A few sources say the T-90 (I think without the A suffix intentionally) is at a cost of 1.3 million USD. Maybe this is without the ERA and SHTORA? Or were those estimates? I think those might've been estimates. Correct me if I'm wrong.
Again, the T-90 is a stop-gap measure. It's going through low-level production. If Russia were to be as economically strong as it were under Soviet times, they'd have replace the entire T-72 fleet by less than 10 years, I think. Soviet tank production ran at about a few thousand a year (not entirely sure of the figure, but I do know it's within the thousands), but from various factories.
Soviet designers did not emphasise low hulls. There was a general desire for a compact design that allowed greater concealment and manoeuvrability.
No, the purpose is to lower the centre of gravity. Believe it or not, but tanks did roll over during the Second Word War. Also, the curvature of the armour allowed better protection, and this invited lower profile.
This is a myth started with the German tanks by the Allies in the West. There are plethora of reverse slope positions EVERYWHERE in Europe, and globally. Its called ambient terrain undulation. Any undulation below 5m is usually not evident on the topographic military maps, but a tank hull height is about 1.5m. The driver need only ease it up onto the undulation that is usually 1.5-3.5m in height to gain a hull-down position with no need to depress the main gun. To attain a reverse slope firing position as was illustrated in articles and books that supported this view, the tanker first needs to find a convenient height that is a good tactical position, offers a good LOS, and can be accessed over a less than 60 degree slope, because in the illustrations it usually looked like a nice 30-45 degrees slope that looks like a concrete ramp
. Dig? Who uses tanks to dig? They are for scooping soil ahead of the tank to form a quick berm that will offer additional armour to the tank in an open terrain. A tank round will go through the fresh earth anyway, but the ATGW won't.
The ammo is inside the compartment because that is where it has always been. Truth is that if a tank's fighting compartment is penetrated, the crew will not be in any state to make use of the safe ammunition, even if it is untouched. Given this lesson gained over 4 years of armoured warfare there was a widely held belief that the ease of being able to rapidly access the ammunition by all members of the crew is better than having it safe after they are forced to abandon the tank. If this tank is captured, it provides the enemy with a ready supply of ammunition!
And what if the penetration is in the bustle? Believe me that the turret will achieve free flight in the result
Maybe you would like to go to Tagil and show those engineers how to do it?
Yes, because there is also a design flaw in the NATO tanks... they are on average 20t heavier! With that sort of weight, the distribution of it is such that you want to put as much of the weight as close to the engine as possible to increase its efficiency. By putting the bustle over the engine, the weight that has to be pushed ahead of the engine is reduced by that weight of the bustle, the ammunition and the surrounding armour, about 10t+. Its the old friction and gravity equation.
Without almost any knowledge regarding tanks, I'm just wondering:
Isn't that what the blow out panels are for?And what if the penetration is in the bustle? Believe me that the turret will achieve free flight in the result
What's the point of reducing the weight ahead of the engine? This part I don't understand? And what does that have to do with engine efficiency?
Given that they've been promising to show the new tank (presumably Object 195) publicly for years, and have yet to do it, and given that no dates have been given for a serial production run, I suspect that the new tank is a low priority right now. I don't even know if the Object 195 will see a serial production run, or if they will simply use it as the basis for the new MBT concept that they're trying to get a joint-development on with India.
It is almost impossible to predict the effects of all penetrations, and I was mostly considering a penetration by a tank round rather than an RPG. A dedicated AT missile warhead is also more predictable in how it behaves, but a tank gunner can these days put two rounds in the same spot within seconds.
That is the theory, but how that really works in every case is harder to predict. No one sat there exploding hundreds of tank rounds in tens of bustles on a real tank to get a greater statistical model. Its a design principle.
Its physics. The engine produces force. It produces enough force to counter those of friction and gravity acting on the tank's mass. The more mass there is in front of the engine, the greater force it requires to propel the mass of the tank when it has to be pushed up an elevation to counter gravity. Consider the trains where the rails are used to eliminate the friction, but when that choo choo is going up-hill, it is struggling to pull the wagons behind itself because of gravity. Sometimes a second engine is attached at the rear to add the push force to the pull force.
No, very much a minor consideration. Form follows function - a lower height is desirable because it makes concealment/cover selection easier and make the tank a smaller target. They are not designed to be low so they do not roll over
No Tavarisch is right. When the older soviet designed vehicles came up to the top of a ridge to a hull down position their guns cannot depress as far as western designs which limits which hills can be used for this type of engagement. It is not a myth.
