Download - Fundamentals of Melt Flow Testing
MELT FLOW TESTING
ISO 1133, ASTM D1238
Both Melt Flow and Rheology Tests can be very helpful
tools for QC monitoring and development of polymers.
This presentation is designed to be an informative
introduction and guide to Melt Flow test, and to assist
with troubleshooting inconsistencies in results.
MELT FLOW
Melt Mass-Flow Rate(MFR) The mass of material flowing through a die at a specified
temperature (g/10 min)
Melt Volume Rate(MVR) The volume of material flowing through a die at a
specified temperature (cm3/10 min)
MVR = MFR/density of material at melted state
“Measure of the ease of flow of melted polymer”
MELT FLOW: Typical
Index for QC of
thermoplastics
WHY MELT FLOW?
• Melt Flow is a Typical Index for polymer materials
• Verify incoming/entrance material
• Check regular quality control of material
• Compare new materials in a product development setting
• Predict how a polymer will behave in a number of processing
techniques
Raw Material Producers
Compounders
Manufacturers/Convertors
A TRUE STORY
As an example of an actual case of how Melt Flow information can be
used:
An injection molded polycarbonate part was found to crack when dropped. The virgin
resin had an MFR of 28.5 g/10min. A sample from a known “good” lot of parts was
ground up and tested in a melt flow tester. It had an MFR of 27 g/10min, well within
established tolerances (±30%). But a “problem” part showed an MFR of 90
g/10min. From this evidence, it was discovered that the “bad” lot contained a large
amount of regrind that had been thermally degraded in processing.
Manufacturers/Convertors
THE EQUIPMENT
MASS
KNOWN/SET
TEMPERATURE
(variable per
material)
KNOWN DIE SIZE
(per standard –
ASTM D1238,
ISO 1133)
KNOWN/SET
MASS
(variable per
material)
MFR: Amount of material
extruded in 10 minutes
Melted Polymer
General standards:
• ISO 1133-1,-2 (Method A, B)
• ASTM D1238 (Methods A, B, C, D)
Material specific standards, such as:
• ASTM D3364 (for PVC)
• ISO 1872-1 (for PE)
MELT FLOW STANDARDS
ISO 1133 : 2 methods (A & B)
A : Manual test, measure of mass flow (MFR)
B : Encoder-assisted tests, measure of volume flow
(MVR)
(*) ISO 1133-2 introduced new stricter tolerances for temperature
profile inside the barrel, and is dedicated for materials that are
sensitive to time-temperature history and/or moisture
ASTM D1238 : 4 procedures (A, B, C & D)
A : Manual test, measure of mass flow (MFR)
B : Encoder-assisted tests, measure of volume flow
(MVR)
C : For high-flow materials (special procedure, die with
D= 1.048, L= 4 mm and a Die Plug Device)
D : For multiple-weight tests
INTERNATIONAL STANDARDS FOR MFT
Easy test procedure: • Preheat barrel, die, and piston at working
temperature
• Choose the test mass
• Insert the right amount of sample
• Apply the test mass to compact the
sample
• Measure the amount of sample flowing
through the die during a fix time or for a
specific piston displacement
• Clean carefully piston, die, and barrel
MELT FLOW: THE TEST
Polymer
Melt
Extrudate
Constant Test
Temperature
KEY FACTORS THAT INFLUENCE RESULTS
Temperature Accuracy
Preparation of Sample
(moisture)
Sample Compacting
Method Parameters
Melt Density Value
Manual Operations within Test
Maintenance of Die and Piston
Cleaning Procedures
Temperature Stability
Choice of Procedure
Encoder Accuracy
Extrudate Cutting
Precision
= most common
• Is the barrel clean? Or is the die clean?
• Increased friction between the barrel & piston will reduce melt flow rates
• Is the test being run at the correct temperature?
• Is system temperature control accurate and consistent throughout length of barrel?
• Especially critical for materials that are sensitive to time-temperature history
• Has the material been pre-conditioned according to procedure?
• Hygroscopic materials give unreliable test results if they are not dried in consistent
manner
• Moisture tends to generate bubbles and trigger degradation of sample
• Is the melt density being used in the MFR calculations correct?
• Was the material compacted properly (or were there air bubbles)?
KEY FACTORS THAT INFLUENCE RESULTS
MANUAL v. AUTOMATIC TEST OPERATIONS
• Controlled Compacting
• Better reproducibility and less
scattering of results
• No physical effort required by
operator (reduces risk of injury)
• Post-test automatic purging
• Reduces total test time
• Operator is ready to run next
test more quickly
• Cleaning
• Thorough cleaning extends life
of equipment & helps maintain
consistent results
THANK YOU FOR YOUR TIME!
Please contact your local
Instron® Sales Representative
with any questions.