captain america Posted March 19 Posted March 19 Greetings @everyone It's that time of the year again, when I announce a new Moscato Hobby Original Project, and this one is a whopper: a 1/48 Destroyed Phat Lynx (Destroid Phalanx). This ginormous kit would be based on a modified Thomas Hawk lower chassis, with all the features listed in the image shown. In order for this project to go ahead, I need a minimum of 20 orders, non-negotiable. Please read the following carefully. If you are interested in getting this model, send me a PRIVATE message. Posting in the comments will NOT be construed as interest. Kit price for the first twenty: $500 Canadian dollars (shipping not included) Kit price > 20: $525 Canadian dollars The standard shipping price for the US and Canada is shown in the image, while international shipping will be calculated based on destination and order size. If I gather the requisite interest for the project, know that I will request a $350 CAD deposit, with the balance due upon completion to make things more manageable You have until March 31st to pledge yourself to the realization of this project. If I fail to get the requisite interest by that date, I will simply move to another project. What say you? Quote
tekering Posted March 22 Posted March 22 (edited) Yet another dream becomes a reality. Count me in, Cap.' PM sent. 👌 Edited March 25 by tekering Quote
captain america Posted March 24 Author Posted March 24 On 3/22/2025 at 6:01 PM, tekering said: Yet another dream becomes a reality. Not a reality yet, we still need to achieve MOQ. Quote
tekering Posted March 25 Posted March 25 7 hours ago, captain america said: Not a reality yet, we still need to achieve MOQ. Yeah, that's exactly what I posted on Facebook. 😅 Quote
captain america Posted April 8 Author Posted April 8 While I'm waiting for the balance of the deposits to come in, I shall busy myself with the technical drawing. Quote
captain america Posted April 18 Author Posted April 18 Captain's log: Friday, April 18th, 2025. Great news everyone: the technical drawings are done! I'm planning-out the production of the various components, and I have a special request: some of the parts on this model, namely the missile pods, are very much on the limit of what my lathe can handle safely. As such, I would require someone skilled in 3D modelling to produce the files for these parts, based on my hand-drawn diagrams (with dimensions) so I can 3D print them. Please DM me if this is up your alley! Quote
captain america Posted 6 hours ago Author Posted 6 hours ago Captain's log: Thursday, April 24th, 2025 Here we are, boys and girls! The 1/48 PHAT LYNX resin kit project has now begun! As per my usual routine, I will provide a weekly build log to show you the progress being made, and some of the techniques I use to achieve those results. To that end, I'll also show-off some of the tools I use in the craft. While a few key parts will be 3D printed, most of the fabrication is done the old-fashioned way: by hand! Starting off with pics 00 and 01, we see the drafting process well underway. This is where a model is fundamentally made or broken: details can be added or subtracted, but proportions are very hard to alter once committed-to and a good (artistic) eye is key to getting aesthetically pleasing proportions all-around. I take my time in this phase, starting from the original line-art and then tweaking things to enhance the look. I'm fortunate that I can use 80% of the lower body from the Thomas Hawk project here, since the two mecha have decent parts commonality. Pic 02: once I have everything drafted and looking just right, I then print my plots out on paper and gather my tools. I think you can tell even in this pic that some of the components are massive! As such, I will need a lot of Renshape blocks as well as bar stock to turn the round parts. Other components will be handled by 3D printing, and I'll explain why later. Take note of the two squares next to the Renshape blocks: this is a must-have tool for creating parts with perfect 90 degree angles. Pic 03: this is a face-end mill. It's designed to create level surfaces on the lathe, and while a regular milling shank can do similar work, the face-end mill covers more real estate in one pass, so it's a time-saver. Pic 04: this is my milling machine. You can see the face-end mill in the chuck, ready to get to work, as well as the hand-crank vise I use to clamp the parts to be machined. I like this vise because it's very low-profile and allows me to machine taller parts than I could achieve with a regular swivel-vise. Pic 05: here is the lathe. While it's adequate for most parts, it will be a bit of a struggle to create some of the PHAT LYNX's components on this. In fact, some of the parts, like the missile pods, are so large as to be dangerous to turn on my lathe, which is why I will have the base structures rendered and 3D printed. This way, I get to keep all my fingers and forego a few scars! Pic 06: my trusty band saw! This is a critical tool for slicing blocks of Renshape, as well as whittling them down prior to machining. It's not as precise as a scroll saw, but then it doesn't need to be. These three machines working in unison are where 50-75% of the construction happens. Pics 06-09: because I will need to machine quite a few large, round parts, I will need to create some bar stock. Step 1: mix some resin and pour into a cleaned & prepped round yogurt container. Let it sit to allow the surface bubbles to dissipate, then place under pressure for 90 minutes, then de-mold! While the resin looks solid enough, it's still too soft to handle so I will let it sit for 24 hours before machining it. Pic 10: this bar stock is too large for the jaws of my milling chuck, so I “cheat” by adding a smaller mandrel with some CA glue. This will allow my lathe jaws to hold the part from the mandrel, yet still be adequately secure for machining, provided I don't cut too aggressively. Pic 11: I need blocks! Here I am cutting a large block of Renshape into more manageable segments on the band saw. Pic 12: once cut, the part will have an uneven surface, so onto the mill it goes to have its face made smooth. Pic 13: these are the jaws I normally use for turning bar stock, but they aren't able to clamp larger parts like the mandrel, so... Pic 14: I swap them out for the reverse-jaws, which are meant for bigger bars... Pic 15: Which look like this when installed. These jaws can clamp larger parts either from the outside, but they also have the ability to hold hollowed-out parts (like tubes) from the inside. Pic 16: I an now start trimming the patterns for parts to be fabricated. I can now check my blocks of Renshape to see if the size is adequate. Pic 17: lots of trimming going on. Blocks of Renshape are continuously trimmed to be barely larget than the parts to be created. To that end, I use my calipers to score a cut-mark in the block which is about to be trimmed. Pic 18: Back to the band saw, I remove the excess material... Pic 19: then re-surface the block on the mill. Pic 20: a cheat method I sometimes employ with smaller pieces is the drill press, fitted with a grinding stone. It works like the face-end mill, but I can hold smaller, or more complex shapes with my hand. This is better for small shapes that could otherwise be damaged by the jaws of the milling vise. That does it for the first few days of fabrication. While this and next week's reports may not be as exciting as some would like, I think they hold valuable insight into the tedious (and messy) process of hand-crafting. You may not think so, but this boring process lays the groundwork for all the good things to come, and mark my words, this model will be glorious! 00.HEIC 01.HEIC 02.HEIC 03.HEIC 04.HEIC 05.HEIC 06.HEIC 07.HEIC 08.HEIC 09.HEIC 10.HEIC 11.HEIC 12.HEIC 13.HEIC 14.HEIC 15.HEIC 16.HEIC 17.HEIC 18.HEIC 19.HEIC 20.HEIC Quote
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