traditional archer in camo pulling back a bow

Gear Up | The Basics of Traditional Archery Bows

“Hardcore” is the best word to describe Traditional Archery.

It not only takes an archer that has skills, discipline, a keen sense of direction, and environmental awareness. To shoot a traditional bow, it also requires strength, endurance and patience.

Traditional Archery is a motivating and challenging activity that has been around for thousands of years since the late Stone Age and was prominently aided as a main tool for providing food, protection, and recreational purposes.


man holding traditional bow with head looking down

“The archer is the true weapon; the bow is just a long piece of wood.”

-Sebastian De Castell


Apollo, The Amazons, and Clint Barton are some of the legends in the field of Archery and have proven to be super-efficient in using one of the most supreme portable weapons man has ever made.

So, What Is A Traditional Bow?

A traditional bow is a bow that does not use any special equipment or accessories like most modern and compound bows do. You will not find components like sights, manufactured arrow rests or stabilizers on a traditional bow.

Traditional bows are often made from a single piece of wood, while some are made of wood that is laminated together.

Tricks Of The “Trad” | Traditional
Archery Bow Types

To be a fulfilled traditional archer, you would first need the tools to get set and ready to shoot.

Basic traditional archery gear may consist of a bow, and arrows. However, there are certain variations of bows to fit an archer’s preference, along with style of shooting or hunting.

Recurve bows

A Recurve bow is a bow composed of limbs that curve away from the archer.

A recurve bow is designed to store more force, which delivers more speed compared to straight limb or longbows.

Recurve bows are made in different lengths and draw weights to fit individual archers.

3-piece takedown bow

Three-piece takedown bows are composed of a riser, and a pair of limbs are the most common among today’s traditional archers.

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Longbows

Longbows / Straight limbs bows / One-Piece bows were the first and most basic bows crafted.

Formerly, these bows were made of a simple piece of wood, shaped to be accurately balanced. These beautiful pieces of art were originally made out of necessity, for hunting. Today, they can be found in a variety of wood, which adds strength, character and color.

They are now an art of tradition, but still able to be shot for fun, as well as for hunting.

scorpion longbow from southwest archery usa

Today, longbows can be found in a variety of beautiful woods

Parts Of A Traditional Bow

So let’s talk about the parts of a traditional bow.

Risers

Risers are the middle part of a bow where the grip is located. Traditional bow risers are almost always made of a variety of preferred wood material such as dymond wood, padouk, tigerwood, and white oak.

Risers are also available in different lengths, and typically range from 13” to 27”, with most adults using a 23 or 25” riser.

risers of trad bow

The riser is the middle part of the bow where the grip is located. Risers on trad bows are typically made of high-quality wood like white oak.

Some of today’s bow manufacturers now use carbon, aluminum alloy, or magnesium alloy. Selection is limited on wooden risers, but they are usually the preferred choice for those wishing to shoot traditionally.

On the other hand, alloy and carbon risers take advantage of modern technologies and are used for modern competitive archery.

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Limbs

Limbs are basically the “arms” of the bow, which are mounted and bolted onto the riser.

The limbs function by flexing when the bow is drawn, which helps to store energy which is then passed to the arrow upon release.

Limbs are calculated in different draw weights, depending on an archer’s physique, skill level and purpose (hunting, etc.). The stronger the archer, the higher the recommended draw weight.

man pulling back recurve bow

The limbs of a traditional bow store energy that is passed to the arrow when the archer releases the string.



If choosing to hunt with a bow, the archer would want a higher draw weight and possess the ability to maintain accuracy with that higher weight in order to to maintain hunting integrity. Bow hunters pride themselves on maintaining ethical hunting practices, while providing for their families. (Many states even have draw weight minimums written into their hunting laws to protect the animals and to reduce chances of wounding versus success of harvesting an animal.)

bow limbs on southwest archery traditional bow

Traditional bow limbs are usually made of combination of high-quality wood material and a core made of carbon or fiberglass.

Traditional Archery Gear

Now that you have a reference for what a traditional bow is composed of, let’s talk accessories.

Traditional bows, although known for being a basic stick and string, have options to upgrade.

