Proteases in milk and gelation of UHT milk;
乳中蛋白酶與UHT乳貯存中的膠凝現象
The gelation time was shortened greatly owing to the catalysis mode of ac.
在不使用任何有機溶劑的條件下,使用氨水調節pH值,正硅酸乙酯-硝酸鉀-硝酸鋁-水體系在5~12min內即迅速膠凝。
The effects of protein concentration and pH on protein solubility, gel strength, cooking loss and heat-induced gelation properties of porcine leg myofibrils were investigated.
本實驗探討了蛋白濃度和 pH 值對豬腿纖維蛋白的溶解度、凝膠強度、蒸煮失重以及熱致膠凝性質的影響。
Effect of pyrolysis atmosphere on properties of BLT ferroelectric films deposited by sol-gel method;
熱分解氣氛對溶膠-凝膠法制備BLT鐵電薄膜性能的影響
Chemistry Mechanism Discussion of Preparing HAP with Sol-gel Method;
溶膠-凝膠法制備羥基磷灰石粉體化學機理分析
Synthesis of the blue long afterglow phosphor Sr_2MgSi_2O_7:Eu,Dy by sol-gel method and its luminescent properties;
溶膠-凝膠法合成藍色長余輝材料Sr_2MgSi_2O_7:Eu,Dy及其發光特性
The Syntheses of a High Temperature Gellant in Acid Stimulation Using Invert Emulsion Polymerization;
反相乳液法合成高溫酸化膠凝劑的研究
Aiming at the special oxidizability of NTO,three different gellants were chosen which could form gel with NTO,and their rheologic properties were studied.
針對四氧化二氮(NTO)的特殊氧化性,篩選了三種不同膠凝劑與NTO形成凝膠,對其流變性能進行研究,并結合發動機試驗、限流圈試驗、發動機頭部液流試驗,驗證了其與偏二甲肼(UDMH)凝膠組成的雙組元推進劑用于凝膠發動機試驗的可行性。
This paper presented a survey on the research of the gel propellant H-70, especially the preparation technics, including selection of the gellant and the disperse etc.
文中對肼-70膠體推進劑的國內外研究現狀作了概述,著重對其制備工藝進行了具體介紹,包括膠凝劑的選擇、分散工藝等方面,并通過實驗對比發現對于肼-70體系而言,添加相同含量的B類膠凝劑成膠效果優于A類膠凝劑。
Influence of Decreasing Temperature Rate on Gelling Property of Crude Oil;
降溫速率對原油膠凝特性的影響
The gelling property of the cheap gelling material of Xiangxi Gold Mine and its mechanism analysis;
湘西金礦新型廉價膠凝材料的膠凝特性及其機理分析
Studies are also carried out on its chemical stability and the mechanism of gelling property.
對熱燜粉化鋼渣的材料來源以及工程特性進行了分析 ,并通過非機動車 4號線埋管工程、肇嘉浜路、北虹路排管工程等試驗路的實際應用 ,對熱燜粉化鋼渣作溝槽回填材料進行試驗研究 ,并對其化學穩定性和膠凝特性機理進行了探
Titania nanoparticles were then filled into the gaps among the nanorods through an infiltration sol–gel procedure to form a composite titania film with an ordered nanostructure.
用雙氧水低溫氧化金屬鈦片的方法制備了TiO2納米棒陣列,并以該陣列為基體,用浸漬滲透溶膠–凝膠技術制備了TiO2納米顆粒嵌入TiO2納米棒陣列基體的復合結構薄膜。
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