SPE Library

Less is More: How to Maximize Energy Savings in Plastics Processing - Part 2 

Josh Bachman, March 2021

This is the second part of a two-part webinar. This webinar will address behavioral and organizational approaches to industrial energy management. Josh will explain how manufacturing companies can implement energy programs, both through proven best practices and through local and regional utility funding programs.

Thermal Analysis of Plastics

Jeffrey A. Jansen, March 2021

Thermal analysis is an important group of tests used in the analysis of plastics and other polymeric materials. It consists of a family of well-established techniques that evaluate material properties as they change with temperature, time, and ambient environment under conditions of thermal programming. The results of thermal analysis tests provide qualitative and quantitative information about the material being evaluated. In particular, this information is important to address plastic failures or in characterization of the material composition and physical properties. The upcoming webinar on thermal analysis will introduce the four primary techniques:

• Differential Scanning Calorimetry (DSC)
• Thermogravimetric Analysis (TGA)
• Thermomechancial Analysis (TMA)
• Dynamic Mechanical Analysis (DMA)

• Gain insight into the different types of thermal analysis techniques
• Recognize which technique is best suited to obtain the information you need
• Understand how thermal analysis can be used to characterize the composition and properties of plastic

Less is More: How to Maximize Energy Savings in Plastics Processing - Part 1

Josh Bachman and Pamela Birkel, March 2021

Wasted energy is wasted profit. In these webinars, plastics engineers, plant managers, and financial managers will learn about the typical opportunities to save energy at plastics plants. In the first webinar, Josh Bachman and Pamela BIrkel will share energy savings opportunities that have been uncovered over the years. They will also share case studies of successful projects, many of which were funded by the local utility.

Formulating Thermoplastics with Non-Halogen Flame Retardants: An Introduction

Roger Avakian, February 2021

Course Overview:

• Basics of Polymer Flammability and Flame Retardant Mechanisms
• Overview of Most Common Flammability Tests
• Chemistry of Major Non-Halogen Flame Retardants
• Common Non-Halogen Flame Retardants Used in Major Thermoplastics
• Introduction to Formulating Thermoplastics with Non-Halogen Flame Retardants

Medical Plastics: Making the Right Choice

Michael Paloian, December 2020

This presentation will include important design parameters that should be considered when specifying a plastic for a medical device. It will also recommend resources for aiding you during the selection process. The interrelationships between polymer structure and physical properties will be highlighted as well as polymer classifications. Examples of medical devices will be included toward the end of the presentation demonstrating how this information can be applied to real world applications.

The Consequences of Ductile-To-Brittle Transitions in Plastics

Jeffrey A. Jansen, December 2020

Thermoplastic resins are utilized in many applications because of their unique property set, including their ductile response to applied stress. This ductility is associated with the viscoelastic nature of polymers and is attributed to their unique molecular structure. In spite of that inherent ductility, most plastic components fail through one of the many brittle fracture modes. Experience through conducting thousands of plastic component failure analyses has shown that less than 5% were associated with ductile overload. The remainder represent brittle fractures of normally ductile materials. Thus, within evaluations of plastic component failures, the focus of the investigation frequently turns to identifying the nature of the ductile to brittle transition. This relatively brittle response to stress is evident through the examination and characterization of the fracture surface morphology. There are numerous factors, associated with material, processing, design, and service conditions that influence a ductile-to-brittle transition within plastic materials. These include:

• Temperature
• Stress Concentration
• Chemical Contact
• Molecular Weight
• Degradation
• Filler Content
• Contamination
• Poor Fusion
• Strain Rate
• Time Under Load
• Crystallinity
• Plasticizer Content

Taking out the Trash, Plastics Design for the End-of-Life

Eric Larson, December 2020

Nothing lasts forever. Great products might not last forever, but they usually last a long time. But no matter how great the product is, there will come a point in time where a thing no longer has any value. It then becomes waste. To be thrown in the trash. And then what? How do you design a product to account for its expected end of life? Or an unexpected end? How do you evaluate materials based on what happens at their end of life? What tools are there? How to use them? What’s next? For plastics, and for the industry.

Life Cycle Assessments: Why and How?

Chris Koffler, November 2020

The webinar will give a high-level overview of the basic process, concepts, and calculations involved in carrying out Life Cycle Assessments in accordance with the international standard ISO 14044. It will further showcase LCA studies performed for industry to demonstrate the business value that can be derived from such studies in product development and marketing. The target audience includes process engineers, product designers, product managers, sustainability professionals, and anyone interested in ways to quantify the environmental performance of goods and services.

