Apr 29
Just kinda all over the place
seen from United Kingdom
seen from Netherlands
seen from Kazakhstan
seen from United States
seen from United Kingdom
seen from Canada
seen from Türkiye
seen from Serbia
seen from United States
seen from United States
seen from Yemen
seen from United States
seen from Malaysia
seen from United States
seen from Maldives
seen from Türkiye
seen from Maldives
seen from Türkiye
seen from Germany
seen from United Kingdom
Just kinda all over the place
Quite frankly the potential of the stretchy superheroine has not been used to its full kink potential.
Like as a supervillainess I can kidnap you and fuck you to my hearts content while also being as rough as possible knowing that you’ll easily absorb whatever slaps to your dumb elastic cunt you take<33
I can fuck and breed your womb with my enormous transfem bitchbreaker all the way to the base without concern as it bulges out your womb and stomach stretching around your insides.
I can essentially turn you into my personal heroine condom; cumming in you over and over; and your body is just naturally built to take whatever rough or desperate fucking I inflict upon you~
And when I’m finally done breaking you in and you’re full brainwashed you can stretch and inflate your body to your new supervillainess overlords request. Obnoxiously fat ass and tits are light work; everything from gock sucking lips that stretch as I hit the back of her throat to thighs so large they render her an immobile sex doll are now in my vile grasp<33 What a generously beautiful broken heroine to have gifted me such a perfect toy with her elastic powers<33
[C] 'Mario + Luigi' RPG Style: Donna Limber [OC] by Mast3r-Rainb0w.
A commission for a client via DeviantArt, featuring an original character (OC) with elastic/shapeshifting powers in the artstyle of "Mario & Luigi: Superstar Saga!" Enjoy the fanart!
“I tried to make him look [F4NT4STIC]-”
“But I drew him, G00FY!”
Put a nanodiamond under intense pressure and it becomes flexible
Diamond is among the hardest naturally occurring substances on Earth, but if you shrink it down to the nanoscale, it is surprisingly elastic. And that could be useful for a host of applications such as quantum computing. In a paper published in the journal Physical Review X, Chongxin Shan at Zhengzhou University in China and colleagues studied diamonds as small as four nanometers across to see how they respond to pressure. Scientists already know that nanodiamonds, which are thousands of times smaller than a grain of sand, can survive being stretched or squeezed in ways that destroy a regular diamond. But nobody knew how.
Read more.
