RIFLE CARTRIDGES
Quality is decisive
Customized projectiles
Compromises are not allowed when it
the development of a product right to the
RWS is the world‘s
test barrels. The spe-
comes to the quality of ammunition. The
final visual inspection in Quality Assur-
only major producer
cialist weapon trade is
shooter‘s safety takes top priority in both
ance. All components, from the ignition
of rifle cartridges who
development and production. Although all
cap over the case and propellant right
offers bullets for hunting purposes of its own manufacture
regulations contained in the weapons code
to the projectile, pass through a perma-
exclusively. More than nine different hunting projectiles and
fications. The above are the most important ones of the many
are binding on every producer of ammuni-
nently monitored production process.
numerous other types for military, police, industrial and sports
process steps necessary to create the special RWS projectiles.
tion, certain quality differences are clearly
supplied with nothing but bullets, which have satisfied the strict RWS-internal speci-
Perfectly matched to each other, the
applications are available, which no doubt makes RWS the
We have been masters at these procedures for generations.
apparent in practice. This applies particularly to cheap
components are then assembled/filled and subjected to
supplier with the widest spectrum of projectiles altogether.
Nothing enjoys a higher priority with us than your success
brands, where it is only logical that some areas are sub-
a series of strictly specified quality inspection procedures.
Latest production methods guarantee highest dimensional
when you are out hunting.
ject to big savings. RWS, on the other hand, resolutely fol-
More than 100 production steps are required before a car-
accuracy and impeccable surface characteristics. The jacket is
lows the high-grade route here, from the original idea in
tridge is released for delivery.
What are the particular characteristics of rws projectiles?
drawn and cut to length several times, and one or two lead cores are pressed in, depending on the type of bullet. Grooves
• Outstanding precision
and other features are produced to suit the specific projectile.
• Optimally stretched trajectory
A last dimensional and visual inspection follows after the pro-
• Energy output in the body adapted to the weight of the
jectile is calibrated. Random samples are taken daily from
Cup
1st draw
2nd draw
Cutting
Prepressing Head pressing Necking and Turning of rim perforating and length
game
each production lot to check the precision. The projectiles are
• Readiness for deformation appropriate to the firing distance
loaded into to cartridges and thoroughly tested from different
• Short escape distances
It‘s the perfect mixture that makes the difference
How do we achieve the high quality level of our RWS cases?
• at 10% excess pressure in especially prepared test barrels
All assembly stages from
nied by electronic as well as
After the bands are punched this starts already with the dra-
with partly inadmissible head spaces of 0.2 mm and 0.4 mm.
the insertion of the ignition
visual inspections. Detailed
wing of the cups. RWS cases are drawn in three stages, anne-
These head spaces are to simulate worn weapons, which
cap over the lacquering of
aled after each draw, pickled, rinsed and subjected to further
exist on the market.
the ring gap, filling of the
measures increasing the quality. The effect is a specific course
• At 30% excess pressure in test barrels produced to CIP spe-
in the hardness of the brass case and an increased resistance
cifications.
to exceptional strains. After the first cutting operation the
Here we have developed a test programme, which extends far
cases are pressed, the mouth of the case is annealed once
beyond what is required by the law. Even competitors describe
testing of the chambering Anvil-type ignition
Nitrocellulose powder
Projectile
Case
ability (by gauge) and auto-
propellant, placing of the projectile right to the adjustment of
matic weighing of each cartridge prior to packing complete
the cartridge length and crimping of the bullet are accompa-
these inspections.
more; the case is pickled, rinsed and saponified. Next, the
this procedure as a merciless testing method, which reliably
case mouth and shoulder are necked, the ignition channel is
reveals possible existing nonconformities in the propellant case.
Gelatine is the ballistic target medium, which
draw exact conclusions on the energy output
perforated, the rim is turned and the case cut to length again.
Rifle cartridge cases must withstand most extreme gas pressu-
comes nearest to the density ratio of muscular
Annealing of the case mouth takes place once more before
res of up to 7,000 bar. It is not for nothing that experts refer
tissue. This makes the material perfectly suit-
the case undergoes a 100% dimensional and visual inspec-
to them as the shooter‘s life insurance. We have developed
able for developing and testing projectiles, so that scientists
of rays are evaluated. A curve results, from which the transfer
tion. Random samples are taken from each lot before produc-
this probably most demanding test of the industry to ensure
can optimally simulate the effect in the body of the animal.
of energy into the body can be deduced. On the next pages
tion progresses. These samples are assembled/filled to com-
that you are always on the safe side. A case, which passes our
The test firings provide information on the energy transfer
you will see the results of the different special RWS projec-
plete cartridges and subjected to extreme excess strains:
quality inspection, is of a special format, it is an RWS!
behaviour of a bullet. The course of the tear length permits to
tiles (.30 calibre) fired at blocks of gelatine.
2
in the body. After firing the block of gelatine is Firing onto the gelatine block
3
sliced and the tear lengths visible in the form
“Impressive performance, 91% to 97% resid-
Penetrates deeply
ual bullet weight, perfect for hunting at normal and long distances”
Evolution bullet
from „Patronen im Test“, Asmo Talvikunnas and Henrik Olbert, DWJ, 12/2005 Simulated wound channel in gelatine block
.30-06 EVO 11,9 g .308 Win. EVO 11,9 g • Impressive penetration – even with bone hits!
• Excellent precision
The advantage in effect of the Evolution bullet is very impressive with shots hitting bone, especially in heavier game: Upon contact with the game body, the deformation process is reliably initiated by the new Rapid-X-Tip®. The Evolution® bullet emits enough energy at the entry side to trigger the required shock effect. Classic softpoint bullets fragment when hitting stronger bones and therefore have less residual energy for penetration and exiting. The Evolution® bullet remains essentially mass stable. This ensures that the required penetration is achieved even after bone contact and provides a high chance of a clean exit (see graphic below).
The Evolution bullet is characterised by its good ballistic precision. This is a result of its many new features including the friction reducing nickel plating of the cartridge jacket and the ballistically optimised calotte of the bullet. The aerodynamic geometry of the Evolution® allows a longer trajectory and ensures higher shock energy even at longer distances.
®
• Venison preservation – almost 100% residual weight due to Power Bonding
With the Evolution bullet fragmentation is reduced to a minimum. By special bonding of the lead core with the Tombak jacket (Power Bonding), the Evolution® cartridge achieves a residual weight of nearly 100% and therefore ensures impressive venison preservation.
®
“A very precise projectile for all middle Euro-
THE SPECIAL QUALITIES AT A GLANCE: • Impressive penetration – even with bone hits! • Wenison preservation – almost 100% residual weight due to power bonding • Excellent precision • Barrel protection
pean game with a special adequacy for game weighing from 50 kg upwards (dressed carcass). Most probably also a perfect choice for driven hunts for wildboar and deer, with plenty of power for all sizes of game, delivering a suf-
• Flexible application options • The deformation process is quick and reliably initiated by the new Rapid-X-Tip®
ficient blood trail… The precision produced from all guns in use (Merkel-Bergstutzen, Blaser R 93 Varmint,
• Barrel protection
Blaser BBF 95) is outstanding… Exit holes
Many hunting cartridges cause high transverse stress in the barrel due to their rigid jacket construction. This is not a problem with the new Evolution® bullet thanks to the design of the flexible calotte. The bullet’s smooth nickel cover reduces deposits in the barrel to a minimum.
were consistent, even with diagonal shots at game over 50 kg (dressed carcass) … The bigenough exit holes dependably yielded ample blood” Frank Heil, Journalist for leading hunting magazines
®
• Flexible application options
Due to its unique construction the Evolution® bullet delivers consistent deformation at all shooting distances and on all types of game. Its extraordinary penetration is extremely effective on larger and heavier game.
.30-06 EVO 11,9 g .300 Win. Mag. EVO 11,9 g Increasing jacket wall thickness
“Out of 5 roebucks shot at the heart 4 went straight down and just one buck ran about 20 m. Exit holes showed a diameter of 2 to 3 times
Lead core with precise hardness
the caliber. Even with hits on bone no destructive performance was noticed.Two wild boars of
Bullet core bonded with jacket
Circular sharp edge
20 kg each were prompt kills without noticeably wasting venison.” Björn Ebeling, Wild und Hund, No 23/2005
POWER BONDED Crimp groove
Nickel plated Tombak jacket
Bullet tail with ballistic calotte
EVOLUTION
Residual body of projectile
4
5
Handles anything
8 mm S HMK, 12.1 g “... The HMK behaves exactly in the way
Twin-core bullet (DK)
intended by its design, as a partially bursting Simulated wound channel in gelatine block
projectile. The tip bursts quickly by releasing frag-
Tombac jacket The twin-core projectile consists of two lead cores
THE SPECIAL QUALITIES AT A GLANCE:
of different hardness and a jacket of tombac. For
• Good and safe reaction of the game to the shot
the separation from the softer tip core, the harder
• Extremely short escape distances
tail core is provided with an additional tough
• The sharp rim resulting from the design guaran-
tombac jacket. The weight ratio of the cores is
tees the desired hair at the location of impact
50:50. A tail groove located in the rear section of
• Optimal energy transfer in the first half of the
the projectile reliably bonds the tail core to the outer jacket. A second groove in the front section forms the sharp rim (hair at location of impact)
cylinder. The bullet produces best references also Softer tip core
• Only minor devaluation
ing point for the front jacket of the bullet. This is an
of the venison
From “68 rifle projectiles and how they act in the animal‘s body”
Sharp rim and predetermined breaking point
• A reliable bullet exit hole guarantees sufficient
and is at the same time the predetermined break-
from big-game hunters.”
