentrationofacetum%AutothanevulkollanTable12thechangeofElongationwithconcentrationofacetum(158hr)2.5%(%)5%(%)7.5%(%)Autothane410398288Vulkollan660从上面个图表可以看出,酸的浓度无论是对Autothane还是Vulkollan的水解性能都是有影响的,只是对Autothane的影响较轻微,而对Vulkollan的影响更甚。且随着水煮时间的延长,酸浓度的影响加重。对于Vulkollan,水解很快,刚开始时性能下降得很厉害,后来趋缓,而对Autothane,整个水解过程都是缓慢进行的。