1) air-cushion conveyor
气垫式输送机
1.
According to the operation experience for many years,we analyzed the failure causes of air-cushion conveyor and effective treatment methods for it in terms of maintenace.
根据多年的运行经验,从使用维护的角度,分析气垫式输送机出现的故障原因及有效的处理方法。
2) air cushion belt conveyor
气垫带式输送机
1.
Application of air cushion belt conveyors in power plant coal conveying system;
气垫带式输送机在电厂输送系统中的应用
2.
The development of second-generation air cushion belt conveyor;
第2代气垫带式输送机的研制
3) air-cushion belt conveyor
气垫带式输送机
1.
Structural study of plenum chamber of air-cushion belt conveyor;
气垫带式输送机气室结构的分析研究
2.
Modelling of latitudinal flow field in air-cushion belt conveyor;
气垫带式输送机气垫横向出流理论模型的研究
3.
Study and numerical simulation of air cushion pressure field of air-cushion belt conveyor;
气垫带式输送机气垫压力场研究与数值模拟
4) new-type air cushion belt conveyers
新型气垫带式输送机
1.
In April 2003,new-type air cushion belt conveyers come into the thermal power plants.
2003年4月, 新型气垫带式输送机进入热电厂, 经过两年多生产运行, 经济效益和社会效益显著, 再次引起注目, 为气垫带式输送机的广泛应用提供了新鲜经验。
5) the air cushion rubber conveyer belt
气垫式胶带输送机
1.
Creating an even and steady air cushion is the crucial technique of the air cushion rubber conveyer belt,In the paper based on years of practices and references from home and abroad,we analyse the mechanism of the shaping of an air cushion and its interreacted factors futher more, we introduce the interrelations of the factors and a reasonable choice of each parameter.
气垫式胶带输送机的技术关键是形成一层均匀稳定性的气膜,根据多年来的实践经验和国内外资料,我们分析了气膜形成的机理及其影响因素,并介绍各因素的相互关参数的合理选择。
6) air-cushioned belt conveyor
气垫胶带输送机
1.
The key of designing the air-cushioned belt conveyor is precisely calculating the main parameters.
设计气垫胶带输送机的关键是准确计算基本参数。
补充资料:气垫成型
分子式:
CAS号:
性质:是柱塞和压缩空气并用的一种热成型方法。将塑料板材或片材加热后与框架一起轻轻地移向阴膜,然后由阴模底处通入压缩空气,把加热的塑料板或片吹鼓,多余的气体从板材和阴模的缝隙中逸出,同时从板材上面通过柱塞孔吹出已加热的空气,这进板材处于两个空气缓冲层之间,柱塞逐渐下降,板材或片接近模底时停吹压缩空气,相反对阴模型腔抽真空,使板材紧附在阴模表面上成型。此法可以减少制品上拉伸纹、模纹,还可防止底面厚度不均。
CAS号:
性质:是柱塞和压缩空气并用的一种热成型方法。将塑料板材或片材加热后与框架一起轻轻地移向阴膜,然后由阴模底处通入压缩空气,把加热的塑料板或片吹鼓,多余的气体从板材和阴模的缝隙中逸出,同时从板材上面通过柱塞孔吹出已加热的空气,这进板材处于两个空气缓冲层之间,柱塞逐渐下降,板材或片接近模底时停吹压缩空气,相反对阴模型腔抽真空,使板材紧附在阴模表面上成型。此法可以减少制品上拉伸纹、模纹,还可防止底面厚度不均。
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