1) grain structure analysis
颗粒结构分析
2) granule structure
颗粒结构
1.
The application of atomic force microscopy(AFM) in starch granule structure research;
原子力显微镜在淀粉颗粒结构研究中的应用
2.
Effects of heat-moisture treatment on granule structure and physicochemical properties of different starches;
湿热处理对不同淀粉颗粒结构及性质的影响
3.
The granule structure, crystallization and heat characteristic of the formation process of corn resistant starch were studied by Scanning Electron Microscope, X-Ray diffraction and Differential Scanning Calorimetry.
研究了水解-压热法制备玉米抗性淀粉的形成过程,通过扫描电子显微镜、X射线衍射及差示扫描量热法对玉米抗性淀粉形成过程中颗粒结构、结晶结构和热特性的变化进行了分析。
3) granular structure
颗粒结构
1.
The granular structure, crystal structure and gelatinization temp.
用扫描电镜和偏光显微镜研究了热塑性淀粉的颗粒结构,晶态结构和糊化温度,并用X-射线衍射测定了热塑性淀粉的结晶度和峰型,结果表明在压力、温度、剪切力和添加剂的作用下,原淀粉的颗粒结构和晶态结构受到破坏。
2.
Based on the principle of nuclear magnetic resonance(NMR),this paper focused on introducing the application of NMR to starch research such as granular structure,gelatinization,retrogradation,modified starch and so on at home and abroad.
在介绍核磁共振(NMR)的原理基础上,着重综述了NMR在淀粉的颗粒结构、糊化、凝沉、变性淀粉等方面的应用进展。
4) particle analysis
颗粒分析
1.
Some improvements on particle analysis experiment based on densimeter settlement method
对密度计沉降法颗粒分析试验的一点改进
5) grain analysis
颗粒分析
1.
It is particularly suggested that the soil of low plasticity, 10≤Ip≤12, be classified according to the content of clay particles in grain analysis.
通过黏性土、粉性土的试验结果比较,对土的分类所采用的不同试验方法的不同结果关系进行了分析和探讨,特别提出对10≤IP≤12的低塑性土,以颗粒分析中的黏粒含量定名为宜。
2.
A curve fitting and revising methods to solve hydrometer grain analysis is presented, and proved good satisfactory.
提出了密度计法颗粒分析试验的一种曲线拟合及修正方法 ,经验证效果较好。
3.
Several oil monitoring technologies used widely at present are compared and analyzed in detail,including analysis of normal physicochemical characteristics,spectrum analysis,ferrography analysis,grain analysis,etc.
并详细地分析比较了目前应用最为广泛的几种润滑油监测技术,主要有常规理化性能分析、光谱分析、铁谱分析、颗粒分析等。
6) granulometry
[,ɡrænju'lɔmitri]
颗粒分析
1.
Measurement of microcapsules using morphological reconstruction by opening based granulometry;
基于形态学重建颗粒分析的微囊体测量方法
2.
Texture segmentation based on double parameterized granulometry;
基于双参数颗粒分析的纹理分割
3.
Granulometry is analyzed in detail as an example to show this essential connection and we come to the conclusion that the PCNN granulometry algorithm we proposed in this paper is entirely equal to the granulometry algorithm based on mathematical morphology with certain structuring elements.
揭示了有生物学依据的脉冲耦合神经网络 (PCNN)与数学形态学之间的本质关系 ,并以颗粒分析为例进行了具体的分析 ,得到了文中提出的PCNN颗粒分析方法完全等价于一定结构元素下的数学形态学方法的结论 研究表明 ,PCNN进行图像处理时用到的脉冲并行传播特性完全等同于数学形态学中一定结构元素下的腐蚀运算 ,从而为数学形态学与PCNN之间的研究架起了桥
补充资料:颗粒
分子式:
CAS号:
性质:指小而圆的物质。最简单的颗粒形状是圆球。粒径在40~500μm范围内,气固密度差在1400~4000kg/m3之间的颗粒称粗颗粒(coarse particle);粒径在20~100μm范围内,气固密度差小于1400kg/m3的颗粒称细颗粒(fime particle);由许多个粒度间隔不大的粒级颗粒构成的颗粒系统称颗粒群(particle swarm)。
CAS号:
性质:指小而圆的物质。最简单的颗粒形状是圆球。粒径在40~500μm范围内,气固密度差在1400~4000kg/m3之间的颗粒称粗颗粒(coarse particle);粒径在20~100μm范围内,气固密度差小于1400kg/m3的颗粒称细颗粒(fime particle);由许多个粒度间隔不大的粒级颗粒构成的颗粒系统称颗粒群(particle swarm)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条