For example, an archer can add an arrow rest, a sight, a stabilizer, and a quiver. Those looking to get the most out of their bows can also add a bow fishing reel to their traditional bow to be able to enjoy archery in all forms.

Modern Archery: Compound Bows

In modern archery, compounds bows are more complex bows that are designed using cams, pulley, and cable systems.

Unlike traditional archery bows, compound bows grant archers a machine-driven advantage which reduces stress when drawing the bow.

A compound bow’s let-off can reach up to 80% or even 90% depending on the bow model. A 90% let-off means that an archer only holds 7 pounds of weight at full draw on a bow that has a 70 pound maximum draw weight, enabling arrow speeds of 250 to 370 feet per second.

What Are The Parts Of A Compound Bow?

A basic compound bow is composed of a riser, top and bottom limbs, a string, cables, top and bottom cams, a string stop, a cable guard, a grip, a string silencer, a stabilizer, top and bottom dampeners, a sight, an arrow rest, top and bottom limb pockets and a D-loop.


compound bow parts diagram
As you can see, a compound bow has many more parts than a traditional bows, and even similar parts are typically made of differing materials.

The parts of a compound bow vary significantly from traditional bows.

For example, while traditional bow risers are made of wood, compound bow risers are generally made of aluminum, magnesium alloy, or carbon fiber. More specifically, most of today’s compound bow risers are made using 7075 aluminum alloy.

The limbs of a compound bow are usually made of composite materials such as fiber glass or are carbon fiber-based, and are adaptable in enduring extreme stress and pliability.

woman shooting a compound bow

A compound bow has many parts and accessories that traditional bows do not, such as sights, cams, string stops, stabilizers, etc.


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Modern and Traditional Archery: Accepting The Differences

Contrary to what some believe, shooting traditional archery bows is actually not inferior compared to shooting compound bows. they are, however totally different instruments, both still have distinctive extraordinary functions and qualities.

One difference between traditional bows and compound bows that many people notice is the use of a sight. Most compound bows require the use of a sight to hit the target due anchor slipping.

recurve bow in case with arrows

An archer with his/her arrow in some ways is like a pitcher that must be able to throw a fastball, as well as a curveball, accurately and at the highest speeds possible.

However, on the other side of the archery realm, traditional archers use their basic instincts in determining the hows, the wheres, and the whys when hitting their targets. Their brains and their eyes are the main tools to make calculations and determine the distance in complicated angles where the environment plays a huge role in how the arrow reaches its mark.

A traditional archer also needs to be aware of how they are pulling, holding and aiming at 10-20 yards to adjust to shooting even further while maintaining accuracy.

Think of it this way… it is somewhat like a pitcher throwing a fastball or a curveball accurately at the highest speeds possible. This is why consistency is the key to becoming a great archer.



So, Which Should You Choose?

Both traditional and compound bows can be used for indoor and outdoor target shooting, hunting and bow fishing. So, it’s really just personal preference when deciding between a traditional bow and a compound bow.

turkey decoy sitting on log with 2 recurve bows

Traditional bows can be used for indoor and outdoor shooting, and competition as well as for hunting.

The expanding community of modern and traditional archers is astonishingly widespread, and is continuously growing in many categories such as target, field, clout, flight, or recreational archery.

The sport of archery not only improves an archer’s patience, sharpness, strength and hand-eye coordination, but it also provides wisdom, as archers share their knowledge and experiences with other archers.

man shooting trad bow at round target

The sport of archery not only improves an archer’s patience, sharpness, strength and hand-eye coordination, but it also provides wisdom, as archers share their knowledge and experiences with other archers.

For us at Southwest Archery USA, the greatest part of archery, whether it be target archery or bowhunting, is the time we spend enjoying the sport with our family and friends.

Whether you are a beginner or an experienced archer, the truth is, archery is for everyone, from young kids to older adults.



Eric Ravenna of Southwest Archery USA
Eric Ravenna, of Southwest Archery USA
recurve bow vs compound bow

Recurve vs Compound Bows | Learn the specific differences

When it comes to bow hunting, unless you shoot a long bow, there are two options to choose from: compound bows and recurve bows.

