2016-07-11

Sabrina Nichole

Found an animated GIF of this gal on a Chive post.  Via Google image search, I found out it's a Playboy model, Sabrina Nichole.  Apparently the GIF is from a video ("Lathered Up") on Playboy Plus.  Nice.  TijuanaBoobs?  Her Instagram has various headshots at least.

2016-07-10

AR308

In looking to SBR an AR-style 7.62 rifle, I needed to find 1) a DPMS-compatible rifle, and 2) one that was in stock.  That's been a challenge.  I almost picked up an Aero lower; fortunately I didn't because it was AR-10 style rather than DPMS.

One article I found comments on compatibility.

There's a spreadsheet that details some of the variants; however, it doesn't differentiate between DPMS gen 1 and 2, and the Aero Precision M5 is compatible with DPMS gen 1.

Brownells has a bunch of AR308 parts, of course.

2016-06-04

Topical Black Rifle Stuff

A link dump, of sorts.

  • San Tan Tactical's STT-15 lower receiver: I need this ambi receiver for my 2nd SBR.
  • The Maxim Defense CQB stock looks like a good alternative to the MVB ARC stock, being 4 oz lighter, but 1/2" longer.
  • Tennessee Arms Company has hybrid polymer lowers for cheap; featured in Firearms News along with the KAK Industry .358 Win barrel.  Also has 80% polymer lowers.
  • Veriforce Tactical has M-Lok handguards, some in pistol size that cost under $100.  Sounds like a good deal for a car gun.
  • The GunTec USA M-Lok handguards look almost identical, but were advertised in Firearms News.
  • Thordsen Customs has a CAA stock saddle basically mounted on the buffer tube.  I think I prefer the KAK Industry Shockwave Blade, but this is kinda a cool look.
  • And of course there's the Shockwave Blade: Not as bulky as the Sig brace, still counts as a pistol, but in a SHTF scenario, could be shouldered (illegally).  The .358 Win barrels pointed to by Firearms News are pretty cool.  Might have to build myself an AR-10-style rifle.

So many items, so little time.

2016-06-01

Can Design

Some light reading this evening on silencer design:
There was also a funky thread on .510 Whisper that's worth reading.

2016-05-16

American Bags

So I've been looking for a decent pack for a 72-hr application.  Most of the items of non-domestic manufacture are of poor design, so I'm looking for domestic-made gear.
I believe these are all U.S.-made, but I'll have to verify.  Also, Spec-Ops Brand seems to be domestic MFG.

2016-04-21

HESCO MIL

Apparently the military uses this product for barriers.  It consists of a welded-wire frame and a fabric to retain native soil.  Could be used for a shooting range's berm....

gizmag

Links I found as a result of an article on Jet Capsule's floating ocean home.


De gustibus non est disputandum

Latin for "In matters of taste, there can be no disputes" or "There is no accounting for taste".  Apparently.

2016-03-25

Guns & Radio

MNGunTalk has a thread on free trusts mentioning Dakota Silencer, Ben Rust, and GOCRA.

qrz.com has a thread comparing the Kenwood TM-V71A and Yaesu FT-8900.

EMP

The EMP Commission reports, both the 2004 and 2008 editions, can be found at the EMPact America website.

2016-03-17

mods.dk

For ham radio hacking, there's mods.dk.

SHTF Channels

Another post on Slack #radio was for SHTF channels to program into radios.  I need to do this.

Amusingly enough, the site has a list for militia channels, too.

Disks for Data Centers

Google released a whitepaper on their wishlist for HDDs.  It's somewhat amusing that they appear to think that ECC is still used.
"An obvious question is why are we talking about spinning disks at all, rather than SSDs, which have higher IOPS and are the 'future' of storage. The root reason is that the cost per GB remains too high, and more importantly that the growth rates in capacity/$ between disks and SSDs are relatively close (at least for SSDs that have sufficient numbers of program-erase cycles to use in data centers), so that cost will not change enough in the coming decade."

Updated PiFM

One of the guys on Slack #radio at work tried PiFM on his RPi2 and found that it didn't work.  Apparently the project's been abandoned.  He found an updated project, rpitx, that does work.  His interest was using it as a foxhunt transmitter, which is also pretty cool.

