|
The Seven
Project Part II
Handload Development
By
Joseph D'Alessandro Editor
| RealGuns.Com
 One
good reason for handloading the .223 Remington would be it's
small size. Small cartridge size interprets into small costs for
the most advanced bullet and powder technology, as well as small
costs for material storage and process tools. Is this savings
significant? On almost any Saturday afternoon, I can catch a
sale at the local gun store, and pick up 8 boxes of quality
.223 loaded ammo, for the same price I pay for 50 component
Barnes bullets for my .338-378. I can buy 100 match grade
bullets for the .223 Remington for about $10, but pay 8 times as
much for the same in .338" bore. Obviously,
the .223 Remington would not substitute for the .338-378 on a
bear hunt, but it is a great selection for recreational and
formal target
shooting, or as a utility gun. The .223 Remington choice allows a lot more
practice and shooting enjoyment, without having to float a
second mortgage for that privilege. Case
Preparation
 1000
pieces of .223 brass will fit easily into a one quart Ziploc
bag. 50 fit nicely next to a cup of coffee, which of course I
would never have on my bench for fear of contamination and spillage. New
brass creates a lot of work. Other than being new, it is also rough
around the edges, coated with something like machine oil or
preservative, dimensionally questionable, and possibly not
useable. I first chemically clean all new brass with Birchwood
Casey Brass Cartridge Case cleaner, then dump it in the
vibratory cleaner for 20 minutes or so, before conducting a
detailed and magnified examination of each piece.
 For
those of you suspecting I'm perhaps obsessive a little over brass prep, here are two examples pulled during
inspection of a 50 piece control lot. 4% of the new
Remington brass had filled flash holes, filled to the degree an
awl would not open the passage and I had to resort to a numbered
drill to remove the blockage. I'm
not sure, to an absolute degree, what the effect would have been
if I had missed these defects and dropped a hammer on primers
with no passage for high pressure gases to escape. Intuitively,
I'd have to think it wouldn't be good. Once brass has been used
successfully, inspections become a lot more routine, and brass a
lot more trustworthy.
 Let
me beat this new brass inspection issue to death just a little
bit more. I began with three quality reloading manuals. I
checked the spec, and made sure the spec matched across all. If
I had found a disparity, I would have looked through more until I was sure the
mismatched spec was a fluke, or at least a flounder. The
existence of disparities is not rare. The
maximum case length spec for the .223 Remington is 1.760"
with a trim to length of 1.750". The .010" difference
is the norm on most cartridges. Overall case length within the
50 piece control lot ranged from 1.748" to 1.750";
nothing earth shaking. I did have a problem with non-uniform case mouths that caused overall length to be measured
+/- .004", depending on how the case was rotated in the dial
caliper jaws. In addition, running each case through the full length
sizing die increased overall length by .001" to .003",
dependant upon the raw case neck inside diameter and the expander
ball drag when withdrawn.
 For
the sake of uniformity in bullet seating and overall dimensional
control, I set up my RCBS case trimmer and cut everything to a
uniform 1.750". This put the cases right on spec. With
this out of the way, I ran an inside/outside reamer over each
case mouth. The result was 50 cases, all very uniform in
dimension and quality. Bullet
Selection I've
handloaded the .223 Remington for my Contender, but not for
a rifle. What can I say, I'm slow to catch onto trends and I've
been pretty busy since 1957. I was hoping some of the
information I developed around the 14" barreled T/C would
carry forward to the short 20" barrel of the Model Seven,
including the 50 and 55 grain short bullet selections, as the
Seven has a relatively lazy 1:12 twist. I know those AR15 guys
always seem to be going for 100 grain .224 bullets and a
1:5" twist for best 2,000 yard stability, but I fortunately
only have to hit the occasional rodent or large piece
of very nearby paper.
|
 |
Supplier |
Bullet
Type |
Weight
grains |
Overall
Length |
Calculated
Twist |
Street
Cost/100 |
| Speer |
TNT Hollow
Point |
50 |
.690" |
1:13.1 |
10.50 |
| Hornady |
SX Super
Explosive |
50 |
.650" |
1:13.9 |
10.50 |
|
Combined
Technologies |
Ballistic
Silvertip |
50 |
.785" |
1:11.5 |
17.50 |
| Remington
bulk |
Pointed
Soft Point |
50 |
.690" |
1:13.1 |
5.80* |
*
Price per 100 when purchased in 1000 piece lots |
From left to right,
the first two bullets are for shots at small varmints when
environmental clean
up requirements are not desired. They are thin jacketed and made
to cause maximum damage on contact. The third, and the only boat
tail bullet on the list is similar in construction and purpose,
but designed more for long range stability and delivery.
Finally, a Remington bulk bullet with conventional jacket and
exposed soft point which will no doubt see the most use with the
Model Seven. Over spin on bullets is not a problem within
reasonable limits, and all of these bullets should have no
problem stabilizing with the 1:12 twist. The ideal bullet
length, calculated with the Greenhill formula is approximately
.750", so there should be no problem moving up to 55 grain
and 60 grain bullets if desired, but in the interim the 50 grain
bullets should churn up a bit of speed.
Powder
Selection
 Who
knows what thoughts run through the mind of a handloader when selecting powder; there are many factors to consider. I like
to start with a comparison of all manuals and credible other
load data. I plot a graph or build a table; by powder, by
publisher, by velocity per grain. Next
I look in my powder locker to see what I actually have
available, then I look at my prior month's powder purchase
receipts, and carefully consider how my wife will react to new receipts.
