1) SBR wastewater
丁苯橡胶废水
1.
Effect of the inorganic ion on treatment of SBR wastewater by Fenton reagent
无机离子对Fenton试剂处理丁苯橡胶废水效果的影响
2) neoprene wastewater
氯丁橡胶废水
1.
The application of Hydrolysis-aerobic process in neoprene wastewater treatment;
水解—好氧工艺在氯丁橡胶废水处理中的应用
3) styrene butadiene rubber
丁苯橡胶
1.
Preparation of epoxidized styrene butadiene rubber by formic acid-hydrogen peroxide;
用甲酸-过氧化氢法制备环氧化丁苯橡胶
2.
Effect of increasing conversion on performance of emulsion polymerized styrene butadiene rubber;
提高转化率对乳聚丁苯橡胶性能的影响
3.
Treatment of waste water from styrene butadiene rubber production with mixed system of ferrous sulfate and hydrogen peroxide;
用硫酸亚铁和过氧化氢混合体系处理丁苯橡胶生产废水
4) SBR
丁苯橡胶
1.
Production of SBROMMT Nanocomposites by Emulsion Intercalation Method on a Pilot Scale;
乳液插层法制备丁苯橡胶/有机蒙脱土纳米复合材料中试研究
2.
The Structure and Properties of SBR/OMMT Nanocomposites by Emulsion Intercalation Method;
乳液插层法制备丁苯橡胶/蒙脱土纳米复合材料的结构与性能
3.
Advances on Development of SBR Thermoplastic Elastomers;
丁苯橡胶类热塑性弹性体的研究进展
5) styrene-butadiene rubber
丁苯橡胶
1.
Flame retardance effect of decabromobiphenyl oxide/aluminum hydroxide on styrene-butadiene rubber;
十溴联苯氧化物/氢氧化铝对丁苯橡胶的阻燃作用
2.
Development situation and proposal for manufacturing of emulsion styrene-butadiene rubber in China;
我国乳聚丁苯橡胶现状及发展建议
3.
Correlation of changes of air aging properties of styrene-butadiene rubber;
丁苯橡胶热空气老化性能变化之间的相关性
6) Butadiene styrene rubber
丁苯橡胶
1.
The feasibility of using butadiene styrene rubber and butadiene rubber as forming agent of cemented carbide has been studied.
研究了丁苯橡胶与顺丁橡胶作为硬质合金成形剂的可行性。
2.
The effect of adhesion performance of butadiene styrene rubber / natural rubber(SBR / NR) to galvanized steel cords with different loading of cobalt boroacylate was investigated.
研究硼酰化钴的用量变化对丁苯橡胶/天然橡胶与镀锌钢丝粘合的影响,通过表面分析对其粘合机理进行了研究。
3.
Study is made on brittle reducing and toughening of micro-expansion high strength grouting material using three toughening materials of water borne epoxy resin,butadiene styrene rubber and rubber powder.
采用水性环氧树脂、丁苯橡胶、橡胶粉3种增韧材料对微膨胀高强灌注料进行减脆增韧研究,对抗压、抗折强度和荷载-变形进行测试,通过对压折比、弹性模量、折弹比等分析表明,所用增韧材料使其脆性降低、韧性提高。