I'm just going to write down what I can remember from my mad scientist days back in high school. If anyone has anything I missed, or corrections to my quite possibly incorrect memory, feel free to add them.
Barrels:
First, the LAPCO Remora adapter... this genius device pins into your Stingray and allows you to use Spyder threaded barrels. However, they are a relic from days gone by, and they have a ~0.690+" internal bore.
The J&J Ceramic was the barrel of choice, and it was available for the Stingray pins (no adapter needed). This is still a wicked barrel, even with today's paint.
The EagleWorks barrel is another decent option that was available specifically for the Stingray pins. Not nearly as good as the J&J, but still a good barrel if you happen to come across it.
The CMI Tru-Flight "ThunderPig" straight rifled barrel is probably not nearly as good as I remember it being. But back in 1999-2001-ish, the particular one I had was dead nuts accurate. I had a 16" version, designed for the Stingray pins. I had to wrap it at the base with electrical tape to eliminate the wiggle. The barrel is thinner than most others at the base where it meets the body. I later had mine spiral ported by a member on the old Brass Eagle Owner's Group, which significantly reduced its sound signature.
Pretty sure there were some BOA barrels made specifically for the Stingray pins, and they are absolutely wonderful barrels if you can find one. I am not 100% confident that they were made for the Stingray, though. I am sure someone will chime in to solve this riddle one way or another.
Pins:
Brass Eagle made quick pull metal pins with keyrings to facilitate, well, quicker pulling.
Detent:
Replace that stupid metal ball with a 8mm acrylic bead from your local craft store. The metal ball dents the bolt, which can cut paint.
Bolt:
At the very least, you can remove the dent from the metal detent ball, and add more of a concave/cone to the front opening.
There were a few delrin bolts and venturi bolts made for the Stingray, but they are probably impossible to find these days. Might be cheaper and easier to have one 3D printed now, and just reuse the stock arm.
Valve:
Not a whole lot needs done with the valve, honestly. Even running HPA can be done without modifying the valve. Highly recommend replacing the springs with HPA, though.
You can file down the brass retaining nut a bit. There's a lip that holds/centers the cup seal on the inside of the retaining nut. This lip can actually sometimes be taller than the cup seal, especially with the aftermarket cup seals that were available for a while. Filing this lip down to about half its original height allows the valve stem to rest closer to the striker... so it technically opens a little bit further with the normal hit from the striker. Squeezing out a little extra velocity. Usually not necessary, but it is an option.
The three holes in the valve stem can be enlarged. Be careful not to mar or knick the sealing surface, though. This is also completely not necessary.
You can cut the choke screw velocity adjuster down, or file it into a pointed tip so it is less restrictive... I know that it being restrictive is its entire purpose, but we can control the velocity with air pressure and springs. I like to let the valve breath.
Transfer Tube:
What a freaking pain. You are absolutely advised to get your valve and ASA tapped for 1/8npt, and replace the d@mned thing with macroline.
If you don't replace it entirely, soak the O-rings overnight in automatic transmission fluid, then wrap both ends, over the O-rings, with Teflon tape. Lots of it. So you have to cram that $#!+ in there upon reassembly. Hopefully it will hold a seal.
Trigger:
Oh man does the trigger need some work!
For a REAR TRAVEL LIMITER, drill a 1/4" hole through the back layer of the pistol grip. It's hollow, only drill through one side. Now drill a 1/8" hole through the front layer, directly behind the trigger. Insert a screw through the 1/4" hole and force thread it into the 1/8" hole until it sticks forward enough to stop the trigger after the sear drops. I secured mine with a stop nut after I had it adjusted. Wrap the grip with tape so you don't have that 1/4" hole in the web of your hand.
To eliminate TAKE UP, I drilled a 1/8" hole through the lower receiver from side to side, above the safety. I then slid a machine screw through the hole, above the tang of the trigger. I had to notch the bottom of the body and the top of the trigger to make room for the bolt. However, you can position it to stop the trigger from returning all the way forward, by quite a bit. There's at least 1/4" of pre travel, even with the safety on! We don't want that.
Side to side play/slop can be mitigated with washers/shims.
You can preload the sear, as well. Drill a 1/4" hole through the bottom of the trigger guard, behind the trigger. Drill a 1/8" hole behind the trigger slot. Insert a machine screw through the 1/4" and force thread it up into the 1/8" hole. The screw will hit the bottom of the sear and push it up, away from the trigger. This makes the overall travel of the sear less, and therefore you experience less CREEP.
Vertical ASA:
The big block of plastic in front of the trigger with the Stingray on it is hollow. Cut out the bottom. Slide a duckbill ASA up in there. Use machine screws to attach the duckbill to the "front" of the trigger guard. This portion is actually two layers thick, and you can countersink the heads of the screws so they aren't taking up real estate inside the trigger guard where your finger is.