Tanks do not operate independently. When one fires and goes to move it does not matter that they have lost LOS, others in the sub unit will be observing and advising. The latest Link 22 type systems will allow unparalleled situational awareness - so this will be a non-issue. I find it hard to believe that the US army only found out in 1988 that tank running gear is vulnerable to artillery fire. It is well known that a 155mm artillery barage can have quite an effect on an armoured vehicles ability to fight - optics, aerials etc are all vulnerable, idlers, roadwheels etc would also be affected that could lead to a tracked vehicle throwing a track.Then they have to crawl up it and position themselves in such a way as to make a quick exit to a hide because firing a 105mm or 120mm weapon on top of a hill is VERY visible unless there is a wood or a hill behind the firing tank. THEN the firer has to cope with loosing LOS of the enemy as they manoeuvre on the reverse slope to the next position! Of course all this happens after they have survived the artillery putting down the obligatory harassing fire on top of the ridge "just in case" and have not lost their optics, or have not had their track blown off by a near miss (something US Army only discovered in 1988) in which case they will be busy trying to fix the track on a slope, which is always an interesting exercise that "builds character" as they say
Firstly, semantics. You know what he meant. Secondly, where do you think the berm comes from? From earth scooped out behind the berm. If done correctly in the right soil conditions the tank can effectively have a low berm and be virtually hull down below ground level. Good cover. Sure a tank round will probably go thro6 feet of earth but it will be going a fair bit slower and may even have been deflected.
The latest western tank designs have made advances in crew survivability from surrounding stowed ammunition with water jackets to the use of blow off panels and armoured doors inside the turret bussle to increase crew survivability.
Rubbish, see above.And what if the penetration is in the bustle? Believe me that the turret will achieve free flight in the result
Again, rubbish. Lets go back to basics shall we? The design of an armoured vehicle is a series of trade-offs and compromises. Nearly all western MBT's designed in the last 40 years have been designed around this set of compromises (in no particular order):
Try that in a modern tank and the stabilisation system will ensure that anyone hanging onto the main armament will be pulped as the gun elevates and depresses. Having riden in a Leopard cross country with stab engaged I was damn glad that there was a big metal guard to keep me from being thrown against the breach as it moved up and down. Its not about 'comfort' as you keep saying - its about trying to minimise crew fatigue levels - warfare is a 24hour business, and particularly during the type of blitzkreig assaults experienced by the armoured forces under Gudarian in 1940 and GW I and GWII, this is a major consideration. In some cases the only times the tankers got to dismount was to reload and refuel for days at a time.
Your facts to support this? Tank transmissions and drivetrains are perfectly well designed for their task. They are designed to accellerate a 70tonne vehicle up slopes etc. Is this your 20 tonnes overweight hobby horse we are seeing here? The vehicle transmission is designed for its task whether it is a 50kg motoor scooter or a 70 tonne MBT. Fuel, yes it uses quite a bit of fuel to push 70 tonnes up a hill, but I don't think that is a tactical consideration, rather a supply and sustainment issue. Also what is this rubbish about where the weight is located adding to or subtracting from efficiency? Where the weight is has absolutely no bearing in a tracked design beyond the engineering challenge the suspension designers face.
Sounds like rubbish to me. If anything a bussle on a turret will help counterbalance the weight of the gun. There are certain limits anyway to using a cross slope as a hull down position - namely the gun depression limits. Normally a tank will approach a crest to achieve a hull down position by driving forward -thickest armour at the front of the vehicle, so cross slope positioning and the risk of the vehicle rolling over is not an issue. Most tracked vehicles by virtue of their design has a much lower centre of gravity than wheeled vehicles - This seems also to be a hobby horse of yours - I haven't seen the internet littered with pictures of MBT's on their lids.
Right...quantity beats quality
I do not want to be a digger in any army you are responsible to equip.in the case of tanks, form follows doctrine, not function. The T-54 turret came from the JS-3 design concept.
The Soviet tanks were never designed to "came up to the top of a ridge to a hull down position"! Do you know where the "Western" tactic came from?
Please! I know tanks do not operate independently, and so do all tankers! If one tank fires, the assumption those being fired on can make is there is that there are other tanks close to the position from which the fire came from. I do not want to get into semantics, but the crew of a NATO tank in the 60s, 70s and 80s would have been largely focusing on their own fight after loosing LOS. Sure they listen to net, but own visual is an important awareness factor in combat.
I'd know what he meant if he said what he meant.
Yes, but all that costs in added weight.
When designing tanks, one starts with simple things like physics, stress and strain, tensions, etc.
However, we are not discussing modern tanks.
There used to be a five man crew in a 120mm armed US Tank.
There is quite a bit of difference in designing automotive parts in a 60t tank to a motor scooter.
Yes, it all sounds like rubbish, but the bustle has no counterbalancing role in the design. It will prove dangerous however in certain firing positions in some designs.
