The digital artist Pak, announced the process to obtain NFTs from their upcoming collection “Ash Chapter-2:Metamorphosis”. Collectors will have to go through a four step process for the much-awaited drop, which will finally take place today, March 28th, at 4:30 pm UTC.
The Metamorphosis collection, consisting of 7500 editions, is curated by 30 creators which includes names such as Paris Hilton and Pussy Riot among others. Each collector, first and foremost needs to get ASH tokens, which is possible through the Uniswap platform by swapping other cryptocurrencies. Each Morph token will be sold for 50 ASH tokens.
After obtaining the ASH tokens, the collectors will have to get them pre-approved and for users whose MetMask is already approved won’t see a link, indicating that their wallets are already pre-approved.
Every artist in the collection has 250 tokens including 10 “artist editions”. Each wallet can obtain upto 10 Metamorphosis tokens. Each Morph token reveals a piece of artwork by a different creator. Pak has also clarified that each Metamorphosis token will be distributed randomly.
During the mint, the contract chooses one of the 30 creators randomly, mints the creator’s artwork into their wallet, and moves it to the collector. After receiving the tokens in their original form, the collectors can combine any 5 of them to morph a token of their choice.. The morph process will destroy 4 tokens, reducing the artist’s carbon supply.
The artist’s whose less than 50 NFTs remain will be high tier burn enabled, which basically means that the morphed tokens can be burned to obtain ASH tokens.
The creative genius has partnered with the music studio Cypher audio, which provided the soundtrack “Transfigured” for the collection’s teaser. They also partnered with the NFT platform Manifold XYZ and named them their 31st collaborator.
The anonymous digital artist has also expressed his gratitude for the positive feedback they have received for the project and hinted at the possibility of more major collaborations in the future.
Read more about PAK
