COBHAM, UK, Jan 25, 2023 – Hexagon’s Manufacturing Intelligence division and Sumika Polymer Compounds Europe (SPC Europe), a leading manufacturer of thermoplastic compounds, have partnered to digitize the performance of new sustainable automotive-grade polypropylene (PP) compounds, enabling engineers to design components that are more recyclable and offer a lower carbon footprint for future vehicles.
Sumika Polymer Compounds’ short glass-fiber polypropylene (GF-PP) THERMOFIL HP and recycled polypropylene (GF-rPP) THERMOFIL CIRCLE materials benefit from sustainable manufacturing and recycling processes and offer carmakers performance equivalent to incumbent engineering plastics, but with an up to 60% lower carbon footprint. A growing proportion of today’s PP components are recovered and recycled compared to polyamides (PA), of which up to 70% are utilized in waste-to-energy initiatives or finish up in landfill, but there remains substantial room for improvement. These new Sumika recycled PP compounds are designed for the circular economy, contributing to plastic waste reduction at vehicle end-of-life.
Plastics can contribute up to 20% of the total weight of a car, and their application is escalating with the continuing replacement of metals. The automotive industry’s shift to eMobility has increased the need for lightweighting components to maximize the energy efficiency of vehicles and mitigate the considerable weight of battery packs, but their environmental performance throughout the lifecycle must also be considered by product development teams.
“Limited material behavior data is a barrier to sustainable eMobility innovations because automotive engineering teams have not been able to put new materials through the rigorous virtual durability and safety tests required for automotive endorsement,” said Guillaume Boisot, head of the Materials Centre of Excellence at Hexagon. “Our unique multiscale material modelling technology accelerates the adoption of SPC Europe’s ground-breaking recycled materials by making it possible for product development teams to accurately simulate a component and subject it to established automotive engineering test and validation.”
This vital engineering data is the result of a long-term partnership between the two companies, providing product development teams the ability to evaluate the suitability of GF-PP compounds in new designs to address carbon-neutral targets by replacing traditional engineering plastics.
“Our THERMOFIL short glass-fiber reinforced polypropylene compounds offer equivalent performance to traditional engineering plastics while providing a much lower carbon footprint, which makes them highly suitable to meet design challenges that sustainable eMobility brings,” said Bruno Pendélio, marketing manager for SPC Europe. “Combining our efforts with Hexagon allows us to support the race towards carbon neutrality by further lightweighting our customers’ automotive components, reducing physical material testing and prototyping.”
Hexagon conducted a detailed and rigorous testing and physical validation program with SPC Europe to produce highly accurate multi-scale behavioral models of its THERMOFIL HP grades and THERMOFIL CIRCLE portfolio of recycled PP grades. Each material grade has a model that simulates the materials’ mechanical and environmental performance throughout a component’s lifecycle. The encrypted proprietary material models can be accessed by SPC Europe customers through Hexagon’s Digimat software. Digimat is interoperable with popular CAE software tools, such as MSC Nastran, Marc, and third-party software, empowering engineers to perform accurate analyses using established digital engineering workflows.
About Sumika Polymer Compounds
Sumika Polymer Compounds Europe, part of Japanese group Sumitomo Chemical, has been manufacturing thermoplastics for over 40 years and offers a wide range of thermoplastic compounds and polyolefin-based elastomers. They are leader in the field of high-quality polyolefin thermoplastics compounds and elastomers. They help them to pursue their economic development with the current environment needs. Polypropylene (PP) compounds specialist for automotive, white goods and specialized applications, we are recognized for a wide range of products, particularly designed for high performances. In the same way, they supply sustainable plastic compounds for industrial use. They continuously develop new technologies to meet tomorrow’s demand. As a member of a global network of Sumika companies in Japan, UK, France, India, Turkey, Poland, USA, China and Thailand, we are a global partner providing local supply and support to our customers around the world.
The mission of their employees is to contribute directly to the sustainable performance of their business partners. Moreover, leader in the field of high-quality polypropylene (PP) compounds. They are well known for a wide range of products, especially designed for high performance: 90% of car manufacturers use our products.
For more information, visit www.sumikaeurope.com.
About Hexagon
Hexagon is a global leader in digital reality solutions, combining sensor, software and autonomous technologies. They are putting data to work to boost efficiency, productivity, quality and safety across industrial, manufacturing, infrastructure, public sector, and mobility applications.
Their technologies are shaping production and people related ecosystems to become increasingly connected and autonomous – ensuring a scalable, sustainable future. Hexagon’s Manufacturing Intelligence division provides solutions that use data from design and engineering, production and metrology to make manufacturing smarter. For more information, visit hexagon.com/mi.
Hexagon has approximately 23,000 employees in 50 countries and net sales of approximately 4.3bn Euro. Learn more at hexagon.com.
- Carbon emission comparisons are calculated using lifecycle impact analyses (LCIA) conducted by SPC Europe based on the ISO 14040 standard.
- Conceptual images of an electric vehicle and carbon dioxide emission comparisons are available by return.
- The figures used reference a study of the dismantling of end-of-life vehicles conducted in 2019 by ADEME (French ecological transition agency), that revealed a greater recyclability of easily accessible PP components in comparison to those manufactured from polyamides (PA), of which up to 70% gain value in waste-to-energy initiatives or finish up in landfill.