排序方式: 共有48条查询结果,搜索用时 15 毫秒
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研究了Mg—Fe类水滑石(HTIc)/高岭土(kaolinite)悬浮体的质量比(R)对其流变性和触变性的影响,发现控制剪切速率(D)得到的屈服应力(τy)和控制剪切应力(τ)得到的临界剪切应力(τc)皆随R拘增大先降低后升高.小幅振荡剪切实验发现随R的增大,体系由正触变性转化为复合触变性,其中用小幅振荡剪切法在线性粘弹区发现复合触变性体系还是首次.恒剪切速率(DL)实验发现了震荡现象,即粘度随时间发生周期性升高和降低的变化.震荡现象与DL和R有关,较高的DL和尺可使震荡现象消失.测定粘度随时间变化时采用的低剪切速率(DL)影响体系的触变性类型.根据HTIc和kaolinite粒子间的相互作用对实验结果的机理进行了探讨. 相似文献
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HTPB复合底排药压缩屈服应力模型研究 总被引:2,自引:0,他引:2
目前广泛应用于底排增程技术的 HTPB 复合底排药 (composite base bleed grain,CBBG) 是一种颗粒填充含能材料,战场环境中将承受冲击、温度等载荷作用. 为研究 HTPB CBBG 冲击压缩力学性能,进行了不同温度 (233$\sim$323 K) 和应变率 (1100$\sim$7900 s$^{-1}$) 下的分离式霍普金森压杆实验. 实验结果表明,各工况下,应力应变曲线均呈现屈服-$\!$-应变硬化特征,HTPB CBBG 保持高韧性. 提高应变率和降低温度均导致相同应变下的应力幅值上升,但温度较应变率对HTPB CBBG 冲击压缩力学性能的影响更为显著. 基于所研究温度范围高于 HTPB CBBG 玻璃化转变温度,通过将水平、垂直移位因子与温度的关系表示为 WLF 方程的形式,将时温等效原理引入协同模型,并计及内应力的应变率增强效应,提出了一种新的屈服应力模型.选取参考温度,利用水平、垂直移位因子-$\!$-温度曲线和屈服应力主曲线拟合模型参数.模型预测值与实验数据对比结果表明:该模型可准确表征 233$\sim$323 K 时 HTPB CBBG 屈服应力的双线性应变率相关性,明确了较低和较高应变率时,应变率效应分别主要由内应力和驱动力贡献. 相似文献
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Mustafa Yavuz 《高分子科学》2007,(4):347-355
Electrorheological (ER) properties of polyaniline (PAni), pumice and polyaniline/pumice composites (PAPC) were investigated. Polyaniline and PAni/pumice composite were prepared by oxidative polymerization. PAni/pumice particlesbased ER suspensions were prepared in silicone oil (SO), and their ER behavior was investigated as a function of shear rate, electric field strength, concentration and temperature. Sedimentation stabilities of suspensions were determined. It has been found that ER activity of all the suspensions increases with increasing electric field strength, concentration and decreasing shear rate. It has shown that the suspensions have a typical shear thinning non-Newtonian viscoelastic behavior. Yield stress of composite suspensions increased linearly with increasing applied electric field strength and with concentrations of the particles. The effect of high temperature on ER activity of purrfice/silicone oil systems was also investigated. 相似文献
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Effect of non-hydrostatic stress on X-ray diffraction in a diamond anvil cell (DAC) is studied. The pressure gradient in the sample chamber leads to the broadening of the diffraction peaks, which increase with the hkl index of the crystal. It is found that the difference between the determined d-spacing compressive ratio d/d0 and the real d-spacing compressive ratio dr/d0 is determined by the yield stress of the pressure transmitting media (if used) and the shear modulus of the sample. On the basis of the corrected experiment data of Mao et al. (MXB86), which was used to calibrate the most widely used ruby fluorescence scale, a new relationship of ruby fluorescence pressure scale is corrected, i.e., P = (1904/9.827)[(1+λ/λ0)9.827-1]. 相似文献
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磁流变液屈服应力的管道流测试方法研究 总被引:13,自引:2,他引:13
设计加工了一套磁流变液测试设备,并对由不同组分的铁粉/硅油组成的磁流变液进行了一系列的实验测试,结果表明:用钴纳米粒子修饰铁粉可以提高此种磁流变液的屈服应力,而用醋酸处理铁粉会严重减弱其屈服应力。 相似文献
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浓悬浮体的屈服应力和最大填充率 总被引:2,自引:0,他引:2
对剪切稀化的浓悬浮体,假设在剪切状态下结构参数变化的速率服从一级动力学关系,在此基础上导出浓悬浮体最大填充率与剪应力、屈服应力与填充率之间关系的数学模型.用硅粉-甘油水溶液及可可粉-可可脂两种悬浮体的实验确认了模型对工业微米级颗粒悬浮体的适用性 相似文献
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用 HAAKE RV2 0型流变仪 ,在不同外加电场强度和不同颗粒体积分数下测试了基于沸石和硅油的电流变液的剪切应力变化 .结果表明 :随着外加电场强度升高 ,电流变液的零电场粘度急剧增加 ,电流变液的剪切屈服应力增加 ;随着电流变液中沸石颗粒体积分数升高 ,电流变液的剪切屈服强度急剧上升 .这种变化可以用颗粒间作用力与颗粒间距的关系、单位面积的颗粒链数目变化以及多体作用对电流变液性能的影响来解释 相似文献
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Cementations formed in geological timescale are observed in various stiff clays.A micromechanical stress strain model is developed for modeling the effect of cementation on the deformation behavior of stiff clay.The proposed approach considers explicitly cementations at intercluster contacts,which is different from conventional model.The concept of inter-cluster bonding is introduced to account for an additional cohesion in shear sliding and a higher yield stress in normal compression.A damage law for inter-cluster bonding is proposed at cluster contacts for the debonding process during mechanical loading.The model is used to simulate numerous stress-path tests on Vallericca stiff clay.The applicability of the present model is evaluated through comparisons between the predicted and the measured results.In order to explain the stress-induced anisotropy arising from externally applied load,the evolution of local stresses and local strains at inter-cluster planes are discussed. 相似文献
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