Inner jacket of tombac
body blood
ments, while the rest acts as a stable penetrating
Longer projectile cylinder
(Hunt & Nature, issue 5/1999)
Tail constriction
important aspect for the tearing-off of the otherwise hindering bullet flares. The design results in a
RWS twin-core (DK), 165 gr.
Harder tail core
straight shot channel, which causes the important bullet exit hole.
“In line with the underlying philosophy, the front part of the projectile bursts while releasing the
Residual body of projectile
appropriate fragments.The rear part remains intact as a penetrator. Good shooting reports on red deer
Acts quickly
are to hand.” From “68 rifle projectiles and how they act in the
H-jacket bullet (H-Mantel)
animal‘s body” Simulated wound channel in gelatine block
(Hunt & Nature, issue 5/1999)
Hollow tip of copper Special about this bullet is its famous H-groove, a
THE SPECIAL QUALITIES AT A GLANCE:
predetermined breaking point in the shape of a
• Limited fragmentation due to the H-shaped con-
constriction in the middle of the jacket. It assists the separation of the two projectile cores and is, along with other factors, responsible for the bullet‘s dual
“...Approx. 75 % of the shot animals lay at
striction
the location of hit or within a minimal distance
• The tail part is slightly deformed upset in its diameter and thus provides an exit hole reliably
effective system: the front part bursts very quickly
• The venison is destroyed to a minor degree only
after the impact in the game, produces strong frag-
• Quick death of the animal from shock
Tip core
after a short death flight. Even at greater firing distances the projectile provided the desired effect
ments and transfers much energy. The cylindrical
H-shaped constriction with deformation and separation of the front part
tail part separates at the H-groove, penetrates the body even if bones of strong animals are hit, and
of the bullet. There was hardly any haematoma
provides the desired exit hole.
Tombac-plated steel jacket
formation.
Tail core The projectile‘s good precision is impressive. ..“ Norbert Klups, freelance journalist for Residual body of projectile
6
leading hunting magazines
7
Hits ideally
„... In summer I choose the ID Classic for roe-
ID Classic bullet
bucks and also for the foxes. Where we live we
Simulated wound channel in gelatine block The basic idea of the ID Classic is to ideally com-
THE SPECIAL QUALITIES AT A GLANCE:
bine the „width and depth effect“ in the target.
• The sharp rim punches a distinct, circular bullet
This was achieved by uniting two lead cores of dif-
entry hole and provides the desired hair at the
ferent hardness: the soft front part in the shape of
location of the impact
a plug reaches into the rear, hard and heavier part. This “marriage of lead” is enclosed by a jacket
• The front core bursts and releases fragments to a • The harder rear core with its funnel-shaped recess
towards the rear. The torpedo tail with its bigger
mushrooms and as a rule provides the sought
base area (by one third) improves the external-
bullet exit hole
The rear core of the ID Classic projectile is more
my repeater I succeeded already several times in
Softer tip core
bagging more than one young wild boar from the Nickel-plated steel jacket
limited degree
of soft steel, which becomes gradually thicker
ballistic behaviour thanks to higher flight stability.
get an ever increasing number of sows and with
horde. At these game weights the ID Classic of Sharp rim calibre 7x64 bans the shot animal on the spot.
• The necked tail limits the tearing off of the jacket flares
laid out for readiness to mushroom and energy
• IDEAL for hunting light
transfer in the body of the animal, which makes
to medium-sized game
Harder tail core
There is always a bullet exit hole and if the young Tail constriction boar happens to go a few metres into any thicket I
the bullet particularly suitable for cloven-hoofed game of light to medium weight.
find sufficient blood even by the eye.“
Torpedo shaped tail Residual body of projectile
Hans Heinlein, hunter and farmer
Extra hard
„...I have been using the UNI Classic bullet in
UNI Classic bullet
calibre .30-06 Springfield in my 98 for years, Simulated wound channel in gelatine block with growing enthusiasm. What I particularly like
The UNI Classic bullet was developed as a comple-
THE SPECIAL QUALITIES AT A GLANCE:
tion to the ID-Classic - especially suitable for hunt-
• The sharp rim punches a distinct, circular bullet entry
ing medium to big game.
hole and provides the desired hair at the location of
The harder and heavier tail core of the UNI Clas-
the impact
sic reaches with its tip into the soft part at the front. As a result the projectile tends somewhat less to mushroom, while its penetration force is increased. The torpedo shaped tail with its
Softer tip core
about it is the very good effect on red deer and wild
Nickel-plated steel jacket
boars. This is especially evident also when leadSharp rim
• The front core bursts and releases fragments to a limited degree
ing guests to strong stags, in the repeat or finishing
• The harder rear core tends to retain its shape and reliably provides the desired bullet exit hole
bigger base area (by one third) improves the
• The venison is destroyed to a minor extent only
external-ballistic behaviour thanks to higher
• UNIVERSALLY applicable for hunting heavy game up
Harder and heavier tail core
Tail constriction shot. The shot game reacts clearly. The bullet exit
to dangerous game
flight stability.
hole provides ample blood at the location of the hit
and on the escape trail...“ Torpedo shaped tail Ulrich Maushake,
Residual body of projectile
8
Federal Forestry Office, Grafenwöhr
9
Mushrooming
Philosophy or science
Cone-point bullet KS THE SPECIAL QUALITIES AT A GLANCE: • Exceptionally high precision thanks to the long projectile guidance • Low fragmentation • The groove in the tail area of the bullet stops thedeformation and ensures a compact residual-size body with a high exit probability
Typical cone shape
Lead core
Tombac jacket Long projectile cylinder
Tail constriction
Which projectile is the best?
To hunters with hounds, in turn, the guaranteed bullet exit
To this seemingly simple question there is no universally valid
hole and the presence of evidence such as hair at the loca-
answer because the general conditions to be considered are
tion of impact are an absolute necessity. Many of these crite-
too divergent. Aspects from the type of game, distance, cali-
ria are difficult to harmonize and some are starkly contrasting.
bre, barrel length, altitude, etc. right to the personal prefer-
This means that one must come to a compromise with every
ences of the hunter need to be taken into account. While pre-
projectile. The question of the optimal bullet is a very subjec-
cision is of utmost importance to some, others are frequently
tive matter. This is why RWS offers a wide spectrum of projec-
hunting close to the border of their shoot and therefore rely
tiles, especially designed to meet the different priorities of the
on short escape distances of the animals. Yet others attach
users. The chart below is intended to assist you in the search
greatest importance to a minimal destruction of the venison.
for your ideal bullet for the case on hand.
Residual body of projectile
Simply good Soft-point bullet T-Mantel THE SPECIAL QUALITIES AT A GLANCE: • Rapid expansion even on small game • Very good price/performance ratio • Well suited for shooting at targets and for pratice.
Round or pointed tip of projectile
Lead core
Tombac-plated steel jacket
Residual body of projectile
10
Precision
Very good
Very good
Very good
Good
Good
Very good
Good
Escape distance
Short
Very short
Very short
Very short
Short
Short
Short
Penetration
Very high
High
Medium
High
High
High
Medium
Shock effect
High
Very high
Very high
Very high
High
High
High
Exit hole
Certain
As a rule
Certain
As a rule
Certain
As a rule
As a rule
Hair at location of impact
Yes
Yes
No
Yes
Yes
No
No
Destruction of venison
Very little
Little
Varying
Varying
Little
Little
Varying
11
Barrel length V2) mm BC- Value 1) E
Bullet Order No.:
Fundamentals of ballistics
xis
of
t
50m 100m
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
Application range
.22 Hornet MJ 3,0 g
600
V[m/s]
740
642
552
472
403
351
316
⊕
100 m
+0,5
⊕
- 8,7
-28,5
-63,6
211 63 67
0,140
E[J]
821
618
457
334
244
185
150
MRD
134 m
+2,4
+3,7
-3,1
-21,0
-54,3
TMS 3,0 g
600
V[m/s]
740
650
566
490
423
369
330
⊕
100 m
+0,4
⊕
-8,2
-26,7
-59,1
211 63 75
0,152
E[J]
821
634
481
360
268
204
163
MRD
136 m
+2,3
+3,8
-2,5
-19,1
-49,7
-118,6 -107,5 -109,7 -98,4
VMS 3,0 g
600
V[m/s]
740
650
566
490
423
369
330
⊕
100 m
+0,4
⊕
-8,2
-26,7
-59,1
-109,7
211 63 83
0,152
E[J]
821
634
481
360
268
204
163
MRD
136 m
+2,3
+3,8
-2,5
-19,1
-49,7
-98,4
Target and Target
.222 Rem.
re
he
0m
bo
MRD (GEE)
a
TMS 3,24 g
600
V[m/s]
211 64 05
0,186
E[J]
MJ 3,4 g
600
V[m/s]
231 26 35
0,183
E[J]
970
882
800
722
649
580
516
⊕
100 m
-0,9
⊕
-2,9
-10,6
-24,2
1524
1260
1037
844
682
545
431
MRD
181 m
+1,1
+4,0
+ 3,1
-2,6
-14,1
-45,1 -33,0 -43,9
985
895
810
730
655
584
519
⊕
100 m
-1,0
⊕
-2,8
-10,2
-23,4
1649
1362
1115
906
729
580
458
MRD
183 m
1,0
4,0
3,2
-2,2
-13,5
-32,0
Target
and Target
.223 Rem.