But what’s the difference between the two? And which one is right for you?

Well, I’ve taken a close look at both compound and recurve bows and put together this article to help answer those questions.

Let’s get started! First, let’s take a closer look at both types of bows.

On a basic level, a bow stores mechanical energy in it’s limbs as you draw back on the string, and then releases that energy when you let go of the arrow. Traditional longbows are limited in their range and power, which is where recurve and compound bows come in.

Recurve Bows

Simply put, a recurve bow is a longbow where the limbs curve away from the archer at the tips.

recurve bow diagram

The limbs of a recurve bow curve back away from the archer; thus the name “recurve.”

This additional curve allows for a higher draw strength, which in turn increases your range and power with the bow versus longbows with no “re-curve.”

With a recurve bow, all of the draw weight is held by the archer. So, a recurve bow with a 70-pound draw weight requires that the archer holds that 70 pounds back until they release the arrow.

man holding recurve bow at full draw

At full draw, the full weight of the bow’s draw weight is held by the archer. (Photography by Southwest Archery)

But, compound bows are a bit different…


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Compound Bows

Prime Nexus2 compound bow

Compound bows, like this one pictured from Prime Archery, have “cams” that look somewhat like wheels on either end of the bow.

Compound bows use a system of wheels (known as “cams”) to literally compound the force of the draw.

Basically, this means that once you get the string about 3/4 of the way drawn back, the cams take over and do the heavy lifting for you. Unlike recurve bows, you aren’t left holding the full draw weight while you aim a compound bow. This reduction in draw forces is known as “let-off.”

cam of a compound bow

The cams of a compound bow, like this one pictured above, literally “compound” the force of the drawback by the archer and also provides “let-off.”

Let-off works like this:

Let’s say you have an compound bow with a 50% let-off that is set to a 70-lb draw weight. This means that you’ll draw back 70 pounds, but once the let-off of the cams engage, you’ll only be holding 35 pounds. Then, when you release, the bow will fire at all 70 pounds because of the cams.

man shooting compound bow

A compound bow’s “let-off” allows the archer to keep the bow at full draw without having to hold the full weight of the bow’s draw weight.


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Compound vs Recurve | Which Is Better?

The answer to which bow type is better depends. So, let’s break it down by category.

Accuracy

Repeatability is important to accuracy in any shooting sport, and archery is no different. This means that the archer must replicate factors like draw distance and release, and these can be tricky to get right on a recurve bow, since the archer is holding the full weight of the draw while trying to aim.

For that reason, compound bows are much easier to be precise with.

Winner: Compound Bow




Power

Generally, most recurve and compound bows top out at 70 lbs of draw weight. You’d think this means they would both have the same amount of power, but actually, the sudden acceleration from the cams unwinding on a compound bow adds a little bit more power to the shot.

Winner: Compound

Weight

On a long hunt, a lightweight bow will be your best friend. The cams and extra string to run them make compound bows heavier than their more traditional counterparts.

Winner: Recurve

Maintenance

Since they don’t have any moving parts, recurve bows require very little maintenance to stay in top working condition. On the other hand, compound bows require more maintenance to keep the cam wheels working correctly.

Winner: Recurve




Accessories

There are all sorts of gadgets and doodads out there for the prospective archer to add to his bow. Not all recurve bows are made to allow for attachments, although some are.

On the other hand, compound bows are built to accept all sorts of accessories like sights, stabilizers, quivers, and more. Compound bows are sort of the AR-15 of the archery world: you can trick them out with all kinds of fancy add-ons, if you feel so inclined.

Winner: Compound

Cost

Recurve bows are generally less expensive to buy than compound bows. This is because the moving parts and additional assembly required to make a compound bow increases that cost.

Winner: Recurve



Best for Stand Hunting

A compound bow will be easier to maneuver up in a deer stand but heavier to climb with. A recurve bow, on the other hand, will be lighter, but the longer limbs may make it trickier to line up the perfect shot while up in the trees.

