1) pasting temperature
成糊温度
1.
Here,two methods facilitating accurate measurement of pasting temperature by RVA were described.
淀粉的糊化温度可以用淀粉谱仪(如快速淀粉黏滞性测定仪,Rapid Visco-analyser,RVA)间接测定,但用淀粉谱仪测定的是淀粉的成糊温度(pasting temperature,PT),它是指淀粉黏度刚开始升高时的温度。
2.
The pasting temperature(PT) and peak viscosity(PV) of maize starch obtained by ball-mill technique were investigated.
研究了经球磨处理后的玉米淀粉的成糊温度和峰值黏度。
2) gelatinization temperature
糊化温度
1.
Determination of gelatinization temperature of Lotus Root starch;
莲藕淀粉糊化温度的测定
2.
Effects of gelatinization temperature on amylose crystallization of rice starch;
加热糊化温度对大米淀粉中直链淀粉结晶形成的影响
3.
Physiochemical Analysis of and Molecular Genetic Studies on the Gelatinization Temperature Character in Rice (Oryza Sativa L.);
水稻糊化温度特性的理化基础与分子遗传学研究
3) pastification temperature
糊化温度
1.
Based on the investigating the pastification temperature of several different industrial starches, the influences of different type and different concentration of additives on the pastification temperature of potato starch were probed by testing.
在考察了几种不同工业淀粉的糊化温度基础上,研究了糊化添加剂的种类及某些添加剂的不同浓度对马铃薯淀粉糊化温度的影响。
5) gelatinization temperature(GT)
糊化温度(GT)
6) synthesis temperature
合成温度
1.
Influence of synthesis temperature on polycrystalline diamond
合成温度对聚晶金刚石的影响
2.
In order to obtain the best synthesis temperature of β-eucryptite, samples were synthesized at 1310℃, 1350℃ and 1400℃ with pressed raw block.
为了研究合成β-锂霞石的最佳合成温度,对压成的生料块分别在最高合成温度为1310℃,1350℃,1400℃下进行合成,通过对比不同合成温度下得到的样品X射线衍射图,从而确定出采用直接烧结法合成β-锂霞石的最佳合成温度,并通过研究β-锂霞石的结构特征,解释了其负热膨胀机理。
3.
In order to obtain the best synthesis temperature of cordierite by the method of direct sintering, samples were synthesized with pressed raw blocks respectively at controlled temperatures of 1310℃,1350℃ and 1400℃.
为了研究采用直接烧结法合成堇青石的最佳合成温度,对压成的生料块分别在最高合成温度为1300℃,1350℃,1400℃下进行合成,通过对比不同合成温度下得到的样品X射线衍射图,确定出采用直接烧结法合成堇青石的最佳合成温度。
补充资料:最低成膜温度
分子式:
CAS号:
性质:将乳液涂布在底板上,随着水分的蒸发,聚合物粒子逐步靠拢、互溶形成连续、均匀、透明薄膜。最低温度极限,称为最低成膜温度。低于这个温度,乳液就无法形成涂膜。采用最低成膜温度仪测定。它与高分子的玻璃化温度(Tg)密切相关。
CAS号:
性质:将乳液涂布在底板上,随着水分的蒸发,聚合物粒子逐步靠拢、互溶形成连续、均匀、透明薄膜。最低温度极限,称为最低成膜温度。低于这个温度,乳液就无法形成涂膜。采用最低成膜温度仪测定。它与高分子的玻璃化温度(Tg)密切相关。
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