Line of sight 5 cm
TMS 3,6 g
600
V[m/s]
211 64 72
0,207
E[J]
990
910
834
762
694
629
568
⊕
100 m
- 1,0
⊕
-2,5
-9,3
-21,2
-39,4
1764
1491
1252
1045
867
712
581
MRD
189 m
+1,0
+4,0
+3,5
-1,3
-11,2
-27,4
and Target
5,6 x 50 Magnum Trajectory curve
TMS 4,1 g
600
V[m/s]
211 64 99
0,240
E[J]
920
854
791
731
673
618
566
⊕
100 m
-0,8
⊕
-3,1
-10,8
-24,0
-43,7
1735
1495
1283
1095
929
783
657
MRD
180 m
+1,2
+4,0
+2,9
-2,8
-13,9
-31,6
5,6 x 50 R Magnum TMS 3,24 g
600
V[m/s]
1070
975
887
804
726
653
583
⊕
100 m
-1,2
⊕
-1,9
-7,7
-18,1
-34,3
211 68 47
0,186
E[J]
1855
1540
1275
1047
854
691
551
MRD
201 m
+0,8
+4,0
+4,0
+0,3
-8,1
-22,4
TMS 3,6 g
600
V[m/s]
1000
919
843
770
702
637
575
⊕
100 m
-1,0
⊕
-2,4
-9,0
-20,6
-38,3
211 64 48
0,207
E[J]
1800
1520
1279
1067
887
730
595
MRD
191 m
+1,0
+4,0
+3,6
-1,0
-10,6
-26,3
TMS 4,1 g
600
V[m/s]
211 65 02
0,240
E[J]
TMS 4,6 g
600
V[m/s]
870
808
211 68 63
0,248
E[J]
1741
1502
KS 4,8 g
600
V[m/s]
1040
973
909
849
791
211 67 15
0,260
E[J]
2596
2272
1983
1730
1502
KS 6,2 g
600
V[m/s]
211 68 12
0,294
E[J]
900
835
773
713
656
602
551
⊕
100 m
-0,7
⊕
-3,4
-11,6
-25,6
-46,4
1661
1429
1225
1042
882
743
622
MRD
175 m
+1,3
+4,0
+2,6
-3,7
-15,6
-34,4
749
693
639
587
538
⊕
100 m
-0,6
⊕
-3,8
-12,7
-27,6
-49,7
1290
1105
939
793
666
MRD
170 m
+1,4
+4,0
+2,2
-4,7
-17,6
-37,7
735
681
⊕
100 m
-1,2
⊕
- 1,8
-7,0
-16,1
-29,7
1297
1113
MRD 206 m
+0,7
+3,8
+4,0
+0,7
-6,5
-18,2
5,6 x 52 R DETERMINING THE BALLISTIC DATA
bres it is generally 600 mm. The velocity (V) is quoted in m/s
The ballistic data quoted for RWS rifle cartridges do not rep-
(metres per second), and this at distances of 0, 50, 100, 150,
resent absolute values. They are average data gathered from
200, 250 and 300 m. With standard cartridges the velocity
numerous measurements with weapons of different makes.
decreases or increases by 10 - 15 m/s if the weapon‘s barrel
Unavoidable dimensional tolerances in weapon and cartridge
length is 50 mm shorter or longer, respectively, than the
manufacture can influence the data to a minor and different
stated length. In the case of high-performance cartridges this
barrel length to a greater extent. These firing results from all
value can fluctuate by up to 20 m/s. The telescopic sight is in
cartridges have been collected under identical test conditions
principle mounted in such a way that the distance between
TMS 6,5 g
600
V[m/s]
in the ballistic laboratories and evaluated by means of the
the line of sight and the axis of the bore is 5 cm. The positive
211 68 71
0,371
E[J]
5,6 x 57
.243 Win.
latest software. The figures stated in the ballistic data are gen-
values mean high shot, the negative ones low shot. To deter-
6,5 x 54 Mannl. Sch.
erally applying to a horizontal shot fired at 0 m altitude, i.e. at
mine the position of the point of impact it is recommended
TMR 10,3 g
450
V [m/s]
sea level.
to fire at least three shots.
211 70 37
0,315
E [J]
955
899
846
795
745
697
651
⊕
100 m
-1,0
⊕
-2,5
-8,8
-19,6
-35,4
2827
2505
2219
1959
1721
1506
1314
MRD
191 m
+1,0
+3,9
+3,4
-1,0
-9,9
-23,8
730
692
⊕
100 m
-1,0
⊕
-2,5
-8,7
-19,0
-34,0
MRD
193 m
+1,0
+3,9
+3,4
-0,8
-9,3
-22,3
935
891
849
808
768
2841
2580
2343
2122
1917
670
628
587
548
512
2312
2031
1775
1547
1350
1732 1556
⊕
100 m
0,6
⊕
-7,8
-23,7
-49,0
-85,2
1172 1024
MRD
140 m
2,6
4,0
-1,7
-15,7
-39,0
-73,2
⊕
100 m
-0,8
⊕
-3,1
-10,4
-22,5
-39,8
MRD
182 m
+1,2
+4,0
+2,9
-2,4
-12,5
-27,8
⊕
100 m
-0,7
⊕
-3,5
-11,6
-25,1
MRD
175 m
+1,3
+4,0
+2,6
-3,6
-15,0
-44,7 -32,6
⊕
100 m
-1,1
⊕
-2,1
-7,8
-17,8
-32,7
MRD 200 m
+0,8
+3,9
+3,8
0
- 8,0
-21,0
-35,7 -23,8
477
446
6,5 x 55 STRUCTURE AND INTERPRETATION OF THE CHARTS FROM
THE MOST RECOMMENDED DISTANCE (MRD)
KS 8,2 g
650
V[m/s]
885
842
800
759
720
682
645
PAGE 20
The MRD is the point at which the projectile‘s trajectory inter-
211 70 02
0,361
E[J]
3211
2907
2624
2362
2125
1907
1706
The ballistic coefficient (BC) describes the projectile-related
sects the line of sight the second time. Hereby the projectile
DK 9,1 g
740
V[m/s]
635
593
influences on the delay of the projectile caused by the air
is not allowed to depart from the line of sight by more than 4
211 69 95
0,305
E[J]
resistance, i.e. it is a measure for the bullet‘s ability to over-
cm. In the depicted example this means that the aiming point
come the air resistance. This delay depends on the projec-
does not have to be altered in case of a distance of up to
TMS 6,0 g
600
V[m/s]
1010
943
880
819
761
211 70 61
0,255
E[J]
3060
2668
2323
2012
1737
870
820
771
724
679
3444
3059
2705
2385
2098
tile‘s shape, mass and velocity, and also on the air density.
209 m. It allows the hunter to concentrate on the game and
KS 7,0 g
600
V[m/s]
945
892
841
792
745
sighting-in is possible at 100 m all the same. In the case of a
211 70 10
0,308
E[J]
3126
2785
2475
2195
1943
weight. The energy values are stated in Joule (J), and this for
7 x 64 at this distance, for example, the weapon would need
KS 8,2 g
600
V[m/s]
the distances from 0 to 300 m.
to have a high shot of 4 cm to guarantee a spot shot (MRD).
211 70 96
0,361
E[J]
DK 9,1 g
600
V[m/s]
231 43 52
0,305
E[J]
TRAJECTORY CURVE
tance between centre of telescopic sight and barrel axis) is
Next to the information on the cartridge, the barrel length
assumed to be 5 cm. If the actual sight height deviates from
Animal pictogram:
is stated. In the case of high-performance cartridges such as
this value, the MRD will alter as well. In this case the gun-
Scoring:
the 7 x 64, this is 650 mm. For the other rifle cartridge cali-
smith should sight-in anew.
1)
Capercaillie
827
786
746
707
2804
2533
2282
2049
653
⊕
100 m
-1,0
⊕
-2,5
-9,0
-19,8
1715 1506
MRD
191 m
+1,0
+4,0
+3,4
-1,0
-9,9
669
⊕
100 m
-0,7
⊕
-3,3
-11,0
-23,5
MRD
179 m
+1,3
+4,0
+2,8
-2,9
-13,5
-41,6 -29,5
⊕
100 m
-0,4
⊕
-4,4
-14,3
-30,5
-53,8
MRD
164 m
+1,6
+4,0
+1,6
-6,3
-20,4
700
656 632
1835 1638
810
762
715
670
627
585
545
2985
2642
2326
2042
1789
1557
1351
Fox
Roe deer
Wild boars
Red deer
Moose
Suitable Conditionally suitable
Highly suitable
BC = Ballistic Coefficient –
870 3103
706
1495 1279
2)
V = Velocity, E = Energy –
3)
MRD = Most Recommended Distance
The stated application ranges are a recommendation without commitment or intention to substitute personal experience.