Winner: Tie




Final Thoughts on Traditional vs. Compound Bows

So, maybe you’re a bowhunting beginner, or just interested in trying a new method of shooting a bow. At the end of the day, I can’t tell you which kind of bow would be best for you. It really all depends on what you want to use it for, and on your skill level as an archer.

I can tell you that my aging shoulders prefer the assistance of the let-off of a compound bow these days. But, there’s something to be said for the feeling I’d get as a youngster, stalking prey through the woods with nothing but my recurve and a handful of arrows.

Shoot straight!


In addition to bow hunting, if you’re also interested in rifle hunting and are looking for a good hunting rifle for beginners, check out this handy guide. Then head over here to learn how to sight in a rifle scope.


view while sighting in riflescope view
Richard Douglas, of Scopes Field
bishop holy trinity broadhead

Bishop Holy Trinity | Is This The World’s Toughest Broadhead?

“The world’s toughest broadhead.”

That’s a pretty bold claim, and I set out to see if it was true.

But, even before I shot the Bishop Holy Trinity 200-grain broadhead, I thought that it could actually be true.

Why?

Well, because there are four basic ways you can determine how strong a broadhead is before you even shoot it into anything.

So, before we look at what I found in the testing of the Bishop Holy Trinity head, let’s briefly look at those four indicators below.



john lusk holding bishop holy trinity broadhead
I had a suspicion, even before testing the Bishop Holy Trinity head, that it could in fact be the toughest broadhead on the planet.

Is the Bishop Holy Trinity the world’s toughest broadhead? Well, I was going to find out for myself! Keep reading to find out what I learned…

Four ways to determine broadhead strength

The four ways to determine the strength of a broadhead are as follows:

  1. Steel Quality
  2. Rockwell Hardness
  3. Steel Composition
  4. Geometric Design

Steel Quality

The first indicator of a broadhead’s strength is the quality of the steel itself.

What kind of steel is it?

To simply say something is all steel is nice, but there is a wide range of steel types, so the quality of the steel is important.

Rockwell Hardness

The second indicator of broadhead strength is Rockwell hardness.

How is the broadhead hardened and to and to what degree is it hardened?

To increase sales, some broadhead manufacturers will state that the head has been hardened to “x” degree of Rockwell hardness. But, if it’s the wrong kind of steel to handle that hardness, it’s just going to fracture and even edge chatter and shatter upon impact, which a lot of heads do.

So, this makes Rockwell hardness important, but also how the hardness is handled by the material.




I did some in-depth testing on the Holy Trinity, as well as the rest of the Bishop line of heads… Keep reading!

Steel Composition

The third indicator of broadhead toughness is the composition of the steel.

In other words, how is the steel put together?

For example, is the broadhead made from multiple pieces of steel that are welded together? A lot of broadhead manufacturers do that.

Is the head made up of multiple pieces that are held together by a set screw or two? Many companies go that route.

It could be a single piece head that’s metal injection-molded (MIM). Or, it could a single piece that’s CNC machined, which is by far the toughest. In that case, it would be machined out of a single chunk of bar steel.




Geometric Design

The fourth measure of toughness for a broadhead is geometric design.

How stout is the head? How thick are the blades? How supported is the tip of the head?

All these components of geometric design make a difference in the strength of the head.

john lusk showing the support feature on the bishop holy trinity broadhead
Talk about thick! Look at the geometric design of the Holy Trinity head!

Why Bishop Holy Trinity Could Be The World’s Toughest Broadhead

So, knowing the four factors covered above in determining a broadhead’s toughness, here’s why I thought the Bishop Holy Trinity could be the toughest broadhead on earth.

Steel Quality of Bishop Holy Trinity

The first reason I say it could be the world’s toughest broadhead is, first, they used a proprietary S7 tool steel.

S7 tool steel is one of the toughest steels there is. It’s incredibly tough. And this one particularly, the tool steel that Bishop uses, has a Charpy resistance impact in the 90’s (Charpy V-notch testing is a way to resist the impact of something to that steel).

To put that in perspective, it’s more than four times more resistant to impact than stainless steel.



Rockwell Hardness of the Holy Trinity

The steel of the Bishop Holy Trinity is then brought to a Rockwell hardness of 58, which is pretty amazing.

