Simulations showed that stretching aligns protein chains and increases hydrogen bonds, which act like tiny bridges between ...

Computational analysis provides new insights into silk's mechanical properties that was unavailable experimentally ...

When they weave their webs, spiders pull their silk threads. New simulations show stretching during spinning causes the protein chains within the fibers to align and the number of hydrogen bonds ...

Get Instant Summarized Text (Gist) Stretching spider silk enhances its strength by aligning protein chains and increasing hydrogen bonds, as shown through computational models and laboratory ...

Whether you are a fan of spiders or terrified of them, you can’t help but admire their ability to make webs. These ...

“When they spin silk out of their silk gland, spiders use their hind legs to grab the fiber and pull it out. That stretches ...

Spiders don’t just spin webs—they engineer them. By stretching their silk as they spin, spiders strengthen the fibers at the ...

Understanding how the stretching process strengthens spider silk is a key part of helping design stronger, biodegradable, silk-inspired materials for various applications. When spiders spin their webs ...

When spiders spin their webs, they use their hind legs to pull silk threads from their spinnerets. This pulling action doesn't just help the spider ...