12
6,5 x 57
The energy is calculated from the velocity and the projectile‘s
In the calculations of the ballistic charts the sight height (dis-
1835 1600
13
Buffalo
-41,8
Bullet Order No.:
Barrel length V2) mm BC- Value 1) E
0m
50m 100m
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
Application range
6,5 x 57 R 600
V[m/s]
211 71 34
0,255
E[J]
KS 7,0 g
600
V[m/s]
211 70 29
0,308
E[J]
KS 8,2 g
600
V[m/s]
211 71 50
0,361
E[J]
DK 9,1 g
600
V[m/s]
211 71 18
0,305
E[J]
985
920
857
798
741
2911
2539
2203
1910
1647
870
820
772
725
680
2649
2353
2086
1840
1618
⊕
100 m
-1,0
⊕
-2,3
-8,5
-19,1
-35,0
1412 1206
MRD
194 m
+0,9
+3,9
+3,6
-0,6
-9,3
-23,2
637
⊕
100 m
-0,7
⊕
-3,4
-11,6
-25,0
-44,5
MRD
176 m
+1,3
+4,0
+2,6
-3,5
-14,9
-32,4
⊕
100 m
-0,5
⊕
-3,8
-12,4
-26,4
-46,4
MRD
172 m
+1,5
+4,0
+2,3
-4,3
-16,3
-34,3
686
634 595
1420 1239
835
793
753
714
676
639
603
2859
2578
2325
2090
1874
1674
1491
775
728
682
639
596
556
518
⊕
100 m
-0,2
⊕
-5,1
-16,2
-34,3
-60,3
2733
2411
2116
1858
1616
1407
1221
MRD
157 m
+1,8
+4,0
+0,9
-8,2
-24,2
-48,2
930
885
842
800
760
720
682
⊕
100 m
-0,9
⊕
-2,5
-8,9
-19,5
-34,9
2125 1907
MRD
190 m
+1,0
+3,9
+3,3
-1,2
-9,9
-23,3
669
⊕
100 m
-0,7
⊕
-3,3
-11,0
-23,5
-41,6
MRD
180 m
+1,3
+4,0
+2,8
-2,9
-13,5
-29,5
6,5 x 65 RWS 650
V[m/s]
211 69 79
0,361
E[J]
3546
3211
2907
2624
2368
6,5 x 65 R RWS 650
V[/s]
870
827
786
746
707
211 69 87
0,361
E[J]
3103
2804
2533
2282
2049
632
1835 1638
6,5 x 68 TMS 6,0 g
650
V[m/s]
1150
1076
1005
939
876
815
758
211 71 85
0,255
E[J]
3968
3473
3030
2645
2302
1993
1724
KS 8,2 g
650
V[m/s]
746
707
211 72 15
0,361
E[J]
TMS 9,4 g
650
V[m/s]
211 86 29
0,346
E[J]
EVO 10,3 g
650
V[m/s]
231 65 30
0,399
E[J]
KS 10,5 g
650
V[m/s]
211 85 05
0,381
E[J]
ID Classic 11,5 g
650
V[m/s]
211 84 91
0,356
E[J]
ID Classic 10,5 g
650
V[m/s]
211 74 01
0,325
E[J]
650
V[m/s]
960
914
870
827
786
3779
3425
3103
2804
2533
965
914
865
818
772
728
686
3911
3509
3143
2810
2503
2226
1977
955
895
837
782
729
678
630
3831
3364
2942
2568
2232
895
849
805
763
721
3885
3496
3143
2824
2521
2282 2049
211 84 40
0,325
E[J]
HMK 8,4 g
650
V[m/s]
211 72 90
0,272
E[J]
KS 9,7 g
650
V[m/s]
211 72 82
0,345
E[J]
1931 1667 681
643
2249 2005
600
V[m/s]
231 57 50
0,345
E[J]
955
907
861
817
774
4423
3990
3595
3237
2906
732
692
2599 2322
KS 8,0 g
600
V[m/s]
0,290
E[J]
ID Classic 10,5 g
600
V[m/s]
211 85 13
0,325
E[J]
HMK 11,2 g
600
V[m/s]
211 73 20
0,383
E[J]
900
846
794
744
695
3240
2863
2522
2214
1932
800
755
711
669
629
3360
2993
2654
2350
2077
649
604
1685 1459 589
551
1821 1594
770
732
696
661
626
593
561
3320
3001
2713
2447
2195
1969
1762
600
V[m/s]
211 74 44
0,290
E[J]
890
836
785
735
687
641
596
3168
2796
2465
2161
1888
1644
1421
522
479
TMR 9,0 g
600
V[m/s]
211 74 87
0,255
E[J]
DK 10,0 g
600
V[m/s]
790
747
705
665
626
212 33 71
0,338
E[J]
3121
2790
2485
2211
1959
KS 10,5 g
600
V[m/s]
211 85 48
0,381
E[J]
ID Classic 10,5 g
600
V[m/s]
211 85 64
0,325
E[J]
HMK 11,2 g
600
V[m/s]
211 74 36
0,383
E[J]
ID Classic 11,5 g
600
V[m/s]
211 85 72
0,356
E[J]
Capercaillie
Highly suitable
BC = Ballistic Coefficient –
2)
780
724
670
618
569
2738
2359
2020
1719
1457
780
742
705
669
635
3194
2890
2609
2350
2117
780
736
693
651
611
3194
2844
2521
2225
1960
750
713
677
642
609
3150
2847
2567
2308
2077
1226 1032 588
552
1729 1524 601
568
1896 1694
E[J]
KS 10,5 g
650
V[m/s]
211 84 75
0,381
E[J]
+0,2
+3,3
+4,0
+1,9
-3,5
-12,5
⊕
100 m
-1,0
⊕
-2,2
-8,0
-17,8
-32,0
MRD
197 m
+0,9
+3,9
+3,6
-0,3
-8,1
-20,4
ID Classic 10,5 g
650
V[m/s]
⊕
100 m
-1,0
⊕
-2,3
-8,2
-18,2
-32,9
211 85 80
0,325
E[J]
HMK 11,2 g
650
V[m/s]
0,383
E[J]
MRD
196 m
+0,9
+3,9
+3,6
-0,4
-8,5
-21,2
⊕
100 m
-1,0
⊕
-2,5
-9,1
-20,3
-36,9
MRD
190 m
+1,0
+4,0
+3,4
-1,2
-10,4
-25,0
211 75 17 TMR 11,2 g
650
V[m/s]
⊕
100 m
-0,8
⊕
-3,0
-10,2
-22,1
-39,4
211 75 41
0,301
E[J]
MRD
183 m
+1,2
+4,0
+3,0
-2,2
-12,2
-27,4
ID Classic 11,5 g
650
V[m/s]
211 85 99
0,356
E[J]
⊕
100 m
-1,0
⊕
-2,3
-8,3
-18,4
-33,0
MRD
195 m
+0,9
+3,9
+3,5
-0,5
-8,7
-21,4
⊕
100 m
-0,8
⊕
-3,1
-10,7
-23,3
-41,8
MRD
181 m
+1,2
+4,0
+2,9
-2,6
-13,3
-29,7
⊕
100 m
-0,3
⊕
-4,5
-14,5
-30,7
-54,1
MRD
163 m
+1,7
+4,0
+1,5
-6,5
-20,7
-42,0
⊕
100 m
-0,2
⊕
-4,9
-15,3
-32,1
-55,8
MRD
159 m
+1,8
+4,0
+1,1
-7,4
-22,2
-43,9
⊕
100 m
-0,7
⊕
-3,2
-11,0
-24,1
-43,1
MRD
179 m
+1,3
+4,0
+2,8
-3,0
-14,0
-30,9
⊕
100 m
-0,2
⊕
-5,3
-17,1
-36,5
-65,0
MRD
154 m
+1,9
+4,0
+0,7
-9,1
-26,5
-53,0
⊕
100 m
-0,3
⊕
- 4,6
-14,8
-31,3
-54,9
MRD
161 m
+1,7
+4,0
+1,4
-6,8
-21,3
-42,9
⊕
100 m
-0,3
⊕
-4,7
-14,8
-31,1
-54,1
MRD
161 m
+1,7
+4,0
+1,3
-6,9
-21,2
-42,3
-0,2
⊕
-4,9
-15,6
-32,9
-57,7
159 m
+1,8
+4,0
+1,2
-7,5
-22,8
-45,6
576
⊕
100 m
-0,1
⊕
-5,3
-16,5
-34,4
-59,6
MRD
156 m
+1,9
+4,0
+0,8
-8,5
-24,3
-47,5
710
672
635
598
563
530
⊕
100 m
-0,1
⊕
- 5,4
-16,8
-35,2
-61,3
2899
2597
2319
2056
1823
1615
MRD
155 m
+2,0
+4,0
+0,7
- 8,8
-25,1
-49,2
Wild boars
V[m/s]
0,399
221 m
750
Roe deer
650
231 54 31
MRD
3234
Fox
EVO 10,3 g
-22,5
100 m
544
E[J]
-11,8
MRD
1858 1657
V[m/s]
0,338
-4,8
⊕
536
650
211 85 56
-1,0
1718 1508
572
DK 10,0 g ⊕
7 x 57 R KS 8,0 g
V[m/s] E[J]
-1,4
7 x 57 211 73 39
650 0,290
100 m
.270 WSM KS 9,7 g
KS 8,0 g 211 75 68
⊕
.270 Win.