Let's not dwell on my wussyboy like tendencies, let's just see what a
table looks like.
| Powder
Type |
50
Gr. Bullet |
| Grs |
Vel |
gfps |
Grs |
Vel |
gfps |
Grs |
Vel |
gfps |
Grs |
Vel |
gfps |
Grs |
Vel |
gfps |
| IMR
4895 |
25.5 |
3379 |
132 |
27.0 |
3300 |
122 |
26.0 |
3260 |
125 |
26.5 |
3200 |
121 |
27.0 |
3313 |
123 |
| IMR
4198 |
22.0 |
3407 |
155 |
22.2 |
3300 |
149 |
22.0 |
3230 |
147 |
22.0 |
3200 |
145 |
|
|
|
| IMR
3031 |
25.0 |
3398 |
136 |
25.7 |
3400 |
132 |
|
|
|
25.2 |
3300 |
131 |
26.0 |
3284 |
126 |
| AA
2520 |
|
|
|
|
|
|
|
|
|
|
|
|
28.0 |
3328 |
119 |
| Re
7 |
23.0 |
3424 |
149 |
|
|
|
|
|
|
22.1 |
3200 |
145 |
|
|
|
| Win
748 |
|
|
|
28.3 |
3400 |
120 |
26.5 |
3260 |
123 |
|
|
|
28.5 |
3398 |
119 |
|
Manuals
> |
Barnes
#2 |
Hornady
#5 |
Nosler
#4 |
Sierra
#4 |
Speer
#13 |
|
Barrel
length: Sierra 20", Speer 22", all other
24" |
The legends and
titles are pretty much self explanatory with the exception of
"gfps" or "grains - feet per second", which
is simply the number of fps generated per grain of powder. I use
this indicator to determine if a manual is sandbagging with
excessive safety margin across all loads. If all loads and powder types are
proportionally lower compared to the other manuals, with equal
circumstance, sandbagging is quite possible. I also look for
flyers where fast powders show a significantly lower level of
fps per grain, compared to slower powders. If
I wanted to make a conservative investment in powder, I would
look for source consensus. In this case Winchester 748 would be
my first choice and IMR 3031 my second choice, since I tend to
use velocity as a higher priority and place less faith in
accuracy representations in manuals. With the exception of very
old type ball powders, I haven't actually seen much variation in
practical accuracy levels with most current products. In
this case, I'm going to load for all of these powder types and
see if the results validates this table approach. All of the
powders indicated demonstrated some redeeming qualities in one
publication or another, so I believe they are all in a practical
universe for selection. I
did want to make one comment relating to supply of smokeless
powder. I buy powder just like everyone else, so I need to shop
around to keep cost at some reasonable level. I am working on
another article that compares prices and service levels of
suppliers, but I didn't want to delay in mentioning
Lock
Stock & Barrel in Valentine, NE. Buying in any
reasonable quantity, I've been able to save between $4 and $7
per pound over local California prices, and the folks at
LS&B will work with you to put together the most cost
effective shipment when combining powder, HAZMAT and shipping
costs. Like Brownells, another favorite source, LS&B runs a
great organization, predicated on high levels of customer
service. Assembly
Cartridges
 If
you've followed any of my work in the past, you'll see I've made
a great breakthrough in material handling, I've sprung for
Winchester loading blocks. I don't like to rush into anything,
but these were pretty nice. I
still use bottled RCBS case lube, and I size before trimming and
final case cleaning. I have found the spray lubes to be inexact
in application, sometimes causing shoulder dimples from too much
lube and over spraying my loading bench. I
have never been able to full length size without altering case
length, so I still trim afterward. The expander ball just hooks
the inside of the case neck at the shoulder and pulls it forward
a few of thousands, so there is not much reason to trim before
hand. I still have a suspicion that after I play around with the
overall case length process, it all goes back to zero when I
drive the bolt home and set the shoulder back .003", or
where it was before the expander ball pulled it forward. One day
I'll cut away a barrel and video tape the exact dynamics...sure.
 The Lock-N-Load adapters from Hornady for the RCBS Rock
Chucker press must be useful, because they haven't been
relegated to the bottom shelf of my tool storage cabinet. I use
the adapters all of the time, and progressively add them as each
cartridge comes up in rotation to reloading. The
adapters really do allow me to plop in a sizing die without any
adjustment whatsoever, and they eliminate chasing down tools to
loosen and set lock rings.
 Here
is my trusty APS press. Another tool that proved to be very
practical, and to have a positive effect on cartridge quality.
In the case of the .223 Remington,
the planned loads require a combination of small rifle and small
magnum rifle primers. The APS press allows me to easily change
from one type to another and work, quickly, through the entire
load sheet. My only grip about this set up is the single flimsy
shell holder plastic primer guide they supply with the press. It
will wear out quickly, and good luck finding replacements when
you're in a hurry. If you use this system, call RCBS and order a
dozen bushings and several internal plastic primer strip
detents.
 This
duo's usefulness was in question for quite some time. In
reality, working down a long load list is a very good
application for this equipment. It
takes several minutes to calibrate for each powder type, but you
can be doing other work while the scale and dispenser play robot
wars and self adjust through infrared port communication. Once
set, all you need to do is punch in the amount to be metered and
the combination will deliver a very accurate charge. There is an
absence of blazing speed, but it would take longer to meter
manually and a mechanical scale might not be as accurate. (And
then the enjoyment of a new toy wore off and I never used it
again - too slow, too inflexible.) I'm
going to take a break at this point so I can concentrate on
assembly and logging. The next installment should cover anything
unique that occurred during the balance of handloading, as well as
range results and a wrap up on the Model Seven.
More "The
Remington Model Seven":
 The
Remington Model Seven...a great place to start
The Seven Project Part I Quick Detach Mount System
The Seven Project Part II Handload
Development
'The Seven
Project Part III - even more development
The Seven
Project Part IV
Handload
Data - 223 Remington
Thanks,
Joe |
