Your browser is out of date. The site is optimized for IE 9 (not compatibility mode) and above, Chrome 29, Firefox 23 and Safari 6.0.
Skip to content
India - English
This site in other countries/regions:
Select Country to see regional site for Brookfield Engineering
USA
India
UK
Germany
China
Thailand
Toggle navigation
PRODUCTS
Viscometers
Laboratory Viscometers
DV2Plus Viscometer
DVPlus Viscometer
DVNext Rheometer
DVNext Rheometer with Gel Timer Functionality
DVNext Cone/Plate Rheometer
DV2T Touch Screen Viscometer
Dial Reading Viscometer | Standard Viscometer :: Ametek Brookfield Viscometer
CAP2000 Viscometer
KU-3 Viscometer
In-Line Process Viscometers
FAST Viscometer
VTE Electric Viscosel
Viscometer Springs for Accurate Viscosity Measurement
Help Me Choose
Rheometers
RSX Cone Plate Rheometer
RSX Coaxial Cylinder Rheometer
RSX SST Rheometer
RSO Rheometer
PVS Rheometer
Help Me Choose
Texture Analyzers
CTX Texture Analyzer
Help Me Choose
Powder Flow Testers
PFT Powder Flow Testers
Help Me Choose
Moisture Analyzers -Computrac®
Moisture Analyzer - Computrac® MAX 4000XL
Moisture Analyzer - Computrac® MAX 5000XL
Moisture Analyzer - Computrac® Vapor Pro XL
Moisture Analyzer - Computrac® Vapor Pro XL Autosampler
The Computrac Story
Help Me Choose
Why Choose Computrac® Moisture Analyzers?
Computrac Moisture Analyzer | Safer Alternative to Karl Fischer
Toxic Gas Analyzers - Jerome®
Toxic Gas Analyzers - Jerome® Hydrogen Sulfide Analyzers
Toxic Gas Analyzers- Jerome® J605
Toxic Gas Analyzers - Jerome® J631-X
Toxic Gas Analyzers - Jerome® Mercury Vapor Analyzers
Toxic Gas Analyzers - Jerome® J405
Toxic Gas Analyzers - Jerome® J505
Help Me Choose
Why Choose Computrac® Moisture Analyzers?
Software
DV360 Software
DV Create™
DVPlus Connect
PG Flash
Rheo3000
Powder Flow Pro
Texture Pro
Capcalc
Rheovision
RheocalcT
Viscosity Standards
CAP Oil Fluids
General Purpose Oil
General Purpose Silicone
High Temperature Silicone Fluids
Krebs Viscometer Oil Fluids
RST Oil Fluids
Special Order Silicone Fluids
VisCal Kit
Help Me Choose
Temperature Control
Thermosel System
Water Baths
LAUDA Loop 100
TC-150
TC-250
TC-550
TC-650
Accessories
HPQA™, Helipath Quick Action Stand
Enhanced UL Adapter
DIN Adapter
Label Writer
Small Sample Adapter
Spindles Cones Cups Chambers
CAP Spindles
Cone Plate Wells Brookfield Spindles Cups
Extensions
Helipath T-bar Spindles
KU-3 Spindles
Brabender Spindle
RST Spindles
Small Sample Adapter Spindles Chambers
Spiral Adapter Spindle
Vane Spindles
Thermosel Spindles and Chambers
DIN Adapter Spindles
Enhanced UL Adapter Spindles
LV Spindles
PVS Spindle Bobs - Chambers
RV HA HB Spindles
Spindle Rack
Spiral Adapter
CUSTOMER SUPPORT & SERVICES
Calibration and Repair
Repair Forms
Extended Warranty Program - AMECare
ISO/IEC 17025
Technical Support
Knowledgeable Expert Support
Education & Training
Packaging Instructions
Sample Testing Services & Method Development
What our Customers can expect
Warranty and Product Registration
ABOUT US
AMETEK Brookfield Difference
Brookfield Story
About Us
Contact Us
Brookfield Offices
Regional Sales Managers
NEWS
BROOKFIELD UNIVERSITY
EVENTS AND WEBINARS
LEARNING CENTER
APPLICATIONS
Viscosity Applications
Beverages
Apple Juice
Food
Butter and Margarine
Chocolate
Tomato Ketchup
Corn Oil
Mayonnaise
Lubricants
Motor Oil
Paint
Auto Paint - ASTM D4287
Auto Paint - ASTM D7395
Bentonite Clay
Pharmaceuticals
Cough Suppressant and Expectorant
Other Viscosity Applications
Curing or Gelling Materials
Dishwasher Detergent
Flooring Adhesives
Powder Applications
Food and Beverage
Beverage Mixes
Baby Formula
Ground Coffee
Food
Flour