They can do that because of the type of steel that it is.

Steel Composition of the Bishop Holy Trinity

Then, the Holy Trinity head is CNC-machined, which is by far the strongest way a head can be designed. It’s very expensive to do that, especially out of that quality of S7 tool steel.

It’s really expensive but it’s also really tough.

Geometric Design of Holy Trinity

closeup of bishop holy trinity cross brace
Super thick blades! And, the extra support structure give the Holy Trinity a triangular wedge-like feature in between the blades!

Fourthly, the geometric design of the Holy Trinity (the 200-grain specifically) is that it has a really short geometric design.

The Holy Trinity’s geometric design is shorter than others on the market like VPA.

VPA are great heads. But, the Holy Trinity is just a shorter, stouter design. So, it’s going to fly a little bit better than most other heads like that because it has a lot of surface area and it’s going to hold up better to impact because of that stouter design.

But, then the blades on this head specifically are 0.070 inch thick which is a really thick blade, one of the thickest on the market.

And then the 200 grain, unlike the 125 grain model, has an extra support that’s kind of like a blade in and of itself. It’s like a triangular wedge-type blade that is really thick.


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john lusk showing blade thickness of bishop holy trinity
Here’s a look from the rear of the Holy Trinity. Notice the thickness of those blades as well as the triangular support in between.

For the thickness of the Trinity, it’s the sharpest it can get. It’s brought to an edge that’s going to cut through bone really well if something doesn’t get caught by the primary leading blades. It’s not a 6-blade head, but it’s almost like a 6-blade because it has the extra pieces in there that will make it more resistant to coming out of an animal as well.



So with everything about this, the type of steel, the hardness, the CNC machining, and the geometric design, this head certainly has the potential to be the “world’s toughest broadhead.”

I do a lot of research on broadheads. I don’t know anything that’s going to come even close to it except Bishop’s 41L40, their Bridgeport head that’s the same. It’s just a little bit lesser tier type of tool steel, but still way above most other tool steels that other heads on the market have.


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Holy Trinity Sharpness

bishop holy trinity broadhead
Because of the blade angle, you can easily sharpen two blades at a time by laying the Holy Trinity down flat on the sharpening surface.

This head was straight out of the package and it was sticky sharp, which for a 0.070 inch thick blade, it’s as sharp as it can get.

You can sharpen the Holy Trinity just by laying them flat on a file or a diamond sharpener which is really nice.

You don’t have to sharpen every blade individually and you don’t have to worry about the angle. You just lay it flat and it sharpens two at a time so you just rotate it. So, as long as you do it evenly, it’s a super easy process to sharpen



Holy Trinity Toughness Testing

So, let’s see how the Bishop Holy Trinity did against some really tough stuff.

Steel Plate Test

I shot the Holy Trinity head straight into the 16-gauge steel plate. Now, 16-gauge is pretty thick, and it’s much thicker than a steel drum. I wanted to see how the tip and blades would hold up and if it penetrates through.

bishop holy trinity after shooting through 22 gauge steel plate
In a previous test, I used 22-gauge steel. Then, I found some 16-gauge, and man, it took a chunk out of it. You can see that it made a pretty nice hole. And, the head stayed in incredible shape. It’s virtually unscathed. The blades went in about halfway. As you can see, the tip and the edges themselves are in incredible shape.


Porcelain Tile Test

porcelain tiles to shoot broadheads through
I’d heard shooting at porcelain tiles was a good way to test a broadheads toughness…

The next test of the Bishop 200-grain Holy Trinity was shooting it at porcelain tile. So, I stacked up 5 tiles and taped them together, so that they made one chunk of porcelain tile.

I wasn’t sure what to expect, but I had heard that it’s a good way to test head toughness. Let’s see what happened.

holy trinity shot through porcelain tiles
Well, I guess I should have used a lot more tile. I’m sure it would have gone through more, but it deflected off the end of the Rinehart and it buried into the Rinehart beyond the head.
holy trinity after tile test
The tip got a little bit blunted to the side. The blades were scraped up somewhat, but still in good shape.

