Expert insights to help you design smarter with high-performance materials

DSM Subject Matter Experts, Michael Kriek, Candace Roulo

Looking to design better with high-performance materials? Envalior’s podcast delivers expert insights on innovations in mobility, electronics, connectors, consumer goods, robotics and more, helping you optimize performance, efficiency, and sustainability.

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  1. Non-Pneumatic (Airless) Tires: Material Solutions with Arnitel

    vor 4 Tagen

    Non-Pneumatic (Airless) Tires: Material Solutions with Arnitel

    Non-pneumatic tires (NPTs) use a precise geometric web rather than air to carry load and absorb shock, which removes the risk of punctures, blowouts and daily pressure checks. Performance depends on the polymer: standard rubber generates too much heat and adds weight under high-speed flexing. The white paper makes the case for Arnitel — a thermoplastic copolyester (TPC, also referred to as TPEE) — over TPU across the properties that matter in the repeated compression-and-recovery cycle: flex-fatigue endurance, high load-bearing capability and dynamic creep resistance, which prevents permanent flat spots after standing under load. It also covers a roughly -30 to +100 C operating window, good low-temperature ductility, and resistance to hydrolysis, chemicals and microbial attack. As a thermoplastic, Arnitel is re-meltable and recyclable. With a service life cited at two to three times that of pneumatic tires, NPTs reduce downtime and total cost in agriculture, construction, mining, ATV/UTV, golf and lawn-care fleets, and lower lifecycle CO2 — reliability that becomes more important as off-highway vehicles move toward autonomy. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    17 Min.
  2. Advanced Material Science for Connectors: High-Performance Polymers for Miniaturization

    vor 4 Tagen

    Advanced Material Science for Connectors: High-Performance Polymers for Miniaturization

    Miniaturization has turned the connector housing from a simple handle into a structural part with several demanding, sometimes conflicting requirements. Sub-0.1 mm walls need high melt flow; shrinking creepage in 800 V systems requires a high comparative tracking index (CTI) to prevent surface tracking; soldering at around 260 C requires high heat-deflection temperature (HDT) and low moisture uptake (MSL-1) to avoid the popcorn effect; and there is growing demand for halogen-free UL94 flame retardancy. The episode maps materials to process: high-temperature polyamides Stanyl (PA46) and ForTii (a semi-aromatic polyamide, PPA) for the small, precise parts run through reflow soldering, and bio-based EcoPaXX for higher-power, through-hole parts run through wave soldering. The recommended approach is to involve material expertise at the concept phase, which allows thinner walls, lower field-failure risk and shorter time-to-market — because the material, not the geometry, is usually the limiting factor. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    17 Min.
  3. Predicting the Fatigue Performance of Fiber-Reinforced Plastic Gears

    vor 4 Tagen

    Predicting the Fatigue Performance of Fiber-Reinforced Plastic Gears

    Plastic gears are lighter, quieter and cheaper to produce than steel, but their fatigue life has been hard to predict: injection molding aligns the glass fibers anisotropically, and standard ISO 527 tensile-bar data overstates real-tooth strength. Using Stanyl TW271F6 (PA46 with 30% glass fiber), the white paper replaces the empirical 0.6-0.8 correction factor with a method that accounts for the actual failure drivers — weld lines forming at tooth roots, local friction heat measured at 20-30 C above ambient and modeled with the Arrhenius relationship, and crack growth captured by a Paris-law master curve fed into KISSsoft. Predicted S-N curves matched physical tests to within a factor of three on lifetime, compared with errors up to a factor of 100 using the older approach. For designers, this turns a rule-of-thumb estimate into managed risk and produces trustworthy lifetime predictions from a material card, reducing expensive mold iterations, design risk and time-to-market. The model is validated for fatigue (root cracking); at very high temperatures the failure mode can shift to wear, which it does not capture.   About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    18 Min.
  4. Material Solutions for Cost-Efficient Robotics: Lightweight Stanyl Gearboxes

