排序方式: 共有99条查询结果,搜索用时 281 毫秒
1.
根据固体推进剂的细观结构特征,采用等圆最优装载方式生成代表性体积单元(Representative Volume Element,RVE)模型,并结合Voronoi单元有限元方法(Voronoi Cell Finite Element Method,VCFEM)和均匀化方法,发展了一种可预示固体推进剂等效力学性能的数值分析方法,从而得到体分比和组分材料对等效模量和等效泊松比的影响规律。为证明该方法的有效性,设计一个对称数值模型,通过对该方法和传统有限元方法的节点位移结果的比较,发现两者之间的相对误差小于5%,且VCFEM用少量单元就完成了分析,提高了计算效率。通过对不同细观结构下推进剂RVE模型的计算,发现随着夹杂体分比的增大,夹杂的颗粒增强效应越明显,基体材料的变化比夹杂材料对等效力学性能有着更加显著的影响。 相似文献
2.
ABENDINGDAMAGETHEORYFORBEAMSUNDERPUREBENDINGLOADSYangGuangsong;LuYinchu;JinXin(DepartmentofAerospaceTechnology,NUDT,Changsha,... 相似文献
3.
为了增强高昼夜温差地区营房屋面和墙体的抗裂性能,提高营房安全性、舒适性及使用寿命,利用快速冻融法对碳纤维混凝土进行了300次冻融循环试验,并测量其相对动弹性模量和质量损失情况。结果显示:普通混凝土在150次冻融循环试验后试件破坏严重,平均质量损失了0.695 kg,损失率为6.9%;碳纤维混凝土在300次冻融循环试验后外形仍保持较好的完整性,平均质量损失了0.514 kg,损失率为5.19%,相对动弹性模量最多下降了34%,其中体积分数为1%的碳纤维混凝土平均质量损失仅为0.398 kg,损失率为4.05%,相对动弹性模量下降了31%。试验表明碳纤维可以改善混凝土的抗冻性能,适用于高昼夜温差地区建筑。 相似文献
4.
通过实验研究含不同诱导缺陷的复合材料T型接头的弯曲力学性能和失效过程,采用引入脱黏缺陷和三角区填充率缺陷来诱导T型接头的不同失效模式。结果表明不同失效模式下T型接头所表现出来的弯曲力学性能差异极大,完好的T型接头所能承受的载荷为288.5N,界面脱黏会削弱其30%的承载能力,而三角区填充率的减少会导致裂纹在填充区内部引发和扩展,导致T型接头的弯曲力学性能大幅降低。 相似文献
5.
以聚碳硅烷和锑改性聚硅烷为先驱体,利用先驱体转化SiC材料的富余自由碳高温石墨化的微观结构演变特点,采用热压烧结、先驱体浸渍—裂解法以及退火工艺制备出先驱体转化SiC纳米复合材料。采用SEM、TEM、XRD和Raman等测试手段表征和分析了相组成和微观结构,讨论了样品的热导率、电导率和塞贝克系数等热电参数随温度变化关系。研究表明,所得致密SiC纳米复合材料为n型热电材料。由于纳米石墨的作用,材料热导率抑制在4–8W/(m?K)范围。1600°C退火处理能够降低热导率,同时提高电导率和塞贝克系数绝对值,使先驱体转化法得到的SiC纳米复合材料无量纲热电优值ZT达到0.0028(650°C),高于其他已报道的致密SiC/C复合材料和纳米复合材料体系。 相似文献
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Bivariate life distribution models are of importance for studying interdependent components. We present a generic approach by introducing a new concept of characterized model in stead of a characterized distribution. It strikes a balance between characterization and modeling approaches to eliminate their individual limitations and incorporate their respective strengths. The proposed model, being a characterized one, admits many important properties irrespective of the choice of marginal distributions. The retention of univariate IFR, DFR, IFRA, DFRA, NBU, and NWU class properties in the bivariate setup has been ensured along with some results on series combinations and convolution. No other models, available in the literature, can ensure simultaneous retention of these fundamental and extremely important class properties. © 2004 Wiley Periodicals, Inc. Naval Research Logistics, 2004 相似文献
7.
