Manual

ManualsBrandsBrookfield ManualsMeasuring instrumentsFalling Ball KF20

Brookeld Engineering Labs., Inc. Page 5 Manual No. M09-352-B0411

I.3 Details on Viscosity Measurement Range

Per DIN 53015, the Falling Ball method is suitable for measuring dynamic viscosities ranging

from 0.6 mPa•s to 250,000 mPa•s at temperatures from -60ºC to 150ºC. Use is made of six

balls having different diameters, each ball covering part of the range. All guideline values and

referenced parameters in the following table are per DIN 53015.

Ball

No.

Viscosity

measurement

range (guide-

line value)

(mPa•s)

Material

(Recom-

mendation)

Density

(guideline

value)

(g/cm

Ball diameter

(mm)

Deviation

from

circularity

(mm)

Calibration

constant

(guideline value)

(mPa•s•cm

/g•s)

1 0.5 to 10 Borosilicate

glass

2.4 15.81 ± .01 ± 0.0005 0.007

2 9 to 140 Borosilicate

glass

2.4 15.6 ± 0.05 ± 0.0005 0.09

3 40 to 700 Ni/iron 8.1 15.6 ± 0.05 ± 0.001 0.09

4 150 to 5,000 Ni/iron 8.1 15.2 ± 0.1 ± 0.001 0.7

5 1,500 to 50,000 Ni/iron 8.1 14.0 ± 0.5 ± 0.001 7

6 Above 7,500 Ni/iron 8.1 11.0 ± 1 ± 0.002 35

I.4 Description of the Equipment

Refer to Figures 1 through 4. Specic items identied on the Falling Ball Viscometer are identied by

parentheses ( ) in the following steps:

1. The Falling Ball Viscometer

must be level. The level is adjusted using the two Leveling

Screws (4) on the base. Adjust so that the bubble level on top of the Falling Ball Viscometer

is centered within the circle. Check level periodically during use.

2. a. The working angles of the KF20 are 80°, 70°, 60° and 50° relative to horizontal. The

DIN 53015 working position of 80° is the preferred position. The different working

angles are secured by a locking adjustment screw (5). To select a working angle, the

adjustment screw (5) should be loosened by turning it counter-clockwise approximately

one rotation. After the working angle is selected, the adjustment screw should then be

tightened again.

b. The working angle of the KF10 Viscometer is xed at the DIN 53015 position of 80°

relative to horizontal.

3. The two running directions of the balls can be chosen by swivelling the viscometer, which

is mounted in the stand, and is secured by a locking mechanism (14).

4. The sample tube (6) is surrounded by a water jacket which is xed between the upper plate

(7) and lower plate (8). The upper locking plug (16) with lid (20), the lower locking plug

(17) and accompanying seals (gaskets and washers) (19), and the caps (18) are designed to

perform the following functions within the sample tube:

a. keep the liquid sample tightly sealed