Jon Hawkes Profile picture
Oct 29, 2021 24 tweets 8 min read Read on X
Lots of people note that hard kill APS rarely have more than 2-4 rounds available on each aspect, ever wondered why? A(nother) thread!
When you look at projectile APS, most have 2-4 rounds (either ready rounds like an Iron Fist, or reloads like a Trophy). There are some exceptions, QuickKill had 8+ but that single pod covered all aspects, versus 2 or 3 per aspect on more traditional systems. So, 2-4 is the norm. ImageImageImageImage
Even non projectile systems tend to trend around here. StrikeShield/ADS has 2 per pod with adjacent pods able to defend one another, so again in the 2-4 window, give or take. Image
Some people say that’s not enough, but in reality the maximum number required is somewhere between 1.5 and 4, and very much weighted to the lower end of that estimate.
How that figure is reached varies, and most of the work to inform it is classified, but there was a rare example of public facing data in a brace of TRADOC papers in 2000/2002 that show some of the rationale behind it
There are two key factors that drive this ammunition capacity – SwaP limits, and survivability of the system, the latter being the key one.
First though, SWaP – Space Weight and Power. The outside of a turret or hull is a busy place, and space claims are very limited. Finding unobstructed areas to put radars, EO sensors, launchers and all the cabling and boxes to go with them is not simple. Image
Finding those locations that also do not impede the vision of sights and crew stations, nor interfere or are interfered by communications systems, jammers and other emitters/receivers/sensors again is not a simple ask of the designers. Image
It also needs to be as light as possible. Systems like Trophy add as much as 2.2 tonnes to a vehicle, and all of that is up high on the turret, impacting CoG and other vehicle dynamics. Often (as with M1) you have to counterbalance the APS with yet more weight and space claim. Image
And in the case of M1, CR3 and Leo2A7A1 you have to add further structures to the vehicle to mount all this on, with all three using new sponsons on the sides of the turret to mount their Trophy systems. ImageImageImage
That’s more weight on the turret and stabilisation, more weight on the suspension and powertrain, more volume for logistical concerns. Its just more everything. So the goal has to be the smallest and lightest possible, nothing more than required. So what is required?
Here is the modelling bit. Manufacturers and users conduct their own assessments, I’ve seen a few, and all mirror the broad approach of the TRADOC papers. Essentially it comes down to how long an APS is actually going to stay working in combat.
Because even if everything works perfectly, when an APS defeats an ATGM or RPG, a large volume of fragmentation and debris is projected over the vehicle. Whilst the marketing videos often show APS as a forcefield, they obviously are not.
That frag cloud will wash over the vehicle as that was the path of the projectile and will impact exposed systems. APS is not a behind armour system, it is located on the surface of the vehicle and even the wiring is typically in exposed conduits on the surface.
Things like radars and EO sensors cannot be readily armoured, and the mechanisms of the effector turrets similarly are vulnerable to damage.
So, assuming the APS works, and a threat is defeated c.50m from the vehicle, a fragmentation and debris cloud will still hit the vehicle. In very broad generalisation, this will be about 110 fragments. Image
For a typical Trophy-like APS around 11 to 33 of these will hit an area that contains a critical APS component – radars, EO sensor, effector, munition, or cabling. Depending how many fragments, you get a probability that a critical system is hit and the APS degraded or destroyed.
You can then model out the likelihood across repeat engagements using a Markov chain approach, and it becomes increasingly likely the system is damaged beyond function and rendered inoperable, much moreso as fragmentation density increases.
Assuming the lightest end of the fragmentation estimate – 10 – then there is a possibility that the system could survive to 3.41 engagements before it is rendered inoperable. Image
However at the more credible fragmentation density that number falls radically, with 1.55 being the most likely figure. So whilst statistically unlikely, you’re looking at 2 engagements and the system is dead. Image
Ah but you could make the system smaller, then its less likely to be hit. Well, not really. The model shows that a typical APS has a presented area of c.2.5ft2. That would need to drop to between 0.2ft2 and 0.039 ft2 to achieve >95% survivability against 4 consecutive engagements
In essence, it is statistically unlikely for an APS to remain functional for more than one or two intercepts, and so designers and users have agreed that a safety net of three to four (however unlikely such a high figure may be) is a good maximum number of engagements required
Any more than this is overwhelmingly unlikely to be needed, and in fact is likely to mean a shorter effective life as the components will be larger and more likely to be hit by fragmentation and debris in the first place. So, 2-4 rounds is the norm.
There are a lot more factors, and this is just one of them, but shows within public domain some of the broad thinking that informs these sorts of decisions, which are far from arbitrary /end #AFVDesign #tanktwitter #miltwitter #AFVaDay

