Fast Charging is Murdering EV Batteries

 🚨 Fast Charging is Murdering EV Batteries — And Chemistry Doesn’t Lie

Look at the image 👇

A car owner facing 50kW, 100kW, 150kW, 200kW, 250kW, 300kW, 350kW chargers.

Confused. Which one is safe for my battery?

The truth: It’s not about which charger you pick. It’s about whether your battery’s chemistry can actually handle it.

🔬 Our lab research shows:

A 300V 75Ah pack is comfortable at ~22kW.

At 45kW, chemistry is already stressed.

At 100–150kW, you are violating electrochemical limits.

Beyond that? 🚑 Cooling and clever software won’t save it.

👉 This is why packs fail early.

👉 This is why warranties collapse.

👉 This is why fleets bleed money.

⚡ The formula is simple:

Charging rate = Chemistry limit.

Respect it, and batteries live long. Ignore it, and the system breaks.

👉 That’s why fleets under our supervision never violate chemistry.

Because EV reliability isn’t luck — it’s discipline, diagnostics, and chemistry-first decisions.

At Yanti, we don’t blame users or chargers. We decode the real failure mechanisms and guide fleets, hashtag

💡 For OEMs, fleets, and investors betting on fast charging — the question isn’t speed, it’s survival. Let’s discuss reliability before packs collapse.

📌 Note: These insights come directly from the diagnostics of EV packs that arrive in our lab every week.

source : Romesh Gupta

Today's KNOWLEDGE Share : Obstacles as Catalysts for Growth

 Today's KNOWLEDGE Share

⚡️ Obstacles as Catalysts for Growth

In business, setbacks are often the birthplace of breakthrough ideas.

✅ A failed product launch teaches us to pivot and refine.

✅ Market downturns force us to innovate and diversify.

✅ Internal challenges expose gaps, prompting process improvements.

Likewise, in personal growth, adversity strengthens our resilience:

🌱 Failure sharpens adaptability.

🎯 Rejection fosters emotional intelligence.

🏆 Persistence builds discipline.

The challenge is not the enemy. It’s a guide, revealing what needs to be improved, strengthened, or reimagined.

🧠 Rewiring Success: The Science of Neuroplasticity

Neuroscience affirms this ancient wisdom through neuroplasticity—the brain’s ability to adapt and rewire in response to challenges.

🔍 Each obstacle triggers growth, creating new neural pathways that enhance problem-solving, creativity, and resilience.

⚙️ Facing adversity expands cognitive flexibility, allowing us to navigate complexity with greater ease.

Success is built not by avoiding obstacles but by embracing them as opportunities for growth.

🌊 The Flow of Adaptation: Business and Life Lessons

In both business and life, those who thrive are not the ones who avoid challenges but the ones who adapt, pivot, and grow through them.

🔄 Netflix pivoted from DVD rentals to streaming dominance.

🛠️ Apple redefined itself after near bankruptcy, becoming a tech titan.

🚀 Elon Musk’s relentless pursuit of innovation led to groundbreaking advances despite early failures.

These success stories highlight a universal truth: Those who embrace obstacles transform them into stepping stones.

🔥 Real-World Application: Turning Resistance Into Results

To cultivate this mindset, follow these principles:

Reframe Challenges: See obstacles as opportunities to grow, innovate, and refine.

Extract Lessons: Every setback contains valuable insights that can sharpen your strategy.

Take Calculated Action: Progress comes from leaning into resistance, not avoiding it.

Surround Yourself with Resilient Minds: Environment shapes growth. Align yourself with those who inspire, challenge, and elevate your thinking.

💡 The Ripple Effect: From Personal Growth to Professional Impact

When we master the art of turning obstacles into opportunities, we don’t just elevate ourselves—we influence our teams, organizations, and communities. The resilience we cultivate echoes into the culture of those around us, creating environments where growth and excellence thrive.

✨ Final Thought: Embrace the Obstacle, Unlock the Path

The next time you encounter resistance, remember that it’s not a barrier—it’s a blueprint.

What stands in the way is showing you the way.

Embrace the challenge, and watch as it transforms into the catalyst for your greatest achievements.

“What stands in the way becomes the way.”

source: Shawn W

#Leadership,#PersonalGrowth

Today's KNOWLEDGE Share : How does Isosorbide improve the properties of Polyurethane?

 Today's KNOWLEDGE Share

💡 How does Isosorbide improve the properties of Polyurethane?

