Influence of interface on radiation effects of crystalline polymer - radiation effects on polyamide-1010 containing BMI

Aimed at saving the radiation dose required to crosslinking the polyamid-1010, BMI/PA1010 systems containing different amounts of difunctional crosslinking agent N,N'-bis-maleimide-4,4'-biphenyl methane (BMI) were prepared and the structure changes at the crystallographic and supermolecular levels before and after irradiation were studied by using WAXD, SAXS, and DSC techniques. It was found that by incorporation of BMI the microcrystal size L-100 is lowered due to the formation of hydrogen bond between the carbonyl oxygen of BMI and the amide hydrogen of PA1010 in the hydrogen bonded plane, and the overall crystallinity W-c is also decreased. The presence of BMI causes the crystal lamella thickness d(c) to decrease and greatly thickens the transition zone d(tr) between the crystalline and amorphous regions. As for the irradiated specimen, the maximum increments in the L-100 and W-c against dose curves decrease with BMI content, and the interception point D-i, at which the L-100 and W-c curves intercept their respective horizontal line of L-100/L-100(0) and W-c/W-c(0)=1, shift to lower dose with an increase in BMI concentration. In addition. the mechanism of the radiation chemical reactions in the three different phases under the action of BMI are discussed with special focus on the interface region. (C) 1999 Published by Elsevier Science Ltd. All rights reserved.

Small angle X-ray scattering study of structural parameters of the aggregated state in polyamide 1010+BMI

The structural parameters of the aggregated state in the polyamide PA1010 and N,N'-bismaleimide-4,4'-diphenyl methane (BMI) system were computed by means of the desmearing intensity from SAXS and using the concept of the distance distribution function. The results revealed that the parameters Q, I(0), l(c) and L decreased with the increase BMI component, whereas O-s increased. The particle dimension Z for different BMI contents was less than 13.2 nm, and the maximum value of the distance distribution function P(Z) was found to be in the range Z = 6.5-7.0 nm.

APPLICATION OF THE MOMENT METHODS TO ANALYSIS OF X-RAY-DIFFRACTION LINE-PROFILE FOR PA1010-BMI SYSTEM

Pure X-ray diffraction profiles have been analysed for polyamide 1010 and PA1O1O-BMI system by means of multipeak fitting resolution of X-ray diffraction. The methods of variance and fourth moment have been applied to determine the particle size and strain values for the paracrystalline materials. The results indicated that both variance and fourth moment of X-ray diffraction line profile yielded approximately the same values of the particle size and the strain. The particle sizes of (100) reflection have been found to decrease with increasing BMI content, whereas the strain values increased.

The interlaminar fracture-behavior and toughening mechanisms of new carbon-fiber-reinforced bismaleimide composites

The interlaminar fracture behaviour of carbon fibre-reinforced bismaleimide (BMI) composites prepared by using a new modified BMI matrix has been investigated by various methods. Laminates of three typical stacking sequences were evaluated. Double cantilever beam, end-notch flexure and edge-delamination tension tests were conducted under conventional conditions and in a scanning electron microscope. The strain energy release rates in Mode I and Mode III G(lc) and G(llc), as well as the total strain energy release rate, G(mc), have been determined and found to be higher than those for laminates with an epoxy matrix. Dynamic delamination propagation was also studied. The toughening mechanisms are discussed.

Fatigue fracture-behavior of carbon-fiber-reinforced modified bismaleimide composites

The fracture toughness and fatigue fracture behaviour of carbon-fiber-reinforced modified bismaleimide (BMI) composites have been studied. These composites were found to have higher fracture toughnes, better damage tolerance and longer fatigue life than carbon-fiber composites with epoxy matrices. Delamination is the major mode of failure in fatigue and it is controlled by the properties of the matrix and interface. The improved performance is dire to the presence of thermoplastic particles in the modified BMI matrix which gives rise to enhanced fiber/matrix adhesion and more extensive plastic deformation. The fatigue behaviour also depends on the stacking sequence, with the multidirectional [45/90/-45/0] fiber-reinforced modified BMI composite having a lower crack propagation rate and longer fatigue life than the unidirectional laminate. This arises because of the constraint on the damage processes due to the different fiber orientation in the plies.

