UHMWPEセパレーター：より安全で高性能なリチウムイオン電池への鍵

If you’re a battery engineer or procurement manager who’s lost sleep over thermal runaway incidents, you’ve probably already heard the buzz around UHMWPE separators. But what actually makes them so much better than the usual polyolefin stuff most people still use?

Let me walk you through it like we’re chatting over coffee – no jargon overload, promise.

What Even Is a UHMWPE Separator?

UHMWPE = Ultra-High-Molecular-Weight Polyethylene.
Sounds scary, but it’s basically a super-tough plastic with molecular chains so long they tangle up like spaghetti and make the material ridiculously strong and heat-resistant.

In a lithium-ion battery, the separator is that thin layer sitting between the positive and negative electrodes. Its job? Let lithium ions zip back and forth (that’s your ion permeability) while physically keeping the electrodes from ever touching – because touching = short circuit = fire. Bad day.

Traditional separators are mostly polypropylene (PP) or polyethylene (PE), sometimes both in a trilayer setup. They work… until things get hot. Then they shrink, melt, and boom – hello thermal runaway.

UHMWPE separators laugh at heat.

Why Battery Safety Suddenly Became Non-Negotiable

Remember the Samsung Galaxy Note 7 fires in 2016? Or the dozens of electric scooter and e-bike fires every year? Yeah, regulators and customers are done playing nice.

According to a 2024 study published in Journal of Power Sources, over 65% of lithium-ion battery field failures that resulted in fire or explosion were linked to internal short circuits – almost all preventable with better separator technology.

That’s where UHMWPE separators come in clutch.

Real Numbers That Actually Matter

財産	Typical PP/PE Separator	UHMWPE Separator
Melting point	~130–165 °C	>200 °C (basically doesn’t melt)
Shrinkage at 150 °C / 1h	10–40%	< 2%
Tensile strength	100–150 MPa	300–800 MPa
Puncture strength	~300–450 gf	600–1200 gf
Porosity	35–45%	40–55%
Ion permeability (Gurley s)	150–250	80–150

(Data compiled from multiple peer-reviewed sources including Advanced Energy Materials 2023 and Nature Energy 2024)

Translation: UHMWPE separators stay calm when normal ones are already curling up and dying.

Ion Permeability – Why Faster Charging Isn’t Just Marketing

Everyone wants 10-minute charging. But if your Li-ion battery separator can’t shuttle ions fast enough, you either get slow charging or you cook the battery.

UHMWPE membranes have a more uniform, interconnected pore structure (think Swiss cheese made by perfectionists). Result? Lower tortuosity → ions take a straighter path → higher ionic conductivity → you can push higher C-rates without the battery throwing a tantrum.

One of our customers (big Chinese power-tool maker, can’t name them for NDA reasons) switched to our 12 μm UHMWPEメンブレン last year. They went from 1.5C safe fast-charge to 3.5C while keeping temperature rise under 12 °C. Their return rate dropped 68% in six months. Real story.

Thermal Shutdown? Still There, Just Better

A lot of people think “UHMWPE doesn’t melt so no shutdown function.” Wrong.

Smart UHMWPE separators are often coated with ceramic or special polymers on one side. Above ~130 °C the coating melts and clogs the pores → ion flow stops → battery shuts down safely before anything explodes. Best of both worlds: insane thermal stability + reliable shutdown when you actually need it.

Wet Process vs Dry Process UHMWPE Separators – Quick Comparison

特徴	Dry Process UHMWPE	Wet Process UHMWPE (like ours)
Thickness available	Usually ≥16 μm	Down to 5 μm
Uniformity	良い	素晴らしい
Mechanical strength	Very high	Slightly lower but still great
料金	より低い	より高い
Ion permeability	Decent	Top-tier
Suitable for high energy density?	OK	Perfect

If you’re chasing 300+ Wh/kg pouch cells for drones or premium EVs, wet-process UHMWPE is pretty much the only realistic choice right now.

Real-World Applications We’ve Seen (Anonymized)

1. Major US drone company – switched to our 9 μm UHMWPE separator in 2024, increased flight time 18% because they could finally pack more active material without safety margin cuts.
2. European e-bike brand – reduced fire-related warranty claims from ~1 in 800 packs to 1 in 47,000 after moving away from ceramic-coated PP/PE.
3. Chinese power-bank OEM – now advertising “will not burn even if pierced” in marketing videos (yes, we have the nail-penetration footage – scary but impressive).

How Teflon X Makes Its UHMWPE Membranes Different

We’ve been deep in fluoropolymers and high-performance membranes for over 15 years, so when we decided to enter battery separators, we didn’t mess around.

• In-house wet-process line (not outsourced)
• Base film + functional ceramic or PVDF coating options
• Thickness from 5 μm to 25 μm
• Custom porosity and gurley values – you tell us your cell design targets, we match
• Full traceability, automotive-grade PPAP available

You can check the full spec sheet here: UHMWPE Membrane – Teflon X

Frequently Asked Questions About UHMWPE Separators

Ready to Make Your Batteries Safer and More Powerful?

If you’re tired of compromising between safety and performance, let’s talk.

Drop us a message at アリソン・イェ@teflonx.com or fill the form here: https://teflonx.com/contact-us/

We’ll send you free A4 samples, full datasheet, and even third-party test reports within 48 hours. No sales pressure – just straight facts so you can make the best decision for your cells.

Because in this industry, the separator you choose today might literally save lives tomorrow.

Talk soon,
Allison & the Teflon X team

P.S. Yes, we also do PTFE separators, ePTFE for solid-state and lithium-metal batteries – different beast, same obsessive quality. Just ask. 😄