Polyurethane (PU) is widely used in foams, coatings, adhesives, and automotive interiors. When Isosorbide is introduced, PU gains more than just sustainability – it delivers clear performance upgrades. 🌱⚙️

🔍 Key Benefits of Isosorbide in Polyurethane

✅ Improved Durability

The rigid cyclic structure of Isosorbide strengthens molecular interactions, enhancing tensile strength and abrasion resistance.

✅ Better Thermal Stability

Maintains structural integrity at elevated temperatures, creating PU materials with superior heat-aging resistance.

✅ Enhanced UV Resistance

Reduces yellowing and degradation under UV exposure, ideal for outdoor coatings and automotive interiors.

✅ Reduced Odor

Unlike petroleum-based raw materials, Isosorbide lowers unwanted odor, making it suitable for eco-friendly adhesives and coatings.

🏭 Application Examples

◾ Foams: Cushioning, insulation, lightweight structures

◾ Coatings: Wood & furniture coatings, protective coatings for automotive and construction

◾ Adhesives: High-performance and eco-friendly adhesives

◾ Automotive Interiors: Seats, dashboards, and other durable, UV-resistant parts

🌍 Why does this matter?

◾ Environmental Value: 100% bio-based, replacing petroleum-derived raw materials

◾ Industrial Value: Combines strength, heat stability, and UV resistance → expands high-value PU markets

◾ Sustainable Alternative: Achieves both sustainability and high performance

Sustainability is not a choice – it’s a technology

source : Samyang Innochem

Taiyo Oil and Mitsui Chemicals Consider Collaborative Efforts to Expand the Supply of Chemically Recycled Products

Taiyo Oil Co., Ltd.and Mitsui Chemicals, Inc. announced that they have started a collaborative study, aimed at transitioning to a circular economy. Taiyo Oil obtained ISCC PLUS certification in June 2025 at its Shikoku Operations (Imabari, Ehime), and in July 2025 at its headquarters.

The company is also constructing facilities to receive #pyrolysisoil derived from #plasticwaste and other feedstocks to launch chemical recycling utilizing its refinery infrastructure . #MitsuiChemicals has been introducing bio-based hydrocarbons into its cracker at its Osaka Works and has started manufacturing and marketing plastics and chemicals using the mass balance approach since December 2021.

In addition, Mitsui Chemicals has been introducing pyrolysis oil derived from plastic waste which is procured from CFP CORPORATION into its cracker and has begun manufacturing and marketing chemically recycled plastics and chemicals using the mass balance approach since March 2024 . Now, this collaborative study between #TaiyoOil and Mitsui Chemicals represents the next step for both companies, aiming to expand the supply of chemically recycled products.

Specifically, the study aims to have Taiyo Oil's Shikoku Operations handle the heavy fraction of pyrolysis oil from plastic waste, which is difficult for Mitsui Chemicals to process with its crackers. Chemically recycled naphtha, propylene and other products based on the mass balance approach will then be supplied to Mitsui Chemicals. Efforts will also be made to expand the range of waste plastic feedstocks that can be utilized. Further, the two companies will study to expand the supply of #biobased products. Taiyo Oil and Mitsui Chemicals hope that this collaborative study will help to bring about a society that is not just sustainable but regenerative.

source: Taiyo Oil

Today's KNOWLEDGE Share : Big news in additive manufacturing

Today's KNOWLEDGE Share

Big news in additive manufacturing

When i started exploring 3DP 10 years ago, metal printing was clearly one of the most important materials/usecases.

Apple just confirmed what many in our field have been anticipating: the iPhone Air and Apple Watch Series 11 now include mass-produced 3D printed titanium components.

Buried in yesterday’s announcement was a game-changer:

“A new titanium USB-C port is 3D-printed to be thinner and stronger, fitting into the slim design while using 33% less material than a conventional forging process.”

And for the Watch:

“Titanium cases are made using an innovative 3D printing process that uses just half the raw material as previous generations.”

✅ Why this matters:

- 3D printing isn’t just prototyping anymore, it’s shaping mainstream consumer electronics.

- Apple is doubling down on metal additive manufacturing to deliver thinner geometries, higher strength-to-weight ratios, and huge material efficiency gains.

- This is a signal that additive is moving from whispers to scale in one of the most competitive industries in the world.

At Womp, we’ve always believed that 3D printing unlocks new forms of creativity and production. Apple’s move validates what our community has been building toward: a future where digital design and additive manufacturing power the next generation of products.

The question isn’t if this shift will happen, it’s how fast you’re ready to adapt.

source : Gabriela Trueba