排序方式: 共有36条查询结果,搜索用时 15 毫秒
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为对急倾斜上保护层开采过程中,保护层开采多参数同时变化时的保护效果变化规律进行量化研究,将被保护层膨胀变形曲线的形态参数作为保护效果考察指标,基于可旋转CCD试验方案进行有限元计算,建立了保护层开采保护效果的响应面模型,得到了不同保护效果指标受多个保护层开采参数变异影响的敏感度。通过对急倾斜上保护层开采实例进行敏感度分析得到:范围相关保护效果指标受保护层开采参数变异影响的敏感度最高,位置相关保护效果指标敏感度次之,卸压程度相关保护效果指标敏感度最小。范围相关保护效果指标中,上部卸压角受侧压系数变异影响最敏感,敏感度为1.70;下部卸压角受层间距变异影响最敏感,敏感度为1.02;倾向保护范围长度受层间距变异影响最敏感,敏感度为-1.89。 相似文献
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为研究灭火剂与弹性密封材料的相容性问题,开展2种新型高沸点灭火剂2-溴-3,3,3三氟丙烯(2-BTP)、全氟己酮(Novec 1230)与飞机固定式灭火系统中3种常用密封橡胶材料硅橡胶(SI)、氟橡胶(FKM)和氟硅橡胶(FVQM)的全浸泡和反复浸泡实验,并对实验后橡胶基础物理参数与表面微观形貌进行测试与分析.结果表... 相似文献
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Manufacture of strand board made from construction scrap wood 总被引:1,自引:0,他引:1
Andi Hermawan Takeshi Ohuchi Ryo Tashima Yasuhide Murase 《Resources, Conservation and Recycling》2007,50(4):415-426
The objective of this research was to evaluate the physical and mechanical properties of strand board made from construction scrap wood. The strand board was manufactured using Sugi (Cryptomeria japonica D. Don) and Douglas-fir (Pseudotsuga japonica) strands selected from construction scrap wood. The strands were oriented, and three-layer (face/core/face) strand board of three types was produced: one in which the strands of the face layer were oriented at a right angle to those of the core layer (R board), another in which the strands of the face layer were oriented parallel to those of the core layer (P board), and a third in which the strands of both layers were oriented at random (Ra board). The physical and mechanical properties of the boards were evaluated based on Japanese Industrial Standard (JIS). The main results obtained are as follows: the bending strength of the strand board with a density larger than 0.55 g/cm3 exceeded the standard value of type 18 particleboard of JIS A 5908. The bending strength of the strand board was affected by board density, strand orientation and resin content, and became larger with increased density as well as resin content. That of the parallel specimen of P board was the largest among the specimen-orientations and types. The internal bond strength of the strand board with a density larger than 0.55 g/cm3 exceeded the standard value of type 18 particleboard and type 24-10 particleboard of JIS A 5908. The internal bond strength was markedly affected by the resin content of the core layer, and became larger with increased density. The thickness swelling of the strand board decreased with increased resin content, and become larger with increased density. 相似文献
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Mechanical Properties with the Functional Group of Additives for Starch/PVA Blend Film 总被引:1,自引:0,他引:1
This paper deals with the mechanical properties and degree of swelling (DS) of starch/PVA blend film with the functional groups
i.e., hydroxyl and carboxyl group, of additives. Starch/PVA blend films were prepared by using the mixing process. Glycerol
(GL) with 3 hydroxyl group, sorbitol (SO) with 6 hydroxyl group, succinic acid (SA) with 2 carboxyl group, malic acid (MA)
with 1 hydroxyl and 2 carboxyl group, tartaric acid (TA) with 2 hydroxyl and 2 carboxyl group and citric acid (CA) with 1
hydroxyl and 3 carboxyl group were used as additives. The results of measured tensile strength (TS) and elongation (%E) verified
that both hydroxyl and carboxyl group as a functional groups increased the flexibility and strength of the film. Values of
DS for GL-added and SA-added films were low. However, DS values of the films added MA, TA or CA with both hydroxyl and carboxyl
group were comparatively high. When the film was dried at low temperature, the properties of the films were evidently improved.
The reason is probably because the hydrogen bonding was activated at low temperature. 相似文献
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本文简述了雷州半岛胀缩土地裂缝的特征及分布发育规律;分析了胀缩土地裂缝的成因。认为雷州半岛胀缩土地裂缝的形成发育是胀缩土以及气候、植被、地形地貌、水文地质作用等因素综合作用的结果。其中胀缩土含大量的亲水矿物和失水产生向心收缩的特性从而成为地裂缝成生发展的内因。而特定的气候、植被、地形地貌、水文地质作用等外部环境条件则是导致胀缩土失水和发展形成地裂缝的重要外因。桉树是一种吸水-蒸腾能力极强的树种,树根的干燥作用是导致了林区土体干燥-收缩和形成收缩应力场及在林地边缘产生地下暗裂缝的关键因子,而极端的干旱气候环境和久旱后第一场大暴雨则是暗裂牵动式胀缩土地裂缝发育形成不可或缺的因素。胀缩土地裂缝灾害应重在预防,有关的策略包括防水保湿、科学植树、建筑设计和地基处理、科学选址。 相似文献
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针对废弃碳纤维增强聚合物基复合材料(CFRP)在机械法回收过程中碳纤维长度和强度损失较高的难题,采用醋酸溶胀法改善CFRP机械加工性能,以降低碳纤维长度和强度损失,提高CFRP机械回收产物再利用价值。结果表明,CFRP中的固化环氧树脂(CEP)能够在醋酸介质中快速溶胀并发生轻微降解。CFRP在140 °C醋酸中浸泡1 h会发生软化现象(树脂溶胀率和降解率分别为78.88%和4.49%),当温度提升至160~220 °C后CFRP会发生分层现象(树脂溶胀率为101.54%~147.00%,降解率为9.08%~14.40%)。这些软化或分层产物易于被机械裁切成细条状、薄片状或其他各种形状。将烘干后的裁切产物或分层产物与适量未固化环氧树脂混合,采用热压法可重新制备CFRP。新制备的CFRP的抗弯强度可达到原始CFRP的47%~89%。本研究结果可为热固性环氧树脂复合材料绿色回收提供参考。 相似文献