1) fuel gas/waste tires
燃料气/废旧轮胎
2) waste tyre
废旧轮胎
1.
An introduction on the recycling status of waste tyres;
废旧轮胎综合利用现状简介
2.
Abrasive resistance and shock-proof measures for gate bottom plate with waste tyre;
闸底板抗磨防冲的新方法——利用废旧轮胎保护闸底板
3.
As the development of the automotive industry,more and more "Black Pollution" formed by waste tyre are gradually threatening the human living environment.
随着汽车工业的发展,越来越多的废旧轮胎所形成的“黑色污染”正逐渐威胁着人类的生存环境。
3) waste tyres
废旧轮胎
1.
Industrialization of nonstripping minute negative-pressure pyrolysis technology of waste tyres;
浅谈无剥离微负压废旧轮胎热解技术产业化
2.
The techniques for waste tyres recycling and utilization,including tyre retreating,reclaimed rubber,rubber powder production,pyrolysis,were reviewed.
主要介绍国内外废旧轮胎回收再利用的技术进展,并对国内的废旧轮胎回收利用工作提出了建议。
3.
When the tyres were pyrolyzed,the sulphur in the waste tyres was distributed in the oil and.
通过废旧轮胎热解产物的分布研究该过程的温度效应,发现温度升高,燃料油产率增加,炭黑产率减少,即热解温度从450℃~550℃上升到650℃~750℃,燃料油产率从331% ~354% 增加到432% ~451% ;炭黑产率从462% ~492% 下降为351% ~371% 。
4) Waste tire
废旧轮胎
1.
Technical process and complete equipment of catalytic cracking of waste tires were introduced to prepare charcoal black and fuel oil.
介绍采用催化裂解技术治理废旧轮胎制炭黑和燃料油的工艺流程和成套设备,该工艺设备耗能低、产品质量好,工艺合理, 可连续投料、连续运转,处理效率高,最大限度地降低了二次污染,适合于治理废旧轮胎的产业化发展。
2.
Furthermore, some problems and outlook in recycling waste tire were pointed out.
介绍了目前国内外处理废旧轮胎的主要方法及途径,重点论述了废旧轮胎翻新、热解、制造胶粉的应用情况和研究进展。
5) waste tires
废旧轮胎
1.
The technology of recycling of waste tires is introduced.
对废旧轮胎的各种回收利用技术进行了介绍,废旧轮胎的回收利用方法很多,其中有直接利用方法,包括翻新、用于建筑材料、原形改制等;还有间接利用方法,包括生产再生胶、胶粉、热利用、热裂解等。
6) discarded tires
废旧轮胎
1.
On the impact smash of discarded tires and the kinetic modeling;
废旧轮胎冲击粉碎及动力学模型的研究
2.
To make rubber powder from the discarded tires would be one ofthe most promising ways for treatment at present, which will bothbring the environmental pollution of discarded tires under control andcreate .
随着交通运输业及汽车工业迅猛发展,造成了大量的废旧轮胎被丢弃。
3.
Preliminary study of using discarded tires to produce flower column is conducted in this paper.
初步探讨了利用废旧轮胎固体废弃物制作立体花柱的技术,该技术既可以帮助解决废旧轮胎固体废弃物的污染问题,也有助于解决城市绿化面积少的问题。
补充资料:轮胎气密性
分子式:
CAS号:
性质:轮胎内胎和无内胎轮胎气密层耐透气的性能;丁基橡胶是气密性最好的橡胶。轮胎气密性好,能保持轮胎的气压,就能保证轮胎的使用性能;反之,如气密性不好,轮胎经常在缺气状态下行驶时,易产生早期损坏。测定轮胎内胎和无内胎轮胎气密层耐透气性的试验称为轮胎气密性试验。这一试验对保证轮胎正常使用非常重要,如发现气密性不好,则应经常检查轮胎气压,不足时应及时补气。
CAS号:
性质:轮胎内胎和无内胎轮胎气密层耐透气的性能;丁基橡胶是气密性最好的橡胶。轮胎气密性好,能保持轮胎的气压,就能保证轮胎的使用性能;反之,如气密性不好,轮胎经常在缺气状态下行驶时,易产生早期损坏。测定轮胎内胎和无内胎轮胎气密层耐透气性的试验称为轮胎气密性试验。这一试验对保证轮胎正常使用非常重要,如发现气密性不好,则应经常检查轮胎气压,不足时应及时补气。
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