Brookfield DV-III Ultra Rheometer User Manual

Brookfield Engineering Laboratories, Inc.

Page 109

Manual No. M/98-211-B0104

Brookfield Engineering Laboratories, Inc.

Page 109

Manual No. M98-211-E0912

Table D-2 lists the model codes and spring torque constants for each Rheometer model.

Table D-2

MODEL

TK

MODEL CODE ON

DV-III ULTRA SCREEN

LVDV-III Ultra

0.09373

LV

2.5xLVDV-III Ultra

0.2343

4L

5xLVDV-III Ultra

0.4686

5L

1/4 RVDV-III Ultra

0.25

1R

1/2 RVDV-III Ultra

0.5

2R

RVDV-III Ultra

1

RV

HADV-III Ultra

2

HA

2xHADV-III Ultra

4

3A

2.5xHADV-III Ultra

5

4A

HBDV-III Ultra

8

HB

2xHBDV-III Ultra

16

3B

2.5xHBDV-III Ultra

20

4B

5xHBDV-III Ultra

40

5B

The full scale viscosity range for any DV-III Ultra model and spindle may be calculated using the

equation:

Full Scale Viscosity Range [cP] = TK ∗ SMC ∗

10,000

______

RPM

Where:

TK

= DV-III Ultra Torque Constant from Table D-2

SMC = Spindle Multiplier Constant listed in Table D-1

The Shear Rate calculation is:

Shear Rate (1/sec)

=

SRC * RPM

Where:

SRC = Shear Rate Constant from Table D-1

Using Non-standard spindles with DV-III Ultra and RHEOCALC Software

Spindle Entry 99 allows entry of spindle constants which the DV-III Ultra will use to calculate

Viscosity, Shear Rate and Shear Stress for spindles in boundary conditions other than the 600ml

beaker or specified chamber.

The spindles must conform to geometries that allow for mathematical calculations of Shear Rate

and Shear Stress i.e. coaxial cylinder.