2016-03-15

DIY Foxhunt Hardware

Using an RTL-SDR and four switched antennas to direction-find: link and paper.

Can Comparison

On the Minnesota NFA FB group, a guy posted a link to an Arfcom thread and YT video of a comparison of a bunch of popular rifle suppressors.  Very cool.  Apparently the Rugged Surge, Dead Air Sandman, or Silencerco Omega are the ones to consider.

2016-01-24

DIY Heat Treating

I came across this post on heat treating that looks quite useful.  It's reproduced here in case the page goes down:
First, know your steel. If you bought commercially available tool steel you should know precisely what it is. But if you are using something found, scavenged or of otherwise uncertain provenance you may have problems hardening it. The steel used in any given blade is not an easy thing to determine. A metallurgical lab charges a fair amount to test for alloy and there is no home test kit that I know of ("Look, Honey, it turned blue!") And there is some risk in quenching, say, an oil hardening steel in water. It could fracture at worst or warp like crazy at least. The old-timers "sparked" steels to tell what was in them. The sparks generated from a grinder will burn with different visual characteristics depending on the alloying elements. (Like the different colorants in fireworks.) So you can grind a corner, observe the sparks, then grind a known steel and try to compare the little spark-flares for shape, brightness, complexity, etc. and attempt a match.

Mostly we're talking oil vs. water hardening steels. The air hardening ones are the Cr-V and stuff that us Galoots don't use too much and that weren't used in old tools at all. It is safer to quench an unknown, perhaps water-hardening steel in oil than vice versa. The water-hardening steel may not harden in the oil and if that is the case, you can try again in water. I don't mean to muddy the water with all this but, hey, if it were easy, everybody'd be doing it.

The first step is to get the metal to its critical temperature, which with good old O-1 (the oil hardening stuff) is 1450° - 1500°F. Got a good pyrometer? No problem. During the crystal transormation from ferrite to austenite steel ceases to be magnetic at that temp. This phenomenon is called the "Curie Point" after the discoverer, Pierre. So one can simply heat the metal till the magnet is no longer attracted to it then quench in oil. I like to use peanut oil because the flash point is very high which minimizes the risk of fire (the risk is still there, though; be prepared: use long tongs to handle the work to keep your hand out of the way, wear gloves and keep the fire extinguisher handy) and it smells nice(r) when it smokes. How to get the blade to the Curie point is probably the biggest problem for the DIYer. When the metal is glowing red, the carbon behaves as if it's in a liquid and can therefore migrate around as it pleases. This is necessary for the hardening to occur but near the surface of the metal those unfaithful little carbon atoms would just as soon run off with any available oxygen-sluts it runs into (oxygen is soooo seductive) and they're lost then forever. We hate that. We attempt to prevent this by: heating the metal in an inert (oxygen free atmosphere) and/or limit the time at red-heat (in air) to as little as possible. A torch makes both of those very difficult. It's very hard to heat something as large as a Norris-type blade evenly with a small torch-generated spot of heat. A forge fire is better because of its uniformity and it can be starved for air a bit to decrease the oxygen in its immediate vicinity. A small lab-type test oven works quite well. (Also used for ceramic glaze tests.) Toss in a charcoal briquette to scavenge some of the oxygen.

Update: There are coatings that prevent oxidation and carbon loss at www.rosemill.com that promise to make home heat treating a more successful endeavor.

When it's hit critical temp, remove it from the heat and quickly dunk it into a sufficient quantity of room temperature oil. Swish it around a bit until it's cooled throughout to below 150°F. It should now be very hard and too brittle to use. (If you attempt to file it, the file should skid on the blade.)

Two ways to temper to a useable hardness/toughness: by colors or by temperature. If you have a very accurate oven in the kitchen, just heat it to 325°F and you're done. An accurate deep-fryer will do the same but use a good thermometer to double check on the oven or deep fryer's thermostat. Without accurate temperature control, you'll have to use the surface oxide colors to know when enough is enough. First, clean some part of the blade (probably the flat area back from the bevel) till it's bright metal again. When heated, that spot will change colors (you've seen the rainbow of colors on any overheated steel) starting with a very faint yellow (called light straw). Since we like our blades Good-n-Hard(tm), stop there (remove from the heat, quench if necessary to stop any further increase.) Any color beyond the faintest straw is too much. (The blade will still work, it just won't hold the edge you want.) Be overly cautious with tempering. You can always re-temper a too-hard blade, but if you go too far and soften it too much, you have to re-harden it all over again. So if a blade seems too hard, just toss it back in the oven and go a little higher. The oven/deep fryer method is preferred, however because you can leave the part at tempering temperature long enough for true tempering to occur. The torch method, using the surface colors, may leave some of the transformation undone.