聚酰亚胺的复合材料制备与辐射固化

热固性聚酰亚胺复合材料以其优异的耐热氧化性和机械性能而引起了广大科学工作者的兴趣.近年来人们在这方面的研究和应用已经取得了巨大的进展.研究具有低成本、易加工和耐高温（350、371℃）等优点的聚酰亚胺复合材料现已成为目前的热点之一.在该论文中,我们制备了一系列的耐高温聚酰亚胺复合材料,考核了其在室温和高温下的各项性能;我们还对低聚物添加的聚酰亚胺以及BMI浇铸体进行了低温辐射固化的研究.

聚（3-羟基烷酸酯）的改性研究

该论文目的是改性细菌合成的聚(3-羟基丁酸酯)(PHB)及其共聚物(PHBV),采用交联或共混的方法,改变其聚集态结构或超分子结构,从而改善其力学性能.加深对高聚物结构与性能之间关系,高聚物结晶规律、及特殊相互作用在高聚物中作用的认识.1.采用反应性加工,用过氧化二异丙苯(DCP)引发PHBV的自由基链转移反应,产生了支化和交联的化学结构.2.用交联助剂二苯甲撑双马来酰亚胺(BMI)实现了PHBV的γ-辐射交联.交联的PHBV熔点和结晶度下降.3.双酚A(BPA)在PHBV/BPA共混物中起到了物理交联剂的作用.4.氢键交联结构使PHBV的链段运动受限,结晶速率下降.5.对叔丁基苯酚(TBP)在PHBV中形成了氢键接枝的超分子结构.6.经过溶液共混,BPA在PHB中起到了物理交联剂的作用,使PHB的断裂伸长率从3%提高到45%.8.二醋酸纤维素(CDA)与PHBV经溶液共混(混合溶剂氯仿/丙酮),PHBV的力学性能没有改善,原因可能是CDA-PHBV分子间的氢键作用较弱,组分间发生严重相分离,不利于性能提高.

