AirCoat® atomization principle 混气雾化工作原理
AirCoat® atomization混气雾化:
a) Airless无气: The medium firstly will be atomized airless.
喷涂材料首先被无气雾化
b) Air空气: The already atomized material is fine atomized by air.
预雾化材料被空气精细雾化
AirCoat混气: The combination of the two techniques result in a excellent atomization
两种雾化技术的结合造就了极佳的雾化效果
AirCoat® Spraying Pattern 混气喷涂扇幅
Aircoat atomization 混气雾化优缺点
ADVANTAGES 优点
High speed application 高速喷涂应用
Good surface quality 表面质量好
Low over-spray, high transfer efficiency 低过喷,高上漆率
Medium-high material viscosities can be applied 可用于高粘度材料
High delivery for high surface coverage power 高传播率和表面覆盖能力
DISADVANTAGES 缺点
Less quality surface compared to AirSpray 表面质量比空气喷涂稍逊
Advantages of AirCoat® vs. Airless 混气雾化相对于无气雾化的优点
a) Lower material pressure required 油漆要求压力较低
b) Higher finishing quality 较高的喷涂质量
c) Less overspray 较低的过喷
d) Paint savings of up to 15% 油漆节省高达15%
e) No edge streaks/stripes with high viscosity media 喷涂高粘度材料时没有边条纹
f) Small pump and nozzle wear 较小的供漆泵和喷嘴磨损
Advantages of AirCoat® vs. AirSpray 混气雾化相对于空气雾化的优点
a) Reduced overspray 降低了过喷
b) Higher spraying speed 更高的喷涂速度
c) Material savings up to 40% 油漆节省高达40%
d) High viscosity materials can be applied 可以应用于高粘度材料
r) Up to 75% less air required 节省空气消耗高达75%