The Life of a Plastic Color

Tim Mouw and Thomas Meeker, November 2020

With increasingly complex color palettes and other specifications like flame retardation and recyclability coming into play, plastic color can be challenging to produce. However, with the right tools, processes and basic color understanding at hand, color doesn't have to be a burden in producing plastic product. During this webinar hosted by SPE, X-Rite Pantone color experts will help you understand the life of a plastic color and how your particular role in that lifecycle can help expedite the product development process, from inspiration and design all the way through final quality control. Key Learnings include:

• Understand how to bridge the gap between color and appearance
• Importance of using physical and digital tools
• How to choose the right toolset for your role in the supply chain and particular needs

Free Form Injection Molding Technology

SPE Pacific Northwest Section, October 2020

What is FreeForm Injection Molding?
Freeform Injection Molding is a complete reframing of printed injection molding tooling. Instead of aiming for the highest possible number of shots per tool, the technology is focused on delivering the highest possible versatility in terms of materials, and the geometrical freedom in design.

This is Not the Wild West: Sustainability Definitions, Standards, and Regulations

Kelvin Okamoto, October 2020

With continued interest in and development of sustainable plastics, it is clear that not everyone is working with the same lexicon. Terms such as 'degradable', 'bio-degradable', 'recyclable', and 'compostable' are subject to misunderstandings, misinterpretations, or outright fraudulent claims. This webinar will address how ASTM standards are being used to create a common understanding based on science and testing. We will also address the commonalities and differences among standards, certifications, and regulations. This webinar is part of SPE's ongoing "Sustainability & Plastics" series.

Improve Your Chromatography with Refractive Index

Tobias Husemann, August 2020

Gel Permeation Chromatography (GPC) plays an essential role in determination of dispersity and molecular weight of polymers and complex molecules. Calibration is done using polymer solutions such as polystyrene in organic solvents, and uncertainties in preparation of the standard can often carry over to uncertain measurement results.

This webinar from Anton Paar will focus on how you can minimize uncertainty — and expensive errors - with a fast, highly-precise refractive index measurement. After the webinar, you will have a better understanding of how a refractometer can improve your chromatography.

Featured topics in this webinar will include:

• GPC calibration process
• The role played by dn/dc values
• How a refractometer can improve the GPC calibration process
• Requirements and the specifications your refractometer must meet

3D Printing with Polypropylene - From Prototypes to Production Parts

Dustin Kloempken and Kyle Harvey, July 2020

Join this webinar to learn more about HP's new polypropylene (PP) material enabled by BASF, and how Extol has leveraged HP's Multi Jet Fusion 3D printing technology and new PP material to help their customers decrease time to market through design validation efficiency.

Key takeaways:

• Learn how to accelerate your product development process using the same prototyping material as the final part
• Discover how Extol has leveraged HP Multi Jet Fusion technology and PP material
• Explore examples of new applications made available with PP

Plastics & the Environment: Dispelling Popular Myths With Scientific Facts

Chris DeArmitt, July 2020

In order to make wise decisions, we must start with facts. Unfortunately, plastics have been sentenced in the court of public opinion without facts or evidence. The public have turned against plastics based on nothing more than unsubstantiated social media posts and sensationalist journalism.

As a career scientist, I decided it was time to go look for the facts. It took over a year to collect and read more than 400 peer-reviewed scientific publications. I discovered that virtually everything the public believe today is utterly untrue. This talk distills down the science around waste, litter, degradation, microplastics and more. You will be shocked to discover what the science tells us. Plus will be given free access to The Plastics Paradox book which explains how today’s policies are harming rather than helping the environment and what we should be doing instead.

Developed for a Fortune 500 company who offered over $10,000 dollars, SPE members can access it for free. The first couple of chapter is available to the public at: plasticsparadox.com.

iMFLUX's Novel Low, Constant Pressure Molding Technology Overcomes Traditional Barriers to Achieving A Truly Sustainable, Circular Operation - Sponsored by SPE Recycling Division

Gene Altonen, June 2020

One of the biggest challenges facing the plastics industry today, is the need for technology solutions that enable a Circular Economy. This is especially true for injection molded parts, where operational tradeoffs are often encountered when running many sustainable materials. iMFLUX, a wholly owned subsidiary of Procter & Gamble, offers a novel injection molding technology they refer to as the “Green Curve” which uses low, constant plastic pressure to fill an injection mold. Gene Altonen, iMFLUX’s CTO, will share how this new technology addresses the key challenges molders face to deliver truly sustainable, circular solutions for their customers. Examples will be provided illustrating how this new approach to molding offers the ability to efficiently run post-consumer recycle and composites, substantially reduce energy use, and enable more sustainable part designs and materials. iMFLUX is collaborating with machine makers, material suppliers, educators, mold designers, data platforms, and sustainability industry associations to enable molders to benefit from the unique advantages this new technology provides.”