尼龙1010的平衡热力学参数及其γ-辐照产物的结晶过程

尼龙1010是我国特有的工程塑料。但对它的结构与性能的基础研究并不多见。迄今为止，许多聚酰胺的晶胞参数已被测定，并比较准确地计算出它们的结晶密度ρ_c。可是，尚未见到过有关尼龙1010的ρ_c的报道。此外，结晶高聚物的平衡熔融温度T°_m和平衡熔融热ΔH°_m是非常重要的热力学参数，尤其是后者更是用量热法计算结晶度的基准。早在50年代，Flory等对它的T°_m和ΔH°_m进行了许多研究，由于受当时历史条件限制，这些数值的准确性不高，不能当作平衡状态的数值。尼龙1010经γ-射线辐照后，有可能提高它的使用温度，扩大它的应用范围和领域。但至今未见到过大剂量下γ-辐照尼龙1010及其添加强化交联剂BMI的γ辐照产物的热学性能和结晶过程的研究。随着科学技术的发展，目前迫切需要准确的尼龙1010的ρ_c、T°_m、ΔH°_m的数值，以及大剂量下γ-辐照产物的热学性能和结晶过程的详细研究，以便更合理地开发和利用这一材料为四化建设服务。本文用DSC差示扫描量热仪、红外光谱仪、广角X-射线衍射仪以及TMS热机械仪等研究手段，准确地测定了尼龙1010的平衡热力学参数，并对尼龙1010及其添加强化交联剂BMI的γ-辐照产物的热学性能和结晶过程进行了详细的研究。用红外吸光度-密度外推法求得尼龙1010的ρ_a（非晶密度）= 1.003 ρ_c = 1.098g/cm~3。1.098g/cm~3与用X-射线衍射法求得的1.135g/cm~3比较，认为后者更为合理。用介稳态结晶试样的ΔH_m-(V-bar)_(sp)的线性关系，求得尼龙1010的平衡熔融热。ΔH°_m = 244.0J/g。企图用常用的Hoffman Tm-Tc外推法来确定尼龙1010的平衡熔融温度T°_m，但未能成功，并指出其升温过程中重结晶异常迅速是此法行不通的主要原因。用Kamide提出的双重外推法成功地求得尼龙1010的平衡熔融温度：T°_m = 487 K = 214 ℃通过详细地研究尼龙1010及其添加强化并联剂BMI的γ辐照产物的热学性能，发现强化交联剂BMI的加入，使尼龙1010大分子的交联更容易，但也使得空间网络较松散；同时γ辐照尼龙1010在再次等速升温过程中出现冷结晶峰是辐照产物中存在可结晶部分、交联网络阻碍可结晶部分结晶两者共同作用的结果。交联网络使可结晶部分在降温过程中来不及结晶，当再次升温到玻璃化转变温度以上时，链段冻结被解除，可结晶的分子链段进行有序排列而结晶，导致冷结晶峰的出现。冷结晶峰的强度和位置与辐照产物中可结晶部分的多少、交联网络的大小即相邻交联点之间的分子量Mc的大小、交联网络的松散程度以及试样的热历史都有关。选择适当的等温结晶温度，用DSC-2C型差示扫描量热仪研究了尼龙1010及其γ-辐照产物和添加强化交联剂BMI的γ-辐照产物的等温结晶过程。用DSC-2C 3600 TADS计算机自带的部分面积程序进行动力学数据处理。通过仔细的等温结晶动力学研究，发现γ辐照尼龙10104 Avrami指数n几乎不受辐照剂量R和强化交联剂BMI的影响，且一般为3.75，这说明尼龙1010及其γ辐照产物的结晶过程接近于均相三维成核。随着辐照剂量R和强化交联剂BMI含量的增大，折迭链表面自由能σe值增大，σe值的分布可能变宽，σe值的这种变化可以归因于辐照剂量R和强化交联剂BMI的含量增大时，交联网络增多，交联密度增大，Mc值的分布变宽，链尾和小链圈的数目增多，活动性减小，同时链尾也增长，结果导致σe（链尾、链圈）增大，从而σe值变大，σe值的分布可能变宽。σe值的这种变化也正是过冷度增大、拖尾现象严重、总的动力学速率常数Kn和结晶速率t_(0.5)~(-1)变小的总根源。由此可见，对于分子量不同或分子结构有差别的同一种结晶高聚物来说，σe值可以作为衡量结晶能力大小的定量标准。

Crystal structure of the blend of polyamide 1010 with a bismaleimide by WAXD and SAXS

The blend polyamide 1010/N,N'-(diphenylmethane-4,4'-diyl)bismaleimide (PA1010/ BMI) has been investigated by means of WAXD and SAXS. The results obtained with the help of the Ruland, variance and 1D EDCF analysis showed that the degree of crystallinity (W-c,W-x), crystallite size (L(hikl)), long period (L) and thickness of average crystal lamellae (d) decrease with BMI content. Experimental and calculated density values (rho(c)) are in good agreement. Addition of BMT to PA1010 causes an increase in structural distortion. The results from SAXS analysis also supported that a crystalline amorphous interphase exists in the lamellae of semicrystalline polymers, so that a three-phase model instead of the traditional two-phase model should be used.

CHARACTERIZATION OF GAMMA-IRRADIATED CRYSTALLINE POLYMER .3. THERMAL-BEHAVIOR OF GAMMA-IRRADIATED POLYAMIDE-1010

Thermal behaviour of gamma-irradiated plain PA1010 and PA1010 containing different amounts of difunctional cross-linking agent BMI was investigated. In DSC endo- and exotherm, it was found that during irradiation, the presence of BMI markedly changes the melting and crystallisation characteristics of PA1010. A supposition that the network of BMI-containing specimens is rather loose in structure was proposed to explain the discrepancy in thermal behaviour between these two kinds of specimens. The supposition was further ascertained by the less brittleness in mechanical property of specimens containing BMI. Besides, the complexity of the thermal behaviour of gamma-irradiated PA1010 was discussed and attributed mainly to the increase in sigma-e, the fold surface free energy of chain fold crystals.