溶出度试验结果表明微粉化片溶出度达到中国药典普通片质量要求,比进口胶囊剂溶出速度快。
The dissolution test showed that they were accorded with the China Pharmacopia and quicker than that of the imported capsules.
该技术采用微合金化,利用正交试验设计方法,对不同成分搭配的试样进行宏观硬度和冲击韧性测试,优化了合金成分。
The composition was optimized by tiny alloying, orthogonal test design and the hardness and impact toughness test for the different samples with different combination of alloy composition.
在此背景下,对新型建筑保温节能材料——玻化微珠保温混凝土进行理论分析与试验研究具有重要意义。
In this context, material and structural test and theoretical analysis research is meaningful on new energy-saving building material, glazed hollow bead insulation concrete.
在此背景下,对玻化微珠保温混凝土这一新型建筑保温节能材料及其结构进行试验与理论分析研究具有重要意义。
Under this context, material and structural test and theoretical analysis research is meaningful on new energy-saving building material, glazed hollow bead insulation concrete.
为使茶花粉孢子内营养物质能够得到充分释放,采用行星球磨机对茶花粉进行了超微化破壁试验研究。
In this study, a Pulverisette planetary ball mill was used for the ultrafine grinding of camellia pollen in attempt to achieve the full release of intracellular nutrients.
本试验旨在研究发酵前包被微囊化乳酸乳球菌的生物学特性及其对肉仔鸡生长性能的影响。
This experiment was conducted to study the biological characteristics and effects of pre-fermentation microcapsulated Lactococcus lactiss on growth performance of broilers.
通过对汽车轮辐用钢板的铌和稀土微合金化试验和生产实践,分析了铌、稀土元素对汽车车轮用钢组织和性能的影响。
The effect of niobium and rare earth on automobile wheel steel was analyzed by using experimental data and production practice.
然后,通过试验研究来探索玻化微珠混凝土导热性能、强度及工作度随玻化微珠掺量变化而变化的情况。
Then, it was explored that the concrete heat conduction performance, the intensity and the job degree development with the quantity change of the glazed hollow bead.
随着计算机技术、自动化控制技术、高精度测微技术的进步,试验检测技术在最近的20年里有了突破性的进展。
With computer technology, automatic control technology, high-precision micrometer technology, test technology in the last 20 years have seen a breakthrough.
在热模拟试验机上研究了控轧控冷工艺对微合金化低碳贝氏体型非调质钢组织性能的影响,并探讨了贝氏体转变机制问题。
The effect of TMCP parameters on microstructure and property was studied, and a controversial question about bainite transformation mechanism also was discussed.
在热模拟试验机上研究了控轧控冷工艺对微合金化低碳贝氏体型非调质钢组织性能的影响,并探讨了贝氏体转变机制问题。
The effect of TMCP parameters on microstructure and property was studied, and a controversial question about bainite transformation mechanism also was discussed.
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