The 2-penny Mod:
Put two pennies behind the guide for the mainspring. That's it.
Barrels:
First, the LAPCO Remora adapter... this genius device pins into your Stingray and allows you to use Spyder threaded barrels. However, they are a relic from days gone by, and they have a ~0.690+" internal bore.
The J&J Ceramic was the barrel of choice, and it was available for the Stingray pins (no adapter needed). This is still a wicked barrel, even with today's paint.
The EagleWorks barrel is another decent option that was available specifically for the Stingray pins. Not nearly as good as the J&J, but still a good barrel if you happen to come across it.
The CMI Tru-Flight "ThunderPig" straight rifled barrel is probably not nearly as good as I remember it being. But back in 1999-2001-ish, the particular one I had was dead nuts accurate. I had a 16" version, designed for the Stingray pins. I had to wrap it at the base with electrical tape to eliminate the wiggle. The barrel is thinner than most others at the base where it meets the body. I later had mine spiral ported by a member on the old Brass Eagle Owner's Group, which significantly reduced its sound signature.
Pretty sure there were some BOA barrels made specifically for the Stingray pins, and they are absolutely wonderful barrels if you can find one. I am not 100% confident that they were made for the Stingray, though. I am sure someone will chime in to solve this riddle one way or another.
Pins:
Brass Eagle made quick pull metal pins with keyrings to facilitate, well, quicker pulling.
Detent:
Replace that stupid metal ball with a 8mm acrylic bead from your local craft store. The metal ball dents the bolt, which can cut paint.
Bolt:
At the very least, you can remove the dent from the metal detent ball, and add more of a concave/cone to the front opening.
There were a few delrin bolts and venturi bolts made for the Stingray, but they are probably impossible to find these days. Might be cheaper and easier to have one 3D printed now, and just reuse the stock arm.
Valve:
Not a whole lot needs done with the valve, honestly. Even running HPA can be done without modifying the valve. Highly recommend replacing the springs with HPA, though.
You can file down the brass retaining nut a bit. There's a lip that holds/centers the cup seal on the inside of the retaining nut. This lip can actually sometimes be taller than the cup seal, especially with the aftermarket cup seals that were available for a while. Filing this lip down to about half its original height allows the valve stem to rest closer to the striker... so it technically opens a little bit further with the normal hit from the striker. Squeezing out a little extra velocity. Usually not necessary, but it is an option.
The three holes in the valve stem can be enlarged. Be careful not to mar or knick the sealing surface, though. This is also completely not necessary.
You can cut the choke screw velocity adjuster down, or file it into a pointed tip so it is less restrictive... I know that it being restrictive is its entire purpose, but we can control the velocity with air pressure and springs. I like to let the valve breath.
Transfer Tube:
What a freaking pain. You are absolutely advised to get your valve and ASA tapped for 1/8npt, and replace the d@mned thing with macroline.
If you don't replace it entirely, soak the O-rings overnight in automatic transmission fluid, then wrap both ends, over the O-rings, with Teflon tape. Lots of it. So you have to cram that $#!+ in there upon reassembly. Hopefully it will hold a seal.
Trigger:
Oh man does the trigger need some work!
For a REAR TRAVEL LIMITER, drill a 1/4" hole through the back layer of the pistol grip. It's hollow, only drill through one side. Now drill a 1/8" hole through the front layer, directly behind the trigger. Insert a screw through the 1/4" hole and force thread it into the 1/8" hole until it sticks forward enough to stop the trigger after the sear drops. I secured mine with a stop nut after I had it adjusted. Wrap the grip with tape so you don't have that 1/4" hole in the web of your hand.
To eliminate TAKE UP, I drilled a 1/8" hole through the lower receiver from side to side, above the safety. I then slid a machine screw through the hole, above the tang of the trigger. I had to notch the bottom of the body and the top of the trigger to make room for the bolt. However, you can position it to stop the trigger from returning all the way forward, by quite a bit. There's at least 1/4" of pre travel, even with the safety on! We don't want that.
Side to side play/slop can be mitigated with washers/shims.
You can preload the sear, as well. Drill a 1/4" hole through the bottom of the trigger guard, behind the trigger. Drill a 1/8" hole behind the trigger slot. Insert a machine screw through the 1/4" and force thread it up into the 1/8" hole. The screw will hit the bottom of the sear and push it up, away from the trigger. This makes the overall travel of the sear less, and therefore you experience less CREEP.
Vertical ASA:
The big block of plastic in front of the trigger with the Stingray on it is hollow. Cut out the bottom. Slide a duckbill ASA up in there. Use machine screws to attach the duckbill to the "front" of the trigger guard. This portion is actually two layers thick, and you can countersink the heads of the screws so they aren't taking up real estate inside the trigger guard where your finger is.
The 2-penny Mod:
Put two pennies behind the guide for the mainspring. That's it.
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