Plastics
 

Hi all,

We're looking into using plastics for FRC this year - we've used sheetmetal of various aluminum alloys in the past, waterjet and bent to specs, for our robot.

This year we're interested in making some flat parts out of sheets of plastic (with patterns waterjet cut).

We were wondering what sorts of plastics are good for this - one main application we envision is using plastic for the our drivetrain bed - that is, the electronics bed.

We're obviously trying to move in this direction to minimize weight, so we'd like to hear about strong plastics (w/ associated recommended thicknesses) that are also lightweight.

Thanks!

Re: Plastics
 

G-10/FR4 is a fiberglass composite that is light weight and stiff (a poor man's carbon fiber). I believe 973 used it one year for an electronics bedpan

Re: Plastics
 

It is very hard to prescribe a good type of plastic. Every plastic has it's pros and cons. You need to find the one that best fits your application. Please give us more information and we will be able to help you loads more ;)

Re: Plastics
 

Plastic for a bellypan is a bad idea. It isn't very rigid. I know that our bellypan is really important in our drive performance and would not work if it was plastic. However, I've heard that garolite is also a good Al replacement for bellypans too and is quite light, however it is difficult to machine.

We really like using polycarb. We use mostly 1/16" and a bit of 1/8". It waterjets fine and if you get smoked polycarb it looks great. We also usually bend it if we need a bit of rigidity. Bended polycarb makes a great replacement for AL as it can be really rigid, yet is light.

How thin al are you using?(Specifically on for the bellypan. Is the bellypan pocketed?) If you have some good sheetmetal capabilities using thinner aluminum(.06 and .09) could possibly be your best bet.

Re: Plastics
 

Delrin is nice. It is a great plastic and acts like a bearing because it is so smooth. We used delrin for many different parts, especially within our shooter, where we have high speed objects

Re: Plastics
 

We've used ABS fairly successfully for non-structural electronics boards in the past. However, at the thicknesses that are easy to work with (1/16" is what we usually do), it's essentially useless as a structural member.

We waterjetted some Delrin slides for an elevator this year, which was fairly successful (in terms of the machining quality). ABS and polycarb waterjet nicely too. In fact, it's hard to find something solid that doesn't machine nicely on a waterjet, so that shouldn't be your first concern in terms of your choice of plastics.

You might want to look into high-quality plywood bellypans. They can be made quite thick (and hence rigid) for very low cost. They're also really easy to machine, and can be used with self tapping screws to hold down components. Of course, a nice powdercoated and waterjetted aluminium bellypan might look nicer, but (especially if you're paying for waterjet time) it's a heck of a lot more expensive.

Re: Plastics
 

ABS is nice because it can be 3D printed!

Re: Plastics
 

http://www.chiefdelphi.com/forums/sh...390#post984390

Re: Plastics
 

I cant recommend using this for a bellypan though, that stuff is heavy. We used hdpe on year and man did it weigh in.

Re: Plastics
 

We've used Polycarbonate as a substantial part of our robot construction for several years now, without any major issues.

Initially we used it only for the belly-pan of the robot to mount electronics on, but the past few years we've made drive bases, gearboxes, shooter frames, and more (We've also used it as a frame for a grabber arm, but I don't recommend this because it's not the most stable).





These systems work great for us and are quite a bit lighter than the aluminum-frame robots we used to build.

As far as thickness, we've used a variety ranging from 1/16" to 3/8" depending on the application. Keep in mind that thinner material can usually be made fairly ridged if supported in the right places (like the belly-pan in the first image above).

Re: Plastics
 

Yep. That is a drawback of delrin, however, if you need a smooth surface, delrin will cut it, most of the times!

Re: Plastics
 

We had good luck with a composite material that was 2 thin sheets of aluminum (about .010" thick), bonded to either side of a corrogated plastic core. The trade name is "Alumalite" and it is used in the signmaking industry. It was very light, and had good stiffness. The only downside was that the corrogated core would collapse under concentrated loads. We used this material for our belly pan, so the solution to the point loading was to use c'sink head screws, and they would self-countersink as we tightened them up, being careful not to over-torque them. Velcro also worked well to avoid the issue.

We also used it for our shooter deck sandwich. It was light and lent itself well to waterjet cutting. Later, we found that there is a solid polyethylene core version called "Alupanel". It solves the point-loading problem, but is a good bit heavier than the corrogated core. Both are available through sign shops (always ask for donations, they may have cutoffs) or online.

Re: Plastics
 

As others have said so far, Delrin (Acetal), Lexan (Polycarbonate), and ABS are all pretty common plastics that are fairly easy to work with. Composites like Fiberglass, Garolite, etc are also well within the range of most FRC teams but require some special considerations when being machined and used, specifically ventilation, etc.

My personal method for deciding whether or not a part can be made out of plastic is based on a bit of previous experience and some guessing. One of the biggest considerations is the purpose of the part and how strong it needs to be. If it's something that needs to hold relatively precise geometry, but doesn't necessarily need to be strong, Plastics are a pretty good option and can be easier to work with than Aluminum. The common trade off is that you're going to need more (thicker) material to get a part that is strong enough, which means that you could get into situations where a plastic part is the same weight as a part made of Aluminum and is as strong.

One of the other nice things about plastic is that they're really useful when something needs to be a specific thickness for one reason or another. We've done bearing blocks and things along those lines from 1/4" Delrin before since they didn't need to be strong, but did need to keep the bearing flush with a surface.

There's also the added bonus of elasticity, should you need to have a part that has a known amount of 'give' or impact resistance before it permanently yields. Both lexan and delrin are pretty handy for this purpose, since they're fairly good at taking a beating if they're outside of the frame perimeter.

Re: Plastics
 

Also, pay attention to the possibility of ESD when using plastics for electronics mounting. A fellow inspector and I witnessed a team last year at Chesapeake having strange issues caused by their mounting board.

A sheet of 0.063" aluminum with some dimple dies may be lighter and thinner than a plastic of the same stiffness and load capacity.

Re: Plastics
 

Like many of the posters above have stated the exact application drives the plastic would want to use.

For electronics this year we are looking at HDPE and similar sheet plastics that we can mill easily. We also 3D print small parts in ABS.

In the past we have used corrugated fiberglass sheets for many applications including drive train pans, electronics, and one year ramps for other robots to drive onto. It has good stiffness but one needs to be very careful in mounting it using washers and other things to make sure stuff does not pull through.