| 1. | The mechanism of tackification of rubbers by resins is not completely understood .
有关橡胶被树脂增粘的机理尚未完全了解。 |
| 2. | A new progress in wbn tacky granular anfo
增粘粒状铵油炸药的新进展 |
| 3. | Ovata , standard test method for mucilloid content of plantago insularis ovata , psyllium used as a tackifier
用作增粘剂的岛生车前 |
| 4. | Guar gum can viscosify , stabilize , and emulsify water systems as well as bind moisture to itself
瓜尔胶可增粘、稳定、乳化水体系并能够自身结合水分。 |
| 5. | By mixing a sort of organic silicone liquor , permeable agent and viscous agent at a certain proportion , a kind of permeable water - tight agent has been compounded for asphalt pavement
摘要采用自制的硅树脂溶液,添加渗透剂和增粘剂后合成出一种渗透型硅树脂沥青路面防水抗油剂。 |
| 6. | It was found that the thickness of the film can improved with adding some mucilage glue . a low temperature sinter can acquire a transparent sio2 film on the gold electrode
增粘剂的加入可提高一次涂膜的厚度,低温烧结可在金电极上得到表面光亮的二氧化硅玻璃薄膜,绝缘性能良好。 |
| 7. | The method preparation of finishing adhesive was studied . the effects of different amount of thickening agent , aa and initiator on the properties of adhesive were discussed
摘要研究了装演复膜胶的制备方法,探讨了引发剂用量与转化率的关系及aa用量、不同增粘树脂对粘接性能的影响。 |
| 8. | They are produced through polymerization , process and added many auxiliaries agent in it . these resins have good dissovity , tackfiration and hardness softy . they are widely used to meridian tyre industry
苯乙烯一茚树脂、橡胶专用复合增粘树脂和橡胶专用增粘树脂具有良好的相溶性、增粘性和软化补强性,广泛用于彩色橡胶制品、斜交轮胎、全钢轮胎及子午线轮胎等行业。 |
| 9. | Introduction of product modified cool . self - viscous rubber asphalt waterproof coiled materials are maninly compossd of high - grade sbs asphalt , sbr and other flexble materials intermingled thickener , viscosity increaser and intensifier . polyethy lene and foil can be used to cover the surface
冷自粘橡胶改性沥青防水卷材是以优质沥青sbs和sbr等弹性体材料为基础并掺入增塑剂、增粘剂和填充剂,采用聚乙稀、铝箔为表面覆盖材料或无覆盖材料(双面自粘)而制成的可自行粘结的防水卷材。 |
| 10. | With the coated tih2 , the foaming process of aluminum has been researched in the laboratory . the results indicate that the weight of foamer and viscosity increaser sending to the melt aluminum , the time of agitation and holding at foaming temperature , will influence the structure as well as porosity of foam aluminum , so that the structure of foam aluminum can be adjusted by improvement technology parameter which is practical
西安理工大学工程硕士学位论文利用包覆的发泡剂在实验室对发泡工艺进行了研究,结果表明发泡剂的加入量、增粘剂的加入量、搅拌及保温时间都对制备泡沫铝的孔隙率和孔结构有明显影响,因此,通过调整工艺条件,可以调节泡沫铝的结构。 |
