MSE PRO Advanced Contact Angle Meter/Goniometer/ Pendant Drop Tensiometry
MSE PRO™ Advanced Contact Angle Meter/Goniometer
MSE Supplies offers advanced contact angle meter. This is one of our most accurate and advanced model. It is equipped with automatic aspiration and injection system with accuracy of 0.01μL, which is perfect for small area measurement. It can be used to measure the hydrophobicity, wettability, surface tension, interfacial tension and many other test functions. A contact angle meter is also known as a contact angle goniometer and pendant drop tensiometer. It is a scientific instrument used to measure the contact angle formed between a liquid droplet and a solid surface. This measurement provides valuable information about the wettability of the surface by the liquid. It is widely used for materials science, surface chemistry, engineering, and many other fields.
Brand: MSE PRO™
Manufacturer: MSE Supplies LLC
Specification:
| SKU | MA2113 |
| Dimension (WxDxH) | 800mm x 190mm x 640mm |
| Weight | 16kg |
| Power Supply | 100~240VAC, 50/60Hz |
| Base Material | Aluminum |
| Stage Area | 160mm × 200mm |
| Platform Control | Manual (can be upgraded to automatic) |
| Platform Moving Range | 60mm x 35mm x 80mm |
| Moving Accuracy | ±0.1mm on each side |
| Measurement Range | 0°~180° |
| Measurement Accuracy | ±0.01° |
| Syringe Volume | 100μL/500μL/1000μL (500μL standard) |
| Needle Diameter | 0.51mm |
| Flow Rate | 1μL/min~2000μL/min |
| Syringe Accuracy |
0.01μL |
| Camera System | USB 3.0 CMOS camera: 200fps |
| Camera Resolution | 5000(H) x 4000(V) |
*Please contact us for detail specification and accessories guidance.
Measurement Method :
a. Sessile drop
b. Liquid increase
c. Shrinkage
d. Tilt angle
e. Hanging drop
f. Fiber wrap
g. Bubble capture
h. Batch fitting
I. Plug in
Measurement Function:
a. Surface energy analysis
b. Static contact angle measurement
c. Foward/backward angle
d. Dynamic video measurement
e. Captive bubble
f. Top view measurement
g. Surface interfacial tension
Fitting Method:
a. Differential circle method
b. Differential ellipse method
c. Dot/Three dot method
d. Ellipse method
e. Width and height method
f. Concave surface method
g. Convex surface method
h. Young-Laplace method
I. Five point method