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

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

When spiders spin their webs, they use their hind legs to pull silk threads from their spinnerets. This pulling action ...

The cribellum consists of thousands of tiny spigots each producing a tiny fibril of silk. This means that the thread produced ...

Have you ever wondered about the intricate tapestry of history woven through the delicate threads of silk? From ancient ...

At the end of each spinneret is a collection of spigots, nozzle-like structures. A single silk thread comes out of each. Jan explains, 'Although it looks a bit like an icing nozzle, the silk is pulled ...

They soak the cocoons for up to seven hours to soften the threads before pulling them. This machine reels the silk. Workers then hang the threads to dry. Next, the threads are machine-woven.

A number of these filaments, 12 to 20, are gathered together and twisted into a yarn in the same way that cocoon silk threads are spun or thrown together. The artificial silk threads, while still ...

This happy accident inspired her to acquire these threads in abundance and fashion them into an elegant fabric. While silk maintained its high-society status over the next thousands of years, the ...

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 ...

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 release the silk, it’s also a crucial step ...