    vor 4 Tagen

    Material Solutions for Cost-Efficient Robotics: Lightweight Stanyl Gearboxes

    The capability of robot software has outpaced the hardware, and the actuator is the main cost and weight constraint. Machined-metal gearboxes are heavy and expensive to produce, which keeps overall robot cost high. The Envalior, SENTImotion and Frencken Group collaboration (the SMFdrives concept) addresses this by designing for the polymer rather than dropping plastic into a steel design. Stanyl (PA46) provides the stiffness, wear and friction behavior and thermal stability needed in hot, enclosed gearboxes, and supports high-precision injection molding for economical high-volume production. The resulting gearboxes weigh roughly 50% less and cost about 50% less than metal equivalents while meeting the mechanical requirements for safe, reliable operation; Envalior notes that switching the many gearboxes in a humanoid robot to plastic can reduce total robot weight by more than 20%. A lighter drivetrain reduces motor load, heat and battery demand, and form-factor compatibility supports adoption without redesigning the robot. Simulation-first development (CAE) avoids over-engineering, helping decouple complexity from cost and lower CO2 versus machining steel.   About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    15 Min.
  5. Alternatives to PTFE for Tribology Components: PFAS-Free Performance with Stanyl

    vor 4 Tagen

    Alternatives to PTFE for Tribology Components: PFAS-Free Performance with Stanyl

    PTFE is widely used as a friction-reducing additive in plastics such as POM, PEEK and standard polyamides, but as a PFAS ("forever chemical") it faces increasing restriction from bodies including ECHA, the US EPA and Japan's Ministry of Health, Labour and Welfare. Simply removing it causes friction, heat and wear to rise. The white paper's approach is to use intrinsic material properties instead of additives: Stanyl (PA46) has a dense, highly crystalline structure that provides low friction and high-temperature wear resistance on its own, and Envalior is validating PTFE-free Stanyl grades together with PFAS-free greases for complete clean systems. Reported test data show PTFE-free grades performing competitively — for example Stanyl HGR3W for low-friction timing-chain guides, and Stanyl TW376 matching or exceeding PTFE-filled POM, PA66 and PPA in dry gear tests at 80 C — alongside a graded portfolio (TW341/TW441, fiber-reinforced F- and B-series, and TW213F2/TW200F3 for EPS and brake-booster gears). The takeaway for engineers is compliance without a performance penalty: lower regulatory and warranty risk, comparable or better durability, and a cleaner environmental profile. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    20 Min.
  6. Smaller E-Motors with Stronger Ball Bearings: High-Crystallinity Stanyl Cages

    vor 4 Tagen

    Smaller E-Motors with Stronger Ball Bearings: High-Crystallinity Stanyl Cages

    E-axle integration and the drive for higher power density (kW/kg) mean EV motors now run at up to 20,000 RPM, where the deep-groove ball-bearing cage becomes the critical part. Two failure mechanisms converge: the umbrella effect, where centrifugal force deforms the cage outward into interference and thermal runaway, and electrical erosion, where fast silicon-carbide or gallium-nitride inverters drive parasitic currents that arc through the rolling elements and flute the raceways. The solution combines electrically insulating ceramic (silicon nitride) rolling elements with a stiffer cage material. Stanyl (PA46) has about 70% crystallinity, giving roughly 30% higher stiffness at elevated temperature than PA66, together with strong weld-line, creep and fatigue resistance, at lower cost than PEEK. That stiffness allowed bearing makers to redesign the cage geometry and reach a 1.8 million n.dm speed rating, about 50% higher than previous EV bearings. The benefits cascade through the design: faster motors can be smaller and lighter, which offsets battery weight, supports range and reduces rare-earth magnet content and cost. The same high-crystallinity tribology extends to sliding bearings, thrust washers and FEAD tensioners, where PA46 grades — including PTFE-free options — are replacing legacy POM, PPS and PPA. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    24 Min.
  7. Embracing Sustainability in the Medical Device Market: Lower-Carbon Materials Without Requalification

    vor 4 Tagen

    Embracing Sustainability in the Medical Device Market: Lower-Carbon Materials Without Requalification