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Cinder Block Test

The next test I did with the Bishop 200-grain Holy Trinity was the cinder block test.

holy trinity broadhead after cinder block test
After going through the cinder block, the head is in really the same condition it was after going through the tiles. Thet tip is a little less sharp than it was at the beginning, as are the blades. But, structurally, it’s in great shape. I put a file to it and it was be right back to normal.

The Verdict Is In on the Holy Trinity 200-Grain broadhead

So, the Bishop Holy Trinity is definitely incredibly tough.

The Bishop broadheads have all been phenomenal in every test I have put them through. Quite simply, they are in a class by themselves in terms of toughness and durability.

I would say the Holy Trinity 200-grain specifically is their toughest one because of its extra beefiness and the way they’ve added those extra ridges to strengthen it. Also, because this one is 0.070 inch thick. But, with that being said, all of the Bishop Holy Trinities are extremely strong.

I typically shoot the 125-grain but this one is going to get a little more blood. With the 1 and 1/8-inch cutting diameter of those extra 3 big wedge blades, they’re going to do some serious damage, and will hold up to anything the animal world throws its way.



Further testing of Bishop’s other broadhead offerings

I did some further tests on the other models of 3-blade, 1 and 1/8 inch broadheads that Bishop Archery makes.

As we have discussed above, they originally introduced the Bishop Archery S7 Tool Steel.

bishop broadheads lineup
The Bishop broadheads lineup from left to right: The Pipeline, Bridgeport and the Holy Trinity.

Bishop Bridgeport Broadheads

And then they came out with the second line they called their Bridgeport Line. It has the same exact specs of the original Holy Trinity. It’s a 125-grain head.

They both fly exactly the same. But, the Bridgeport model is made out of 41L40 tool steel, which is actually the second most impact-resistant steel of any broadhead on the market today.


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Bishop Pipeline Series Broadheads

Bishop’s third line of broadheads is the Pipeline series. This series is made out of a really unique stainless steel that they came up with. I was looking forward to testing this head out.

It’s supposedly stronger and more impact-resistant than any other stainless steel on the market; even more than S30V and any other stainless steel broadhead out there.


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There’s a significant difference in price between these heads. The Pipeline is more competitive with most other 3-blade heads on the market.

But, then the Bridgeport is a step up, and more expensive. The Bishop and the S7 are more expensive than that.

So, let’s see how all three heads performed in these tests.



The tests

In the following tests, there is a Rinehart target behind all of the mediums. That’s what’s stopping the impact.

1/2″ Plywood Test

bishop broadheads in 1/2 plywood
I wanted to know how the edges held up, and all of them held up extremely well. They all still bit into my fingernail. I really couldn’t tell any difference in the three after this first test.

.22-Gauge Steel Plate Test

Next, I shot them through a .22-gauge steel plate.

steel plate test of bishop broadheads
I next shot the heads through a .22-gauge steel plate.
bishop broadheads after steel plate test
All three of the Bishop heads held up really well against the steel plate. And, I hadn’t touched them up after the half inch plywood, but they all help up really well and still bit into my nail.

Timeout For Some Comparison Testing

Just for comparison sake, I decided to shoot a couple of other popular broadheads through the same mediums (wood and steel plate). I tested an Allen broadhead from Wal-Mart and the Muzzy Trocar broadhead.

allen broadhead after plywood test
Here is the 125-grain Allen head after shooting it through 1/2″ plywood. The tips are in good shape, but the blades got pretty jacked up. I guess that’s what you get for a $6 pack of broadheads.
muzzy trocar after plywood test
The 125-grain Muzzy Trocar held up really well and most of the blades could still shave a nail. There are some nicks in the blades. The tip is still in close to perfect condition. Overall, they held up relatively well.
muzzy trocar after steel plate test
So, after shooting the Muzzy Trocar through the 22-gauge metal plate, this is what I ended up with. The tip is actually in good shape. The blades, not so much. I don’t know if you can see it, but they are marred beyond re-sharpening. All three of them are really dinged up. Also, the washer at the base that’s part of the broadhead is broken as well in one place. So, not bad. It made it through, but it’s not usable. I could replace the blades, but I would need a new washer at the bottom.
allen broadhead after steel plate test
The Allen broadhead did not fare so well in the steel plate test. The tip is actually broken off and each of the blades broke off. You get what you pay for here. (To see how all three of those Bishop heads came through this test pretty much unmarred is pretty impressive).