You're done. If the blade looks awful, you can sandblast or grind it pretty but it should work well regardless. Before honing, be sure to grind back the bevel a bit . That thin section probably took more than its fair share of carbon burn-out abuse and you need to get to the good stuff. (it could take as much as .025" to get through the de-carbed layer.) Same for the back. Doing a good job on the back is at least if not more important than the work on the bevel. A little extra elbow grease will remove the de-carbed layer and get to good metal. Don't forget: the back IS the Cutting Edge. Think about it. If the back hasn't been honed deeply enough, the blade will never work well.

Good luck!

-- Ron

Rem 870 Receivers

When Black Aces Tactical was still selling receiver kits separately, I thought about assembling a mag-fed shotgun...but wasn't sure where to get all the parts.  Similarly, if I wanted to build a tactical tube-fed pump, I'd have to buy a normal one and trash the stock parts (or pay out the nose for the stock tactical).  I'd heard that the Police and Marine models had superior non-MIM parts, too.

So I found a site, AI&P Tactical, that sells both virgin receivers and parts.  Cool!  The owner also builds custom shotguns, but as of 2016 only will do 50 per year to avoid the excise tax on firearms manufacturers.

Can Knowledge

Mobile link dump.

I had been concerned about having "extra" suppressor parts, like mounts and endcaps.  Here's an example of apparently acceptable use in the industry.  There's a post on Reddit NFA regarding a SilencerCo Octane 45 that has an available 9mm endcap, apparently only available at SilencerShop.  (The description says "replacement," so perhaps that's how they get away with it.)  The interesting thing on the Reddit post was hole dimensions of the baffles: they seemed fairly loose at 0.493-0.495" for each of the eight, and 0.509" at the endcap.

Another post on Form 1 builds is from SilencerTalk.  It linked to an apparently famous thread dating back to 2008 regarding one user sub-sonic's build of a freeze plug can.  This must've been the prelude to the whole solvent trap suppressor craze....

The original thing that drove me to question mounts was mention of YHM Wraith cans, which apparently had the flash suppressor be the back of the can, yada yada yada.  Apparently it's a non-issue normally.

I came across another site that definitely treads the edge of legality, because it isn't until halfway down the page that it mentions one needs an NFA stamp to do this legally.  Unconstitutional or not, if one gets caught with an oil filter can and no stamp, one's gun rights are gone.

2016-01-23

Formula

Another couple tabs that were in my browser from at least a year ago....

About organic formulas
Making baby formula

OBD-II

These links have been open in my browser for months.  Time to dump them!

ELM327 support in Linux
Viewing OBD-II codes on an RPi

Being able to adjust engine parameters would be amusing, although my understanding is that they're proprietary.

2016-01-12

RPi Power Save

Haven't posted here for a while...no time!

Since I'm looking at running an RPi B or B+ for a HomeGenie server to drive a Z-Wave network, power consumption becomes an issue.  I started looking into power options.

This one Muslim dude (I wouldn't have known except the final comment in the post) has a page listing some of the options, which are to disable the USB hub/Ethernet, use the model A, underclock the core, and disable video output.  I hadn't realized that dynamic clocking could be used as power save; that somewhat compensates for the lack of sleep functionality.

The config.txt file is described at raspbians.com (which sounds like some strange flavor of lesbians...).  Actually, the official documentation is at raspberrypi.org.  The arm_freq_min, core_freq_min, and sdram_freq_min settings are used for dynamic power as long as force_turbo=0.

Edit [2016.01.24]: Using external hardware, it's possible to put the RPi into a suspend mode: Sleepy Pi and Witty Pi.  What I really want is something that'll go from suspend to active on network traffic (not WOL, which boots on network traffic).