    Medical devices face constraints other markets do not: extensive sterile packaging, rigorous material qualification, and biohazard risk after patient contact, which together make post-use mechanical recycling largely unviable, so the "virgin material" loop dominates the medical circular economy. Because roughly 80% or more of a device maker's footprint is scope 3 — embedded in purchased materials — the most effective lever is sourcing lower-carbon material rather than only changing in-house energy. The paper reviews the available routes (mechanical recycling, depolymerization, pyrolysis and gasification, plus bio-based feedstocks such as tall oil, used cooking oil and castor) and centers on mass balancing: feeding certified bio or recycled feedstock into existing crackers yields polymers chemically identical to fossil-based grades, tracked by ISCC/ISCC+ chain-of-custody certification. The key regulatory point is that, because these grades are chemically identical, FDA 510(k) change guidance (2017) treats the switch as a documentation exercise rather than a new submission, with no requalification expected — though the manufacturer remains responsible for its own determination. Envalior's medical portfolio already spans these solutions (EcoPaXX, Arnitel ECO, ForTii, Akulon RePurposed/B-MB/CRC-MB and Stanyl B-MB) with cited carbon-footprint reductions of roughly 50–90% depending on the polymer, a stated ~90-day path to add a biomass-balanced medical grade, and a commitment to a bio-based or recycled alternative for every product by 2030. The practical takeaway: device makers can cut material carbon footprint — starting with a blend to manage cost — while minimizing added time, cost and regulatory risk. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    18 Min.
  8. Game-Changer PBT for High Voltage: Safe, Color-Stable, Lower-Carbon Connectors

    vor 4 Tagen

    Game-Changer PBT for High Voltage: Safe, Color-Stable, Lower-Carbon Connectors

    As vehicles jump to 48 V architectures with 800 V charging — and factories shift grids from AC to DC — traditional polyamide connectors fail by hydrolysis, going brittle as moisture cleaves the polymer chains. Pocan PBT's ester linkages and crystalline structure lock moisture out, while a halogen-free, PFAS-free flame-retardant package achieves UL94 V0 at just 0.75 mm with high strain at break, so connectors can shrink without becoming brittle. Critically, it maintains CTI 600 tracking resistance regardless of pigment — including high-voltage safety orange (RAL 2003) — letting manufacturers standardize on one resin across orange, black and blue connectors and drastically simplify the supply chain. On sustainability, biocircular BDO derived from used cooking oil plus post-industrial recycled glass and recycled PET lift sustainable content to >40% in the Game-Changer grade (and up to ~70% in PBT/PET blends), all chemically identical to fossil-based PBT. The result: lower failure risk, simpler production, safer factory air, and a significantly lower CO2 footprint at scale — with no performance trade-off. About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    20 Min.
  9. Embracing Sustainability in the Sports Shoe Market: Recycling High-Performance Footwear

    vor 4 Tagen

    Embracing Sustainability in the Sports Shoe Market: Recycling High-Performance Footwear

    Footwear is shifting from a linear model to a circular one, but the supporting recycling infrastructure is not yet mature. A running shoe combines an abrasion-resistant outsole, a high-rebound midsole, a textile upper and adhesives, so mechanical grinding usually yields lower-grade material (downcycling). Advanced recycling routes — depolymerization, pyrolysis and gasification — can return high-performance polymers, including TPC midsole materials such as Arnitel, to near-virgin quality, though at higher energy cost than mechanical recycling and still below incineration. The white paper also outlines interim measures available today: bio-based and mass-balance feedstocks, design-for-recyclability (for example dissolvable adhesives or stitching instead of glue) and lower product carbon footprint through logistics and green energy. Large-scale advanced recycling is expected around 2030, and the main near-term constraint is brand-led take-back logistics rather than the chemistry. For product teams, designing end-of-life in from the start reduces waste, lowers compliance risk and cuts lifecycle CO2 without compromising performance.   About this podcast — Made for engineers and product development teams, these easy-listening episodes explore practical engineering challenges and the material choices behind them — giving you insight you can put to work in your own designs. At Envalior, we help you reduce time, cost, risk and CO₂. The goal is simple: to help you select and process the right material more easily, and to deliver solutions with proven impact in the real world. More information: www.envalior.com

    18 Min.

Info

Looking to design better with high-performance materials? Envalior’s podcast delivers expert insights on innovations in mobility, electronics, connectors, consumer goods, robotics and more, helping you optimize performance, efficiency, and sustainability.