Cinder Block Test

Next I tested the heads by shooting them into a cinder block. First, I shot the Holy Trinity, then the Bridgeport, then the Pipeline. I also shot the Muzzy Trocar.

bishop broadheads after the cinder block test
That was a really interesting test into the center block. The Muzzy bounced off and it had the most significant damage by far. The tip was completely broken off. But the Bishop heads are another story. The Bishop, the Bridgeport, and the Pipeline Holy Trinities all performed extremely well. And none of these heads were resharpened in between shots. And honestly, there’s just very little difference between any of them.

The Grand Finale | The 1/8″ Steel Flat bar test

So as the finale to these tests, I shot the Bridgeport and the Pipeline into a 1/8-inch steel flat bar. ( I had tested the S7 in a previous test, so I did not include it here).

bent steel flat bar after shooting bishop broadheads into it
The steel flat bar took a beating.
steel flat bar after shooting bishop broadheads into it
Check out this flat bar! I was amazed at the force of impact even with these relatively light arrows, that they would put such a dent in this 1/8 inch flat bar. But, then both of them penetrated actually all the way through. Quite impressive. They left a nice little triangular hole in that which other heads have not been able to do.
bishop broadheads after steel flat bar test
The Pipeline and the Bridgeport after the steel flat bar test.
Bishop broadheads after all testing
These heads have gone through like the half inch plywood and then the 22-gauge metal plate and then into center block, and now they’ve gone smacked up into a 1/8 inch flat bar of steel. And they have held up extremely well.


Final Thoughts

I am really impressed with what these Bishop broadheads have done. I’m also a bit surprised.

I’m especially surprised with the stainless steel Pipeline. Bishop thought they had something really good in that new steel they’ve been able to create and sure enough, it proved out.

Now, it’s really important to understand a couple of things here.

First, you might be asking, “why does any of this matter? Why are you shooting heads into steel, teak wood and concrete, stuff like that? What’s the point? It’s not an animal.

Well, that’s true. But, consider this. The Allen head that was destroyed… Is that, or another head like it what you want shooting into an animal?

Failure is not an option

Personally, I want a broadhead that I trust is not going to fail no matter what. And so, especially when I’m hunting a big animal like an elk or a moose, or a big hog or hunting in Africa on a trip I’ve invested time and money into, I don’t want a broadhead that’s going to dull or break in half, or lose a blade.


Will it work when it matters?

Secondly, you could take a head out of the box or packaging and have it shave hair like even that Allen did and like the Muzzy Trocar did and that’s awesome. But, it’s not how sharp it is as soon as it impacts the animal that matters, but how sharp it is as it goes through the animal that matters; how sharp it is when it comes out of the animal?

Some people say, “Oh, I don’t care if my broadhead gets destroyed, as long as it kills the animal.” Well, eventually, you’re going to have an animal that doesn’t die because the broadhead was destroyed. And, when your blades are getting all nicked up, they are not cutting tissue effectively all the way through.

So, you want a head that’s not just sharp upon impact, but that’s sharp all the way through that impact, through the tough hide, through the muscle and all the different forms of tissue; the tendons, the ligaments, the cartilage, and even through bone.

You want one that is going to keep penetrating extremely well all the way through, especially if it’s a big animal where depth of penetration makes a significant difference.



Bishops are worth it

So, that’s how these Bishop heads show and prove their worth. They are able to take the toughest that there is and do extremely well through it.

I still shoot a lot of different types of broadheads based on the need I have and the conditions, as well as what animals I’m going after. But what you have here is the best deal, hardened in the strongest way and you have them CNC machined in the Holy Trinity as well as their two blade heads.

And then, you have the geometric design that makes these heads extremely strong. And, they do all that also in a really short design in the Holy Trinity, which allows them to fly really well.

I hope this helps you to understand broadheads and understand these three lines of Bishops a little bit better.