1)
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
Application range
970
922
876
831
788
4422
3995
3607
3246
2918
895
855
817
780
743
4125
3765
3438
3133
2843
930
888
847
807
768
4541
4140
3766
3419
3097
890
846
803
762
722
4555
4115
3708
3339
2997
746
705
2616 2336 708
674
2582 2340 730
694
2798 2529 683
646
2682 2400
⊕
100 m
-1,1
⊕
-2,1
-7,8
-17,5
-31,6
MRD
199 m
+0,9
+3,9
+3,7
-0,1
-7,8
-19,9
⊕
100 m
-0,8
⊕
-2,9
-9,7
-21,1
-37,3
GEE
185 m
+1,1
+3,9
+3,0
-1,9
-11,3
-25,6
⊕
100 m
-0,9
⊕
-2,5
-8,7
-19,1
-34,2
MRD
191 m
+1,0
+3,9
+3,3
-1,0
-9,5
-22,6
⊕
100 m
-0,8
⊕
-3,0
-10,3
-22,2
-39,5
MRD
183 m
+1,2
+4,0
+3,0
-2,2
-12,2
-27,4
⊕
100 m
-0,6
⊕
-3,7
-12,2
-26,1
-46,3
MRD
173 m
+1,4
+4,0
+2,4
-4,1
-16,0
-34,2
⊕
100 m
-1,0
⊕
-2,3
-8,4
-18,8
-34,2
MRD
196 m
+1,0
+4,0
+3,7
-0,4
-8,8
-22,1
⊕
100 m
- 0,8
⊕
-3,1
-10,6
-23,0
-40,9
MRD
181 m
+1,3
+4,0
+2,9
-2,6
-13,0
-28,8
⊕
100 m
-0,8
⊕
-3,0
-10,3
-22,1
-39,0
MRD
182 m
+1,2
+4,0
+2,9
-2,4
-12,2
-27,2
⊕
100 m
-0,8
⊕
-3,1
-10,4
-22,4
-39,6
182 m
+1,2
+4,0
+2,9
-2,4
-12,4
-27,7
MRD ⊕
100 m
-0,7
⊕
-3,2
-11,0
-23,7
-42,2
MRD
179 m
+1,3
+4,0
+ 2,8
-2,9
-13,7
-30,2
850
803
758
714
672
3793
3385
3016
2676
2371
631
592
2090 1840
7 x 64
KS 8,2 g
Animal pictogram:
50m 100m
.280 Rem.
KS 8,2 g
Scoring:
0m
7 mm Rem. Magnum
TMS 6,0 g
TMS 8,4 g
Barrel length V2) mm BC- Value 1) E
Bullet Order No.:
Red deer
Moose
Buffalo
KS 8,0 g
600
V[m/s]
211 76 30
0,290
E[J]
DK 10,0 g
600
V[m/s]
212 33 63
0,338
E[J]
EVO 10,3 g
650
V[m/s]
231 54 32
0,399
E[J]
KS 10,5 g
600
V[m/s]
211 84 83
0,381
E[J]
ID Classic 10,5 g
600
V[m/s]
211 86 02
0,325
E[J]
HMK 11,2 g
600
V[m/s]
211 75 92
0,383
E[J]
TMR 11,2 g
600
V[m/s]
211 76 22
0,301
E[J]
ID Classic 11,5 g
600
V[m/s]
211 86 10
0,356
E[J]
Animal pictogram: Scoring:
V = Velocity, E = Energy –
1)
MRD = Most Recommended Distance
The stated application ranges are a recommendation without commitment or intention to substitute personal experience.
14
913
858
806
755
706
659
3334
2945
2599
2280
1994
1737
669
630
885
839
794
751
709
3916
3520
3152
2820
2513
880
841
803
766
730
3988
3642
3321
3022
2744
880
839
800
761
724
4066
3696
3360
3040
2752
880
832
786
742
698
4066
3634
3243
2890
2558
850
810
772
734
698
4046
3674
3338
3017
2728
800
751
705
659
616
3584
3158
2783
2432
2125
2238 1985 695
661
2488 2250 687
652
2478 2232 657
616
2266 1992 662
628
2454 2209 574
534
1845 1597
850
807
766
726
687
649
612
4154
3745
3374
3031
2714
2422
2154
674
628
⊕
100 m
-0,6
⊕
-3,5
-11,5
-24,6
-43,3
MRD
176 m
+1,4
+4,0
+2,6
-3,5
-14,5
-31,2
⊕
100 m
-0,3
⊕
-4,6
-14,9
-31,7
-55,9
MRD
161 m
+1,7
+4,0
+1,4
-6,9
-21,7
-43,9
⊕
100 m
-0,6
⊕
-3,6
-11,8
-25,2
-44,5
MRD
175 m
+1,4
+4,0
+2,5
-3,7
-15,1
-32,4
7 x 65 R
Suitable Conditionally suitable 3)
970 3764
Capercaillie
875
821
770
721
3063
2696
2372
2079
865
820
776
733
692
3741
3362
3011
2686
2394
⊕
100 m
-0,9
⊕
-2,8
-9,6
-21,3
-38,3
1817 1578
MRD
186 m
+1,1
+4,0
+3,2
-1,7
-11,4
-26,5
652
⊕
100 m
-0,7
⊕
-3,4
-11,4
-24,5
-43,4
2126 1879
MRD
177 m
+1,3
+4,0
+2,6
-3,3
-14,4
-31,3
⊕
100 m
-0,7
⊕
-3,2
-10,8
-23,2
-40,8
MRD
180 m
+1,3
+4,0
+2,8
-2,8
-13,2
-28,8
613
865
826
789
752
717
682
649
3853
3514
3206
2912
2648
2395
2169
860
820
781
743
706
670
635
⊕
100 m
-0,7
⊕
-3,4
-11,2
-23,9
-42,1
3883
3530
3202
2898
2617
2357
2117
MRD
178 m
+1,3
+4,0
+2,7
-3,1
-13,8
-30,0
⊕
100 m
-0,7
⊕
-3,4
-11,3
-24,5
-43,5
MRD
177 m
+1,3
+4,0
+2,7
-3,3
-14,4
-31,3
⊕
100 m
-0,5
⊕
-3,8
-12,4
-26,3
-46,1
MRD
172 m
+1,5
+4,0
+2,3
-4,3
-16,2
-34,0
⊕
100 m
-0,1
⊕
-5,2
-16,6
-35,0
-61,6
MRD
156 m
+1,9
+4,0
+0,8
-8,5
-24,9
-49,5
⊕
100 m
-0,5
⊕
-4,0
-13,1
-27,8
-48,9
MRD
168 m
+1,5
+4,0
+2,0
-5,1
-17,9
-36,9
870
823
777
733
690
648
608
3974
3556
3170
2821
2500
2204
1941
645
611
830
791
753
716
680
3858
3504
3175
2871
2589
770
722
677
633
590
3320
2919
2567
2244
1949
2330 2091 549
511
1688 1462
820
778
738
698
660
623
587
3866
3480
3132
2801
2505
2232
1981
Fox
Roe deer
Wild boars
Red deer
Moose
Suitable Conditionally suitable
Highly suitable
BC = Ballistic Coefficient –
930 3460
2)
V = Velocity, E = Energy –
3)
MRD = Most Recommended Distance
The stated application ranges are a recommendation without commitment or intention to substitute personal experience.