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More from @JonHawkes275

Sep 30
(Part 2) It started as a thread on the UK's Titan AVLB and Project TYRO, but got so unwieldy I’ve made it a mini series. What is Titan and TYRO; why is it one of, if not the, most important requirements in the British Army (or any army); and why is it a critical requirement? Image
I’ve broken into a few parts; (1) What is Titan and Project TYRO; (2) Why is combat bridging important anyway; (3) Why is Titan a serious problem area; (4) Whats the plan for TYRO CSB; and (5) What are the other options and the implications?
So, Part 2 – Why is combat bridging important anyway? Image
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Sep 17
The UK was the birthplace of the tank and though today it has only a single upgrade programme to show for heavy tracked armour, it was the origin of many key technologies and capabilities used by tanks the world over. A🧵of a few highlights of the glory days of British armour R&D


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The first practical gas turbine powered vehicle, the FV200 Turbine Test Vehicle, a Conqueror. 'Practical' is a caveat - the Germans actually had the first gas turbine tank, a Jagdtiger in WW2, but it had a problematic habit of setting trees and other nearby objects on fire.


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FV4211 (initially the Chieftain Mk5/2), an all-aluminium tank that was the first with composite armour, initially called Burlington but renamed to Chobham, based around the concept of composite materials under permanent compression, laid in a matrix with additional materials... Image
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Jul 1
(1/n) A neat bit of thermal footage of Challenger 2 firing and driving. A couple of obvious takeaway comments on tank heat signatures:
Engine is peak sustained source of heat, particularly once underway & exhaust blooms. Its at the rear which is good for classic head on engagements, but modern all-aspect attacks mean its increasingly a concern that you can't do much to mitigate. (cgi image but representative) Image
Barrel once fired is a big hot spot from the front. One part of the reason for these trendy shrouds we see on concept AFV is to limit that signature (and thus far has been dismissed as until you shoot barracuda coverings are good enough, and once you have who cares anymore)

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Jun 11
Some fervent discussion about KF51 in one of my tweets yesterday, a quick thread on the 130 mm main gun and its ammunition handling system in the KF51 concept vehicle to answer some of the question that came up.
Reminder this is a prototype vehicle still and everything is in active development and would be subject to user requirements if it gets bought by anyone. Notional data follows. Image
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Jun 6
80 years since D-Day, so I thought a (rather long, it turns out) thread of the various interesting AFV things that were around that day, and a bit of a look at what they have evolved to today as spiritual successors. #tanktwitter #dday80 #tanks Image
Specialist AFV are ubiquitous now, but the D-Day landings were some of the first outings for many of these capabilities or at the least cemented their utility upon which several generations have evolved since.
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Apr 17
A brief summary🧵of the Manned Ground Vehicle (MGV) element of the aspirational US Army Future Combat Systems (FCS) programme. A bit of a "what they almost got" for the US Army of the late 90s and early 00s. Image
MGV was a common family of AFV that were bold in their vision - baseline 24 ton hull (later upped to c.30t) with hybrid drive & CRT track, loads of data & sensor fusion, a lot of automation (most variants were 2-man crews), with less passive armour and more smart solutions. Image
A few more details of the core base platform that the family would build on. Lots of bold capabilities that many 2020s AFV still lack, and all with the strategic benefits of a single common platform across an entire Army fleet, which are substantial. Image
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