Flour
Spices
Ground Cinnamon
Other Food Products
Baking Soda
Brown Gravy Mix
Brownie Mix
Corn Starch
Pharmaceuticals
Tablet Making
Texture Applications
Cosmetic Applications
Eye Pencil
Lipstick
Lipstick D1321-10
Facial Powder
Healthcare Applications
Microneedle Transdermal Patch
Food and Beverage Applications
Almonds
Banana Chips
Beans
Bread
Bread Bakery
Butter and Margarine
Cheese
Cheese Puffs
Cheese Triangles
Cooked Chicken
Cooked Hamburger - TA52
Cookie Comparison
Creme Fraiche
Curd
Fromage Frais
Gummies
Hard Candy
Processed Cheddar Cheese
Personal Care Products
Moisturizing Cream Consistency
Hair Gel
Moisturizing Cream Firmness
Shampoo
Soap Hardness
Toothpaste Consistency
Toothpaste Firmness
Wax D937
Moisturizing Cream Spreadability
Petroleum Jelly
Articles and Technical Papers
Viscosity Articles
Powder Articles
Texture Articles
Process Articles
Learn About Viscosity
Learn About Texture Analysis
Learn About Powder Flow Analysis
Help Me Choose
Model Selection
FAQ
Product Change Notices
Legacy Instruments
Blog
RESOURCE LIBRARY
ONLINE STORE
Other Viscosity Applications
Curing or Gelling Materials
Dishwasher Detergent
Flooring Adhesives
AMETEK Brookfield India
»
BROOKFIELD UNIVERSITY
»
LEARNING CENTER
»
APPLICATIONS
»
Viscosity Applications
»
Other Viscosity Applications
»
Curing or Gelling Materials
»
Curing or Gelling Materials
Use
Various materials such as epoxies or other composite resins, slow curing adhesives, gelatins or hydrocarbon gels.
Test Equipment
Instrument: Viscometer or Rheometer
Spindle: Choice of either standard spindles, or preferably, disposable spindles and chambers for easy cleanup.
Accessories: Various choices: Small Sample Adapter, TC-550AP Programmable Bath, Thermosel™ with Programmable Controller
Speed: Various possibilities: 100 to 0.01 RPM
Test Method
The Cure Mode algorithm was developed in response to customer concern that their gel timers did not provide viscosity or rheological data. They could not afford expensive rheometers that would monitor gelation or “curing” of materials such as epoxies. This algorithm allows data to be taken over very large viscosity ranges - several decades, in fact. Brookfield Rheocalc™ software is used for instrument control and data acquisition. The software “wizard” in Rheocalc is used - “Cure Mode” is selected, and the wizard guides the user in setting up a test.
In the following example, Brookfield DV3TLV was used with SC4-27RD disposable spindles and SC4-13RD disposable sample chambers. The initial speed was 100 rpm. The viscosity increased as the epoxy system reacted or cured. Each time the measured torque reached 90% of Full Scale Range or “FSR”, the speed was decreased by a factor of 10. The program ended the run when 90% of FSR was reached at the slowest speed - in this case, 0.01 RPM. Figure 1 shows the data.
Figure 1: Epoxy Cure at 23°C
% Torque vs. Time
Each curve represents data for a different
rotational speed (RPM)
Each curve in Figure 2 represents rotational speeds for the spindle. The left-most curve is the torque data at 100 rpm; the right-most curve is 0.01 RPM. Spindle speed decreases by an order of magnitude with each successive time interval.
Figure 2: Spindle Speed vs. Time Data for the Epoxy Cure Test
The reaction or “cure” proceeds faster as the test temperature is increased. Figure 3 shows viscosity changing vs. time for three different control temperatures: 23°C, 50°C and 60°C.
Figure 3: Viscosity vs. Time Data for epoxy cure test at three different temperatures.
Epoxy cure monitored at 23°, 40° and 60°C
<<
Download a pdf of this application note.
MacCMS
×