15
Buffalo
Barrel length V2) mm BC- Value 1) E
Bullet Order No.:
0m
50m 100m
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
FS 8,4 g
650
V[m/s]
231 37 11
0,238
E (J)
KS 9,7 g
600
V[m/s]
211 77 03
0,298
E[J]
ID Classic 9,7 g
600
V[m/s]
211 77 11
0,303
E[J]
DK 10,7 g
600
V[m/s]
211 79 08
0,293
E[J]
KS 10,7 g
600
V[m/s]
211 77 89
0,329
E[J]
MS 10,9 g
650
V[m/s]
211 84 24
0,480
E[J]
HMK 11,7 g
600
V[m/s]
211 76 65
0,356
E[J]
UNI Classic 11,7 g
600
V[m/s]
211 91 96
0,350
E[J]
EVO 11,9 g
600
V[m/s]
231 54 34
0,366
E[J]
MS 12,3 g
.308 Win. EVO 11,9 g 231 72 10
650
V[m/s]
0,550
E[J]
895
827
763
703
647
3364
2873
2445
2076
1758
V[m/s]
0,366
E[J]
600
V[m/s]
545
⊕
100 m
-0,7
⊕
-3,5
-12
-26,4
-47,7
MRD
175 m
1,3
4
2,5
-3,9
-16,3
-35,6
870
818
769
721
675
630
587
⊕
100 m
-0,7
⊕
-3,5
-11,7
-25,3
-45,2
3671
3245
2868
2521
2210
1925
1671
MRD
175 m
+1,4
+4,0
+2,6
-3,6
-15,2
-33,0
634
591
⊕
100 m
-0,7
⊕
-3,5
-11,7
-25,2
-44,8
MRD
176 m
+1,4
+4,0
+ 2,6
-3,6
-15,1
-32,7
870
819
770
723
678
3671
3253
2876
2535
2229
1949 1694
820
769
721
674
628
585
543
3597
3164
2781
2430
2110
1831
1577
820
775
731
689
648
609
570
3597
3213
2859
2540
2246
1984
1738
800
769
739
710
681
653
626
3488
3223
2976
2747
2527
2324
2136
780
739
700
662
625
589
555
3559
3195
2867
2564
2285
780
739
699
660
622
586
551
3559
3195
2858
2548
2263
2009
1776
775
736
697
660
625
3574
3223
2891
2592
2324
750
724
699
674
650
3459
3224
3005
2794
2598
Silver Selection 600
594
1482 1248
2029 1802
590
557
2071 1846 626
603
2410 2236
⊕
100 m
-0,4
⊕
-4,3
-14,0
-30,0
-53,2
MRD
165 m
+1,6
+4,0
+1,8
-5,9
-19,9
-41,0
⊕
100 m
-0,5
⊕
-4,1
-13,6
-28,6
-50,4
MRD
167 m
+1,6
+4,0
+1,9
-5,4
-18,5
-38,3
⊕
100 m
-0,4
⊕
-4,1
-13,0
-27,2
-47,2
MRD
169 m
+1,6
+4,0
+2,0
-4,9
-17,1
-35,1
⊕
100 m
-0,3
⊕
-4,8
-15,1
-31,8
-55,5
MRD
160 m
+1,7
+4,0
+1,2
-7,2
-21,8
-43,6
⊕
100 m
-0,3
⊕
-4,8
-15,2
-32,0
-55,9
MRD
160 m
+1,8
+4,0
+1,3
-7,1
-21,9
-43,8
⊕⊕
100 m
-0,2
⊕⊕
-4,8
-15,3
-32,0
-55,9
MRD
159 m
+1,8
+4,0
+1,1
-7,4
-22,1
-43,9
⊕
100 m
-0,2
⊕
-4,9
-15,1
-31,2
-53,5
MRD
159 m
+1,8
+4,0
+1,1
-7,1
-21,2
-41,6
dependent upon weight
KS 9,7 g 211 77 70
0,298
E[J]
ID Classic 9,7 g
600
V[m/s]
211 77 97
0,303
E[J]
KS 10,7 g
600
V[m/s]
211 78 00
0,329
E[J]
DK 10,7 g
600
V[m/s]
211 78 51
0,293
E[J]
HMK 11,7 g
600
V[m/s]
211 77 38
0,356
E[J]
UNI Classic 11,7 g
600
V[m/s]
211 92 18
0,350
E[J]
EVO 11,9 g
600
V[m/s]
231 54 35
0,366
E[J]
KS 13,0 g
600
V[m/s]
211 78 19
0,356
E[J]
UNI Classic 13,0 g
600
V[m/s]
231 47 03
0,380
E[J]
EVO 11,9 g 231 72 11
50m 100m
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
Application range
-54,1
2128 1899
MRD
161 m
+1,7
+4,0
+1,3
-6,8
-21,1
-42,2
663
⊕
100 m
-0,8
⊕
-3,0
-10,2
-22,3
-40,1
MRD
183 m
+1,2
+4,0
+3,0
-2,3
-12,4
-28,2
⊕
100 m
-0,8
⊕
-2,9
-10,1
-22,2
-39,8
MRD
184 m
+1,2
+4,0
+3,1
-2,1
-12,2
-27,8
⊕
100 m
-0,7
⊕
-3,4
-11,3
-24,4
-43,2
MRD
177 m
+1,3
+4,0
+2,7
-3,2
-14,3
-31,1
⊕
100 m
-0,7
⊕
-3,5
-11,8
-25,6
-45,6
MRD
175 m
+1,4
+4,0
+2,5
-3,7
-15,4
-33,5
3667
3302
2974
2663
2384
910
857
806
757
709
4016
3562
3151
2779
2438
910
858
807
759
712
4016
3570
3159
2794
2459
870
823
778
734
692
4049
3624
3238
2882
2562
870
818
767
718
671
626
583
4049
3580
3147
2758
2409
2097
1818
V[m/s]
0,366
E[J]
2132 1858 667
623
2158 1882 651
611
2267 1997
840
798
757
717
678
640
604
⊕
100 m
-0,6
⊕
-3,7
-12,2
-26,1
-45,9
4128
3725
3352
3007
2689
2396
2134
MRD
172 m
+1,4
+4,0
+2,3
-4,2
-16,0
-33,8
⊕
100 m
-0,6
⊕
-3,7
-12,3
-26,2
-46,2
MRD
172 m
+1,4
+4,0
+2,3
-4,2
-16,2
-34,1
⊕
100 m
-0,6
⊕
-3,8
-12,3
-26,3
-46,2
MRD
171 m
+1,4
+4,0
+2,2
-4,4
-16,3
-34,2
⊕
100 m
0
⊕
-5,7
-17,8
-37,1
-64,4
MRD
152 m
+2,0
+4,0
+0,3
-9,8
-27,1
-52,4
⊕
100 m
-0,3
⊕
-4,5
-14,3
-30,1
-52,5
MRD
163 m
+1,7
+4,0
+1,5
-6,3
-20,1
-40,4
840
797
755
715
675
637
600
4128
3716
3335
2991
2665
2374
2106
835
794
754
715
678
641
606
4148
3751
3383
3042
2735
2445
2185
735
696
658
621
585
551
518
3511
3149
2814
2507
2224
1973
1744
790
752
714
678
643
609
576
4057
3676
3314
2988
2687
2411
2157
Silver Selection 600
619
600
V[m/s]
231 61 40
0,366
E[J]
KS 13,0 g
600
V[m/s]
211 78 43
0,356
E[J]
EVO 11,9 g
650
V[m/s]
231 57 41
0,366
E[J]
KS 10,7 g
650
V[m/s]
211 76 49
0,329
E[J]
DK 10,7 g
650
V[m/s]
211 78 78
0,293
E[J]
UNI Classic 11,7 g
650
V[m/s]
211 76 57
0,350
E[J]
EVO 11,9 g
650
V[m/s]
231 54 33
0,366
845
803
763
724
686
4248
3837
3464
3119
2800
650
614
2514 2243
⊕
100 m
-0,6
⊕⊕
- 3,6
-11,9
-25,5
-44,8
MRD
173 m
+1,4
+4,0
+2,3
-4,0
-15,5
-32,9
E[J]
EVO 11,9 g
Target
-31,0
565
V[m/s]
0,293
V[m/s]
-14,7
598
600
211 78 94
E[J]
- 4,6
633
DK 10,7 g
EVO 11,9 g
650
231 72 12
0,366
V[m/s]
E[J]
783
735
2973
2620
688
643
2296 2005
⊕
100 m
-0,9
⊕
-2,6
-9,2
-20,4
-36,7
MRD
189 m
+1,0
+4,0
+3,3
-1,3
-10,5
-24,9
900
846
795
745
697
651
607
⊕
100 m
-0,8
⊕
-3,1
-10,6
-23,2
-41,7
4334
3829
3381
2969
2599
2267
1971
MRD
181 m
+1,2
+4,0
+3,0
-2,6
-13,1
-29,5
654
617
⊕
100 m
-0,7
⊕
-3,4
-11,5
-24,6
-43,5
MRD
176 m
+1,4
+4,0
+2,6
-3,4
-14,5
-31,4
⊕
100 m
-0,6
⊕
-3,5
-11,7
-25,0
-44,1
MRD
174 m
+1,4
+4,0
+2,4
-3,8
-15,1
-32,2
860
816
774
733
693
4327
3895
3505
3143
2809
850
808
768
729
691
4299
3885
3509
3162
2841
2502 2227 654
618
2545 2272
800
759
719
680
643
606
572
⊕
100 m
-0,4
⊕
-4,4
-14,1
-29,7
-52,1
4160
3745
3360
3006
2687
2387
2127
MRD
164 m
+1,7
+4,0
+1,7
-6,0
-19,6
-40,0
722
685
⊕
100 m
-0,9
⊕
-2,5
-8,9
-19,4
-34,7
MRD
192 m
+1,0
+4,0
+3,4
-0,9
-9,5
-22,8
⊕
100 m
-1,0
⊕
-2,2
-8,0
-17,9
-32,3
MRD
198 m
+0,9
+3,9
+3,7
-0,2
-8,1
-20,5
600
V[m/s]
0,288
E[J]
DK 11,7 g
600
V[m/s]
212 34 95
0,282
E[J]
HMK 12,1 g
600
V[m/s]
211 79 16
0,326
E[J]
TMR 12,7 g
600
V[m/s]
211 79 32
0,288
E[J]
ID Classic 12,8 g
600
V[m/s]
211 92 26
0,360
E[J]
EVO 13,0 g
600
V[m/s]
231 62 01
