colza
- n.菜种,菜籽,菜籽(油)
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Study on Properties of Colza Oil Active Fatliquoring Agent
菜油结合型皮革加脂剂的性能研究
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Study on Reservation of Oil Cooked Chilli and Factors of Colza Oil Oxidation
油辣椒制品保鲜及菜籽油氧化因素的研究
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High Temperature Tribological Behaviors of MoS_2 in Colza Oil
MoS2在菜籽油中的高温摩擦磨损性能研究
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Test Report for Seed Dressing Agent Effect Upon Economical Characteristic of Colza and Disease and Insect Damage Degree
种衣剂对油菜经济性状及病虫为害程度影响的试验初报
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The effect of solid lube additives on the friction coefficient of the colza oil at different test temperatures was investigated by using SRV multifunctional testing system .
用SRV多功能试验机研究了试验温度对几种固体润滑剂减摩性能的影响,并考察了固体润滑剂复合体系在不同试验温度时的减摩性能。
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High temperature tribological behaviors of superfine kaolin in colza oil were tested with SRV machine , and wear surface was observed by surface profiler .
采用多功能SRV试验机考察了超细高岭土在菜籽油中的高温摩擦学性能,并利用表面轮廓仪对试块的磨损表面形貌进行观察。
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Formulation basis of salad sauce made from low-sinapic-acid colza oil & optimization of mixing ratio of oil-phase matter , liquid-phase component and emulsifier
低芥酸菜籽油色拉沙司配方基础&油相、水相和乳化剂配比的优选
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A kind of polymeric fatliquor PCF was synthesized via free copolymerization from amided colza oil succinate , acrylic acid and vinyl acetate .
以酰胺化菜籽油马来酸单酯、丙烯酸和醋酸乙烯酯为原料,通过乳液共聚制得了菜籽油聚合物加脂剂PCF。
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The range and variance analysis results indicated that the water-soluble component ( B ) and low-sinapic-acid refined colza oil ( A ) had very significant effects on the test results and so were primary factors ;
通过极差、方差分析,阐明本试验中的水溶性成分(B)和低芥酸精炼菜籽油(A)对试验结果的影响都极为显著,是主要因素;
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This paper studies on the epoxidation of colza oil acid under different conditions , describes the effect of reaction temperature , hydrogen peroxide concentration , catalyst , organo-acid and organo-solvent DBP on the epoxidation .
以732型强酸性阳离子交换树脂作催化剂,对菜子油酸的环氧化反应作了研究,考察了反应温度、H2O2浓度、催化剂用量、不同有机酸及DBP有机介质对环氧化的影响。
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Results show that MoS_2 exhibited very low friction coefficient ( 0.06 ) between 200 ~ 400 ℃ at point contact condition , but it exhibited similar friction coefficient as colza oil did at 100 ℃ and 500 ℃ .
结果表明:在点接触条件下,MoS2在200~400℃范围内表现出非常低的摩擦系数(约0.06),但在100℃和500℃时,其摩擦系数与菜籽油相当;