ONLINE COURSE: RPA Testing of Rubber Processability and Dynamic Properties
Course Number: 065-0939
Date: 07/21/2022 - 07/22/2022
Time: 8:00 AM - 4:00 PM
Location: Microsoft Teams
Cost:
$900 USD
Online Registration
CEU's: 1.6
Instructor: Mr. John Dick
Course Overview
This two-day course is designed to help rubber professionals such as rubber chemists, engineers, compounders, laboratory and production managers, and associates better understand the various methods available to measure rubber processing, dynamic properties, and the fundamental rheological principles on which these tests are based. How specific changes in rubber compound formulations will affect these measured processing properties, as well as the cured dynamic properties will be discussed. The topics of Mooney viscosity and stress relaxation, the oscillating disk rheometer, and the moving die rheometer will be presented. The presentation will include the use of the Rubber Process Analyzer to characterize raw rubber, predict downstream processability for mixed stocks, and measure curing characteristics. The use of the capillary rheometer in measuring rubber compounding processability will be reviewed. Students are encouraged to bring and discuss their unique processing problems.
Online Course Requirements
We want you to have a great experience participating in our remote (online) courses, and for that, you’ll need the right equipment and internet connection.
Minimum needs are:
- A broadband internet connection that has at least a 2 Mbps upload and download speed.
- A computer (PC or Mac) that can support the latest web browser versions.
- At least 4 GB of RAM and adequate hard drive space.
- A microphone and a speaker.
- International Students: For virtual (online) courses, an additional fee will be assessed to cover the cost of shipping the professional binder (presentation slides), to your address. The cost of international shipping can be significant.
For more information, visit our Online Course Requirements webpage.
Instructor Biography:
John S. Dick, a senior rubber scientist with Alpha Technologies, has over thirty years of experience in the rubber industry. Mr. Dick has authored over 50 journal and magazine publications and four books on polymer technology. He received the Monsanto Master Technical Service Award in 1994, the ACS Rubber Division Best Paper Award in 1995 and a University of Akron Appreciation Award in 1998 for Teaching Polymer Compounding Courses in their Continuing Education Program. He is a Fellow of ASTM International receiving the Award of Merit in 1990. In addition, he has represented the United States as a delegate to the ISO for the last 20 years. He was appointed in 1992 to be Leader of the U.S. Delegation to ISO TC-45 on Rubber. Mr. Dick teaches rubber technology courses at both University of Akron and University of Wisconsin continuing education departments. He received his B.S. degree from Virginia Polytechnic Institute in 1970 and an M.A. from the University of Akron in 1979.
Unit 1 - Fundamental Measurable Properties Affecting Factory Processability
- Review of viscosity, shear thinning, green strength, uncured elasticity, V/E ratio, tackiness, surface exudation, stickiness, surface lubricity and cure properties (time to scorch, ultimate state of cure, anaerobic heat aging, reversion, marching modulus and cure-blow balance).
- Relate to behavioral definitions of processability for Banbury mixing, milling, extrusion, bin storage stability, calendering, second step tire building, compression molding, transfer molding, injection molding and autoclave curing.
Unit 2 - Basic Overview of Rheology and Dynamic Properties
- Elasticity: definition, examples, calculations, applications
- Viscous Quality: definition, examples, calculations, applications
- Viscoelasticity: definition, examples, calculations, applications
- Sinusoidal Definition and Measurements: definition, examples, calculations, dynamic torque properties, S', S'', tan delta, applicatations
Unit 3 - Basic Overview of Rheology and Dynamic Properties PART II
- Dynamic modulus (G', G'', G*): definitions, examples, calculations, applications
- Dynamic viscosity (η',η'',η*): definitions, examples, calculations, applications
- Dynamic Compliance (j', j'', j*): definitions, examples, calculations, applications
- Dynamic modulus and compliance under extension or compression (E', E'', E*, D', D'', D*): definitions, examples, calculations, applications
- Dynamic Spring Rate Constant (K', K'', K*): definitions, examples, calculations, applications
- WLF Time-Temperature Superposition: definitions, examples, calculations, applications
Unit 4 - Curemeters, ODR, MDR and Mooney Viscosity
- Discussion of oscillating disc curemeter
- Discussion of the Moving Die Rheometer (MDR)
- MDR Design
- MDR Applications
- MDR Dynamic Properties and Applications
- Using dynamic properties to detect assignable causes of variation
- Mooney Viscosity description and applications
- Mooney Stress Relaxation description and applications
Unit 5 - Rubber Process Analyzer
- RPA Definition
- RPA comparative advantages
- Applications in raw rubber characterization and quality assurance
- Measuring raw rubber Avg. MW, MWD, Long Chain Branching and gel
- Testing Natural Rubber, SBR, BR, NBR, EPDM.
- RPA testing of quality of mix for Banbury batches using G', G'' and tan delta
- RPA measurements of effects from order of mix changes
- RPA measurements of time of oiling on Banbury batch properties
- RPA measurements of different phase mixing techniques
- Advantages of frequency sweeps vs. strain sweeps
- RPA ASTM Standard Methods, D6204, D6601 and D7050
- Advantages of low strain vs. high strain measurements relating to carbon black particle size vs. structure
- Using RPA G'' to measure effects of plasticizer oils on rubber compound processing and cured physical properties
- Using the S'' cure curve for better scorch detection
Unit 6 - Capillary Rheometry
- Definitions and illustrations
- Shear thinning profiles
- Comparison of different capillary rheometers
- Measuring die swell
- Bagley Correction
- Rabinowitsch Correction
- Extrudate appearance and melt fracture
- Comparison of Capillary Rheometer vs. RPA
- Applications of Capillary Rheometer in rubber mixing, extrusion, injection molding and calendering
Unit 7 - Rubber Compounding Techniques to Achieve Selected Dynamic Properties
- Effects of different raw elastomers on cured compound dynamic properties
- Effects of molecular structure of different polymers on glass transition temperature and resulting dynamic properties
- Comparison of rheology master curves and dynamic properties
- Effects of carbon black on compound dynamic properties
- Effects of oils on compound dynamic properties
- Effects of different curative packages on compound dynamic properties
Unit 8 - Applications of Rubber in Vibration Noise Harshness
- Rubber metal component design
- Natural resonance frequency
- Effects of mass and stiffness
- The function of rubber isolators
- The function of rubber dampers
- Specific designs
*** Please note, each row and course# listed below is a separate, complete course. ***