0,350
E[J]
DK 11,7 g
600
V[m/s]
212 35 09
0,282
E[J]
HMK 12,1 g
600
V[m/s]
211 79 83
0,326
E[J]
TMR 12,7 g
600
V[m/s]
211 80 09
0,288
E[J]
ID Classic 12,8 g
600
V[m/s]
211 92 34
0,360
E[J]
EVO 13,0 g
600
V[m/s]
231 62 00
0,350
E[J]
DK 11,7 g
600
V[m/s]
211 81 30
0,282
E[J]
886
843
802
762
4671
4228
3827
3455
3102 2792
970
920
871
824
779
5034
4528
4059
3633
3247
970
913
859
807
757
5034
4460
3948
3484
3066
940
894
849
805
763
5169
4676
4217
3791
3406
930
886
843
802
762
5146
4671
4228
3827
3455
940
896
852
811
770
5257
4777
4319
3913
3528
735
693
2890 2569 709
662
2689 2345 723
683
3058 2729 722
685
3102 2792
⊕
100 m
-1,0
⊕
-2,3
-8,4
-18,7
-34,0
MRD
194 m
+0,9
+3,9
+3,5
-0,6
-9,1
-22,4
⊕
100 m
-1,0
⊕
- 2,4
-8,7
-19,1
-34,3
MRD
192 m
+1,0
+3,9
+3,4
-0,9
-9,4
-22,6
⊕⊕
100 m
-0,9
⊕⊕
- 2,5
-8,9
-19,4
-34,7
MRD
192 m
+1,0
+4,0
+3,4
-0,9
-9,5
-22,8
⊕
100 m
-1,0
⊕⊕
- 2,4
-8,6
-18,8
-33,7
3179 2857
MRD
194 m
+1,0
+3,9
+3,5
-0,7
-9,0
-21,9
489
731
693
705
658
612
569
528
3156
2749
2378
2056
1770
⊕
100 m
+0,3
⊕
-6,9
-21,4
-44,7
-78,4
1518 1297
MRD
144 m
+2,4
+4,0
-0,9
-13,4
-34,7
-66,3
577
⊕
100 m
-0,4
⊕
-4,4
-14,3
-30,5
-54,1
MRD
164 m
+1,6
+4,0
+1,6
-6,2
-20,5
-42,1
⊕
100 m
-0,5
⊕
-4,2
-13,5
-28,7
-50,6
MRD
167 m
+1,6
+4,0
+1,9
-5,5
-18,7
-38,5
⊕
100 m
-0,3
⊕
-4,7
-15,2
-32,3
-57,2
MRD
160 m
+1,7
+4,0
+1,3
-7,2
-22,3
-45,1
452
8 x 57 JS 820
767
717
668
622
3934
3441
3007
2610
2263
820
774
730
688
647
4068
3624
3224
2864
2533
534
1948 1668 607
568
2229 1952
800
749
700
653
608
565
524
4064
3562
3112
2708
2347
2027
1744
800
759
720
681
644
608
573
⊕
100 m
-0,4
⊕
-4,4
-14,0
-29,6
-51,9
4096
3687
3318
2968
2654
2366
2101
MRD
164 m
+1,6
+4,0
+1,6
-6,0
-19,6
-39,8
544
511
⊕
100 m
0,1
⊕
-5,9
-18,2
-37,9
-65,9
GEE
151 m
+2,1
+4,0
+0,2
-10,2
-27,8
-53,8
⊕
100 m
-0,1
⊕
-5,6
-17,6
-37,3
-65,8
MRD
153 m
+2,0
+4,0
+0,5
-9,6
-27,2
-53,7
⊕
100 m
-0,2
⊕
-5,1
-16,1
-33,9
-59,4
MRD
157 m
+1,8
+4,0
+1,0
-8,1
-23,8
-47,3
⊕
100 m
+0,1
⊕
-6,2
-19,5
-41,0
-72,0
MRD
148 m
+2,2
+4,0
-0,1
-11,4
-30,9
-59,8
730
690
652
615
579
3464
3095
2763
2458
2179
1924 1697
8 x 57 JRS
930 5146
8 x 57 JR
211 78 86
833 3365
Silver Selection E[J]
TMR 12,7 g
886 3807
.300 Win. Mag.
.300 Win. Mag.
940 4285
.300 WSM
⊕⊕
669
E[J]
600
Target
-0,3
707
V[m/s]
0,298
0,350
100 m
745
600
211 78 27
211 78 35
⊕
785
KS 9,7 g
UNI Classic 11,7 g
.30 - 06
.30-06
0m
.30 R Blaser
.308 Win.
211 84 32
Barrel length V2) mm BC- Value 1) E
Bullet Order No.:
Application range
760
710
661
615
570
3379
2949
2556
2213
1901
770
726
684
643
603
3587
3189
2831
2501
2200
730
682
636
591
548
3384
2954
2569
2218
1907
528
488
1631 1393 565
528
1931 1687 509
471
1645 1409
750
711
673
636
600
565
532
⊕
100 m
-0,1
⊕
-5,4
-16,8
-35,0
-61,0
3600
3235
2899
2589
2304
2043
1811
MRD
155 m
+1,9
+4,0
+0,7
-8,7
-25,0
-49,0
536
503
⊕
100 m
+0,2
⊕
-6,1
-18,9
-39,3
-68,2
GEE
149 m
+2,2
+4,0
-0,1
-10,9
-29,3
-56,2
⊕
100 m
-0,5
⊕
-4,1
-13,5
-29,0
-51,7
MRD
167 m
+1,5
+4,0
+1,9
-5,5
-19,0
-39,6
720
680
642
606
570
3370
3006
2679
2387
2112
1867 1645
8 x 60 S
Animal pictogram: Scoring: 1)
Capercaillie
Highly suitable
BC = Ballistic Coefficient –
2)
Fox
Roe deer
Wild boars
Red deer
Moose
Buffalo
Animal pictogram:
Suitable Conditionally suitable
Scoring:
V = Velocity, E = Energy –
1)
3)
MRD = Most Recommended Distance
The stated application ranges are a recommendation without commitment or intention to substitute personal experience.
16
Capercaillie
782
731
682
634
589
546
3577
3126
2721
2351
2029
1744
Fox
Roe deer
Wild boars
Red deer
Moose
Suitable Conditionally suitable
Highly suitable
BC = Ballistic Coefficient –
835 4079
2)
V = Velocity, E = Energy –
3)
MRD = Most Recommended Distance
The stated application ranges are a recommendation without commitment or intention to substitute personal experience.
17
Buffalo
Bullet Order No.:
Barrel length V2) mm BC- Value 1) E
0m
50m 100m
150m
200m 250m 300m
MRD 3)
50 m 100 m 150 m 200 m 250 m 300 m
Application range
8 x 68 S KS 11,7 g
650
V[m/s]
211 81 49
0,310
E[J]
DK 11,7 g
650
V[m/s]
212 35 17
0,282
E[J]
HMK 12,1 g
650
V[m/s]
211 81 14
0,326
E[J]
EVO 13,0 g
650
V[m/s]
231 65 22
0,350
E[J]
KS 14,5 g
650
V[m/s]
211 81 22
0,343
E[J]
990
936
884
833
785
5734
5125
4572
4059
3605
945
887
832
779
728
5224
4603
4050
3550
3100
970
919
870
823
777
5692
5110
4579
4098
3653
915
869
825
783
741
5442
4909
4424
3985
3569
870
825
782
739
699
5488
4935
4434
3959
3542
738
693
3186 2809 679
632
2697 2337 733
690
3251 2880 701
662
3194 2849 659
621
3149 2796
⊕
100 m
-1,1
⊕
-2,0
-7,6
-17,2
-31,3
MRD 202 m
+0,9
+4,0
+3,9
+0,3
-7,3
-19,4
⊕
100 m
-0,9
⊕
-2,6
-9,3
-20,6
-37,2
MRD
190 m
+1,1
+4,0
+3,4
-1,3
-10,6
-25,2
⊕
100 m
-1,0
⊕
-2,2
-8,0
-17,9
-32,4
MRD
199 m
+0,9
+4,0
+3,7
-0,1
- 8,0
-20,5
⊕
100 m
-0,9
⊕
-2,7
-9,5
-20,7
-36,9
GEE
187 m
+1,1
+3,9
+3,2
-1,6 - 10,9
-25,1
⊕⊕
100 m
-0,7
⊕⊕
-3,3
-11,1
-24,0
-42,5
MRD
178 m
+1,3
+4,0
+2,7
-3,1
-13,9
-30,4
⊕
100 m
-0,3
⊕
-4,8
-15,6
-33,4
-59,5
MRD
160 m
+1,7
+4,0
+1,2
-7,6
-23,3
-47,4
⊕
100 m
-0,3
⊕
-4,5
-14,6
-30,9
-54,4
MRD
162 m
+1,7
+4,0
+1,5
-6,5
-20,8
-42,4
⊕
100 m
-0,3
⊕
-4,7
-14,9
-31,3
-54,6
MRD
161 m
+1,8
+4,0
+1,4
-6,8
-21,2
-42,5
⊕
100 m
+0,4
⊕
-7,0
-21,6
-45,0
-78,5
MRD
144 m
+2,4
+3,5
-1,0
-13,6
-34,9
-66,4
⊕⊕
100 m
-0,0
⊕
-5,7
-17,6
-36,3
-62,8
MRD
152 m
+2,0
+4,0
+0,3
-9,6
-26,4
-50,8
⊕
100 m
-0,1
⊕
-5,2
-16,3
-33,7
-57,9
MRD
156 m
+2,0
+4,0
+0,8
-8,2
-23,6
-45,8
9,3 x 62 DK 14,6 g
600
V[m/s]
211 81 65
0,266
E[J]
KS 16,0 g
600
V[m/s]
800
754
710
667
626
211 81 81
0,320
E[J]
5120
4548
4033
3559
3135
HMK 16,7 g
600
V[m/s]
211 82 03
0,372
E[J]
TMR 18,5 g
600
V[m/s]
211 82 11
0,309
E[J]
EVO 18,8 g
600
V[m/s]
231 54 36
0,400
E[J]
UNI Classic 19,0 g
600
V[m/s]
211 92 42