拉应力对管线钢磁导率及磁记忆信号的影响 总被引:1,自引:0,他引:1
运用数值模拟方法,对不同拉应力作用下X60管线钢的相对磁导率μσ的变化情况进行了仿真.结果表明,加载初期试件处于弹性变形阶段时,μσ值变化较大,随应力的增大μσ值迅速减小;加载超过屈服点后,μσ值变化很小,应力的增大已不再对其产生显著影响.磁记忆检测试验表明,进入塑性变形阶段后,信号曲线亦会由起初无规律性分布发展到相近... 相似文献
8.
This work uses the molecular dynamics approach to study the effects of functionalization of carbon nanotubes (CNTs) on the mechanical properties of Cu64Zr36 metallic glass (MG). Three types of functional groups, carboxylic, vinyl and ester were used. The effect of CNT volume fraction (Vf) and the number of functional groups attached to CNT, on the mechanical properties and thermal conductivity of CNT-MG composites was analysed using Biovia Materials Studio. At lower values of Vf (from 0 to 5%), the per-centage increase in Young's modulus was approximately 66%. As the value of Vf was increased further (from 5 to 12%), the rate of increase in Young's modulus was reduced to 16%. The thermal conductivity was found to increase from 1.52 W/mK at Vf=0%to 5.88 W/mK at Vf=12%, thus giving an increase of approximately 286%. Functionalization of SWCNT reduced the thermal conductivity of the SWCNT-MG composites. 相似文献
9.
The mechanical, thermal and ablation properties of carbon phenolic (C-Ph) composites (Type-I) rein-forced with different weight percentages of organo-modified montmorillonite (o-MMT) nanoclay have been studied experimentally. Ball milling was used to disperse different weight (wt) percentages (0, 1,2,4,6 wt.%) of nanoclay into phenolic resin. Viscosity changes to resin due to nanoclay was studied. On the other hand, nanoclay added phenolic matrix composites (Type-II) were prepared to study the dispersion of nanoclay in phenolic matrix by small angle X-ray scattering and thermal stability changes to the matrix by thermogravimetric analyser (TGA). This data was used to understand the mechanical, thermal and ablation properties of Type-I composites. Inter laminar shear strength (ILSS), flexural strength and flexural modulus of Type I composites increased by about 29%, 12%and 7%respectively at 2 wt.% addition of nanoclay beyond which these properties decreased. This was attributed to reduced fiber volume fraction (%Vf) of Type-I composites due to nanoclay addition at such high loadings. Mass ablation rate of Type-I composites was evaluated using oxy acetylene torch test at low heat flux (125 W/cm2) and high heat flux levels (500 W/cm2). Mass ablation rates have increased at both flux levels marginally up to 2 wt.% addition of nanoclay beyond which it has increased significantly. This is in contrast to increased thermal stability observed for Type-I and Type-Ⅱ composites up to 2 wt.%addition of nanoclay. Increased ablation rates due to nanoclay addition was attributed to higher insulation effi-ciency of nanolcay, which accumulates more heat energy in limited area behind the ablation front and self-propagating ablation mechanisms triggered by thermal decomposition of organic part of nanoclay. 相似文献
10.
This work provides a method to predict the three-dimensional equivalent elastic properties of the filament-wound composites based on the multi-scale homogenization principle.In the meso-scale,a representative volume element(RVE)is defined and the bridging model is adopted to establish a theoretical predictive model for its three-dimensional equivalent elastic constants.The results obtained through this method for the previous experimental model are compared with the ones gained respec-tively by experiments and classical laminate theory to verify the reliability of this model.In addition,the effects of some winding parameters,such as winding angle,on the equivalent elastic behavior of the filament-wound composites are analyzed.The rules gained can provide a theoretical reference for the optimum design of filament-wound composites. 相似文献