Impact Failure of Plastics

Jeffrey A. Jansen, June 2020

While in service, plastic materials are subjected to many different types of mechanical stress. One common type of stress that is typically severe on plastics is rapid impact loading. The rate at which loading is applied, otherwise known as the strain rate, is a very important factor in the performance of a plastic component. Impact, together with snap fit assembly, and rapid pressurization are the most common forms of rapid loading or high strain rate mechanisms.

The response of plastics to impact and the ability of a plastic part to withstand the stress through absorption of the applied energy is dependent on many aspects, including the material, design, processing and the service conditions.

Topics covered as part of this presentation will include:

• Failure Mechanism of Plastics
• Strain Rate as a Ductile-to-Brittle Transition
• Impact Failure
• Factors Effecting Impact Resistance
• Impact Testing
• Case Studies

Impact loads are among the most challenging stresses that plastic component designers and manufactures must deal with. In many cases impact stress is not adequately accounted for. In may cases this leads to unnecessary premature or unexpected failure.

Fundamentals of U.S. Patent Law

Dr. Steve Grossman, June 2020

This seminar will focus on fundamentals of U.S. patent law with applicability to medical plastics, medical devices and pharmaceutical technology.  Issues considered will include: (1) what is patentable subject matter; (2) pros/cons of provisional patent applications; (3) novelty and non-obviousness; (4) sufficiency of disclosure to enable an invention; (5) the importance of providing “reasonable certainty” in patent claims to optimize claim scope (some interesting recent cases);  (6) a primer on the U.S. first-to-file system; and (7) the relatively new “prior user rights” defense providing more security to trade secret holders.

Plastic Failures Associated with Metal Fasteners

Jeff Jansen, May 2020

The need to secure plastic components is prevalent in the manufacture of assemblies in many industries. Joining plastic components to other plastic parts or metal parts often involves the use of mechanical fasteners, such as screws, inserts, or rivets. The joining of plastic parts is inherently more complicated than assembling two metal components because of the fundamental differences in physical properties, including strength, chemical resistance and susceptibility to creep and stress relaxation. Case Studies will be presented to illustrate failures associated with the interaction between plastic components and metal fasteners. The presented cases will illustrate how the failure analysis process was used to identify the failure mechanism as well as the primary factors responsible for the failures. The cases depict representative failures involving varied designs and service conditions.

A MultiDrive Rheo-DMA Platform for Extended Polymer Analysis

Abhishek Shetty, March 2020

Dynamic mechanical analysis (DMA) is a well-established technique for characterizing mechanical properties of all kinds of materials, particularly polymers or polymer-based products such as thermoplastics, thermosets, elastomers, adhesives, paints and coatings, films and fibers, as well as composites. A new measuring device concept is introduced which combines an electronically commutated (EC) motor as rotational top drive and a moving magnet linear drive or another EC motor, as bottom drive to enable rheological measurements and DMA on one single device. The concept enables various modes of operation by using different combinations of the bottom drive. Besides working in the rheological modes such as separate motor transducer (SMT), combined motor transducer (CMT), counter-rotation and counter-oscillation the device is suitable to perform dynamic mechanical analysis in bending, tension, compression, and torsion. DMA can provide quantitative and qualitative data regarding:     Viscoelastic moduli and damping
    Material structure and morphology
    Relaxation behavior (Primary, secondary)
    Influence of fillers and fibers in polymers
    Crystallization/melting processes
    Curing behavior In this webinar, you will learn how DMA can be used to gain a better understanding of the viscoelastic and thermal properties of your material. The theoretical basics of DMA measurements will be covered along with the test methods and the information gained from those. Various DMA applications ranging from polymer plastics, rubbers to composites will be discussed and the flexibility and versatility of such a 2 in 1 device concept will be demonstrated for extended polymer characterization.

Biocompatibility of Raw Materials for Medical Devices

Audrey P. Turley, March 2020

Starting with a biocompatible material is important for medical device manufacturers. However, regulation is pushing the manufacturer to ask for more information and more support from their suppliers. Biocompatibility on materials is critical to stay competitive and provide your clients with the needed information. Topics covered include:

• An overview of ISO 10993-1 • MDR regulation regarding carcinogens, mutagens, and reproductive toxins (CMRs) for raw materials
• Where is the line in responsibility for material supplier and device manufacturer?
• What information and testing on raw material is useful for the biocompatibility of a final device?