0,465
E[J]
9,3 x 62 EVO 18,8 g
800
745
693
642
594
4672
4052
3506
3009
2576
780
741
703
667
631
5080
4585
4127
3715
3325
695
651
609
569
530
4468
3920
3431
2995
2598
730
695
661
628
597
5009
4540
4107
3707
3350
740
710
680
651
623
5202
4789
4393
4026
3687
Silver Selection
547 586
548
2747 2402 597
563
2976 2647 494
459
2257 1949 566
536
3011 2701 596
569
3375 3076
⊕
100 m
0,0
⊕⊕
- 5,4
-16,9
-35,1
-60,7
GEE
154 m
+2,0
+4,0
+0,6
-8,9
-25,1
-48,7
⊕
100 m
-0,8
⊕
-3,2
-11,1
-24,3
-43,7
MRD
179 m
+1,2
+4,0
+2,8
-3
-14,2
-31,7
608
⊕
100 m
-0,3
⊕
- 4,4
-13,8
-28,9
-50,0
3843
3512
MRD
165 m
+1,7
+4,0
+1,7
-5,8
-18,8
-37,9
381
347
322
⊕
100 m
+1,7
⊕
-12,6
-38,6
-81,5
-144
907
753
648
MRD
118 m
+3,0
+2,6
-8,6
-33,4
-75,0
-136,7
600
V[m/s]
740
705
671
638
605
0,400
E[J]
5147
4672
4232
3826
3441
DK 14,6 g
650
V[m/s]
900
841
785
730
678
211 81 73
0,266
E[J]
5913
5163
4498
3890
3356
UNI Classic 19,0 g
650
V[m/s]
785
754
723
693
664
636
211 92 50
0,465
E[J]
5854
5401
4966
4562
4189
KTM 12,5 g
1800
V[m/s]
615
542
476
425
211 82 46
ohne
E[J]
2364
1836
1416
1129
231 72 15
504
2184 1854
574
544
3097 2782
580
2879 2456
600
V[m/s]
0,266
E[J]
KS 16,0 g
600
V[m/s]
211 82 97
0,320
E[J]
HMK 16,7
600
V[m/s]
211 82 62
0,372
E[J]
TMR 18,5 g
600
V[m/s]
211 82 70
0,309
E[J]
EVO 18,8 g
600
V[m/s]
231 54 37
0,400
E[J]
UNI Classic 19,0 g
600
V[m/s]
0,465
E[J]
600
V[m/s]
0,400
E[J]
211 92 77
9,3 x 74 R EVO 18,8 g 231 72 16
785
731
679
629
581
536
493
⊕
100 m
-0,2
⊕
-5,1
-16,5
-35,2
-62,4
4498
3901
3366
2888
2464
2097
1774
MRD
157 m
+1,8
+4,0
+0,9
-8,4
-25,1
-50,3
750
706
663
622
582
545
509
⊕
100 m
0
⊕
-5,6
-17,5
-36,7
-64,1
4500
3987
3517
3095
2710
MRD
154 m
+2,0
+4,1
+0,6
-9,3
-26,4
-51,8
750
712
675
639
605
⊕
100 m
-0,1
⊕
-5,3
-16,6
-34,7
-60,3
4697
4233
3804
3409
3056
MRD
155 m
+1,9
+4,0
+0,7
-8,7
-24,7
-48,3
695
651
609
569
530
⊕
100 m
+0,4
⊕
-7,0
-21,6
-45,0
-78,5
4468
3920
3431
2995
2598
700
666
633
601
570
4606
4169
3766
3395
3054
695
666
637
610
582
4589
4214
3855
3535
3218
710
676
642
610
579
4739
4296
3874
3498
3151
Silver Selection
2376 2073
6,5x57 R
9,1
140
6,5x65 RWS 6,5x65 R RWS 6,5x68 .270 Win. .270 WSM 7x57 7x57 R
571
539
2722 2426 494
459
2257 1949 540
511
2741 2455 556
531
2937 2679
548
519
2823 2532
MRD
144 m
+2,4
+4,0
-1,0
-13,6
-34,9
-66,4
⊕
100 m
+0,3
⊕
-6,4
-19,6
-40,4
-69,5
MRD
147 m
+2,3
+4,0
-0,4
-11,6
-30,4
-57,6
⊕
100 m
+0,3
⊕
-6,3
-19,2
-39,4
-67,5
MRD
148 m
+2,3
+4,0
-0,3
-11,2
-29,4
-55,5
⊕
100 m
+0,2
⊕⊕
- 6,1
-18,9
-39,0
-67,2
MRD
148 m
+2,2
+3,9
- 0,3
-11,0
-29,1
-55,5
.375 H&H Magnum KS 19,4 g
650
V[m/s]
211 84 59
0,403
E[J]
VMR 19,4 g
650
V[m/s]
211 84 67
0,290
E[J]
UNI Classic 19,5 g
650
V[m/s]
211 83 78
0,334
E[J]
790
754
719
684
651
6054
5515
5015
4538
4111
790
740
692
645
601
6054
5312
4645
4035
3504
790
746
704
664
624
6085
5426
4832
4299
3796
705
664
625
587
551
6461
5732
5078
4479
3947
705
665
627
590
555
6461
5749
5111
4525
4004
⊕
100 m
-0,3
⊕
-4,4
-14,1
-29,5
-51,4
3717 3342
MRD
164 m
+1,7
+4,0
+1,7
-6,0
-19,4
-39,3
558
⊕
100 m
-0,3
⊕
-4,9
-15,7
-33,3
-58,8
MRD
159 m
+1,8
+4,0
+1,2
-7,6
-23,2
-46,7
⊕
100 m
-0,3
⊕
-4,7
-14,9
-31,4
-55,2
MRD
161 m
+1,7
+4,0
+1,3
-7,0
-21,6
-43,3
⊕
100 m
0,3
⊕
-6,6
-20,3
-42,1
-73,2
619
587 518
3020 2603 586
549
3348 2939
.404 Rimless TMR 26,0 g
650
V [m/s]
211 93 31
0,335
E [J]
VM 26,0 g
650
V [m/s]
211 93 58
0,344
E [J]
516
483
3461 3033 520
488
3515 3096
MRD
146 m
2,3
4,0
-0,6
-12,3
-32,1
-61,2
⊕
100 m
0,3
⊕
-6,5
-20,1
-41,7
-72,4
MRD
146 m
2,3
4,0
-0,6
-12,2
-31,8
-60,5
18
gr
g
140 140
9,3 x 74 R DK 14,6 g
gr
9,1 9,1
9,3 x 72 R
211 81 57
g
5,6x52 R 5,6x57 .243 Win. 6,5x54 Mannl. Sch. 6,5x55 6,5x57
9,3 x 64 628
Weight .22 Hornet .222 Rem. .223 Rem. 5,6x50 Mag. 5,6x50 R Mag.
10,0 10,0
154 154
g
gr
8,4
130
11,2 11,2
173 173
g
7mm Rem. Mag. .280 Rem. 7x64
10,3
159
10,3
159
10,0
154
11,2
173
7x65 R
10,3
159
10,0
154
11,2
173
.308 Win
11,9
184
10,7
165
11,7
180
10,5 10,5 11,5 11,5 10,5 10,5 11,5 10,5 11,5 9,7
.30-06
11,9
184
10,7
165
11,7
180
9,7
.30 R Blaser
11,9
184
10,7
.300 WSM .300 Win. Mag. 8x57 JR 8x57 JS 8x57 JRS 8x60 S 8x68 S
11,9 11,9
184 184
13,0 13,0
201 201
13,0
201
18,8
291
18,8
291
9,3x62 9,3x64 9,3x74 R .375 H & H Mag. .404 Rimless
10,0
154
gr
162 162 177 177 162 162 177 162 177 150 150
g
gr
11,7
180
11,7 13,0
180 201
165
11,7
180
10,7
165
11,7
180
11,7 11,7 11,7 11,7
180 180 180 180
12,1 12,1
187 187
12,1
187
14,6 14,6 14,6
225
16,7
258
225
16,7
258
12,8 12,8
* Softpoint roundnose projectile or softpoint pointed projectile depending on the calibre. See ballistic charts.
19
g
gr
4,8 6,2
74 96
8,2 7,0 8,2 7,0 8,2 8,2 8,2 8,2 9,7 9,7 8,0 8,0 10,5 10,5
127 108 127 108 127 127 127 127 150 150 123 123 162 162
8,0 10,5 8,0 10,5 9,7 10,7 9,7 10,7 13,0 9,7 13,0
123 162 123 162 150 165 150 165 201 150 201
10,7
165
198 198
19,0 19,0 19,0 19,5
293 293 293 301
11,7 14,5 16,0
180 224 247
16,0 19,4
247 300
g 3,0 3,24 3,6 4,1 3,24 3,6 4,1 4,6
gr 46 50 55 63 50 55 63 71
6,5 10,3
100 159
6,0
93
6,0
93
6,0 8,4
93 130
9,0
139
9,4
145
11,2
173
11,2
173
12,7 12,7 12,7
196 196 196
18,5
285
18,5
285
26,0
401
Fu
rth
er
inf
W or
OR
ma
tio
LD
na
tw
NO
ww .rw
VE
s-a
LT Y
mm
Performance, Innovation, Emotion
un
iti
on
. co
m
Groundbreaking innovation and performance exceed the highest standards to produce this unique cartridge. Even under the most extreme conditions: whether ice or desert, taiga or forest or day or night – there is no hunting situation that the Silver Selection cannot master.
Further information at www.rws-ammunition.com RWS - The ammunition counts.
RUAG Ammotec GmbH, FĂźrth, Germany - 231 31 08 - 08/09 - 12.500
Available in the following calibres: .308 Win., .30-06, .300 Win. Mag., 9,3x62 and 9,3x74R.