目前对单轴蠕变的数值模拟时建立的模型为连续均质体,很难真实地模拟实际情况。
Currently, most reconstruction model for uniaxial creep of numerical simulation is continuous homogeneous, which is difficult to simulate actual situation.
岩石的结构是极其复杂的非连续和非均质体,其力学属性具有非线性、各向异性及随时间变化的流变特性。
The structure of rock is extremely complicated discontinuous and heterogeneous body, its mechanics property has non-linear, anisotropism and rheology characteristic, which changed over time.
释放面积,桨的搅拌速度及释放介质均影响脂质体凝胶的溶蚀及药物的释放。
Drug release rate was significantly influenced by release area, stirring speed of peddles and the sorts of dispersion mediums respectively.
单核原生质体再生菌丝的菌落形态、菌丝生长速度和营养缺陷型标记等性状均稳定地保持了亲本的特性。
The characters of parents, such as morphology of colony, growth rate of mycelium and auxotroph, were maintained in protoplasted monokaryon.
结论薄膜蒸发-高压均质法适合于制备槲皮素脂质体。
Methods The film dispersion-homogenizing method was used to prepare quercetin liposomes.
结果表明,脂质体组主动脉内膜粥样硬化斑块面积、血脂各项指标及血液流变学等均显著改善。
The results showed that the size of atherosclerotic plaques and TC, HDL-CH, LDL-CH, HDL-PL, TG and blood viscosity were also significantly decreased.
SGM基质镜质体除了生成气态烃外,还可以生成一定数量的液态烃,而MYG均质镜质体则主要以生成气态烃为主。
SGM have the ability to generate liquid hydrocarbons beside gas hydrocarbon generation, but MYG vitrinite is mostly the gas-prone.
结果HCPT包衣纳米脂质体给药组的瘤重抑制率及肿瘤坏死范围均显著高于其他几种制剂给药组(P<0.05)。
RESULTS The two evaluating indices of the CS-Cl-coated HCPT nanoliposomes were both significantly higher than those of the other four groups(P<0.05).
本发明中利用脂质体的微囊结构,将脂溶性维生素包裹在内部并与水溶性维生素形成均质、稳定的水剂。
In the invention, liposoluble vitamins are coated in a microcapsule structure of the liposome and form a homogenized and stable water aqua with water-soluble vitamins.
本发明中利用脂质体的微囊结构,将脂溶性维生素包裹在内部并与水溶性维生素形成均质、稳定的水剂。
In the invention, liposoluble vitamins are coated in a microcapsule structure of the liposome and form a homogenized and stable water aqua with water-soluble vitamins.
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