Well, its about time you leaned thatRight...quantity beats quality
Cf. [1673 Mme de Sévigné Letter 22 Dec.]
Excuse me, but physically this is highly incorrect. An engine produces torque, not force. This torque is then transmitted through the drive train to the drive sprocket, where we have a transformation from torque to force via lever. This is where the force is applied. It is then transmitted further through the tracks, which we can think of as a belt transmission, to the ground where it interacts to propel the vehicle.
Semantics again. And doctrine determines function which influences form. Why is it in any way relevant to the conversation that the T54's turret came from the JS 3 concept? Sprinking book facts through your text does little to aid your credibility. Back on topic, tanks do in fact spend great gobs of their time stationary which is why the fuel consumption of the M1's gas turbine was such an issue. Whilst I have never been to a two way rifle range I have exercised often with 1 Armd - and apart from a Leopard stuck fast in a really soft piece of ground ,have yet to see one 'come to grief' let alone roll over (which was you earlier assertation that you seem to be backing away from).
No, they weren't designed that way because the soviet doctrine emphasized offensive manouvre warfare. But as we all know warfare doesn't always go according to plan and the advantages in designing an MBT with good mobility and a low silhouette turn into disadvantages when the MBT is used in say the defence. The western designs are more adaptable to other types of warfare.
Oh right so it wasn't: "(something US Army only discovered in 1988)" The US army knew about the possibility of a mobility kill with artillery before 1988 except that they had underestimated it effectiveness. So what? Artillery was still going to be used against armoured formations if for no other reason that it keeps the crews buttoned down and buggers up their situational awareness. Employing 155's against armour was something I was taught in 1987. To paraphrase you, I'd have known what you meant if you had said what you really meant.
Just a guess, english is his second language - and he does pretty damn well if you ask me. I worked out what he meant, you wanted to nit pick.
Yeah - kinda hard to dig yourself through say a granite shelf.
So being hull down is no advantage?
So you don't think the added weight of crew survivability features such as water jackets around ammunition stowage, and armoured door/blowoff panels is a good idea... Strange that you have so little regard for crew - highly trained crew are irreplacable which is why nations that value the experience and lives of their crew have designed tanks like the Merkava.
Seems to fly in the face of what you said before about any hit to the bussle resulting in a flying turret.
Seriously? You don't think they had to examine the basic ideas -the big three - firepower,protection and mobility first? When you reach decisions on the first three then it becomes an engineering issue of stresses, grades of steel and construction methodologies. This continual insistence of rebuttal for the sake of substituting words really only annoys people Future Tank. My original point was that tanks have evolved the way they have due to the tradeoffs that were made for each design. The soviets compromise in their designs meant their MBTs were comparitively light, fairly well protected, well armed and with a excellent mobility, but the cramped/poorly insulated working conditions for the crew mean that fatigue is a definate issue as is the problem of main gun depression. The Indian Army has found that the internal temps are playing havoc with electronic equipment, and that retrofitting anything inside the turret is difficult due to the lack of space.
The poms have had a history of heavy 'infantry tanks stretching back to the Matilda, Churchill, Centurion. They did not need to copy the experiemce with the Tigers. What flawed understanding of soviet doctrine? The western cold war tanks were basically designed to counter a massed invasion of soviet tanks, thus mobility, especially for the pommy designs was accorded a lower priority than protection and firepower (the 120mm was then the largest fitted to a NATO tank).
You are waffling here. Why is it a flaw to have a tank that weighs 20t more than the soviets? We have just gone over why the tanks have turned out the way they have. It's like saying that a Toyota Landcruiser is a flawed design because it weighs 1 tonne more than a Suzuki Jimny. The vehicles are different sizes - of course there will be different weights.
Really? From the first post in this thread, first, second and third lines:
And a crew of 18 in a German A7V. But that is irrelevant to this discussion.
But the principles are the same. You missed the point entirely. The engineer looks at the parameters and produces a transmission to meet the requirements. The soviet designers would have designed and selected their transmission with the weight class of vehicle in mind, the same as the western designers. The point was the transmission is designed to do the job regardless of it being designed for a motor scooter or MBT. Inferring that one will be stressed to a higher level to support your assertation that western tanks are overweight is wrong.
So, let me get this straight, gun out the front, but adding weight overhanging the turret at the back is going to have no counterbalancing effect? What drugs are you on? The only hazard that a bustle or any overhang for that matter brings is to act as a shot trap - ie deflecting the incoming round in toward the turret ring. What threat were you referring to?
Are you serious or do you just like typing for the sake of it? Gee, thickest armour toward the most likely threat - why would a tank commander do that? Obviously you have not seen the way armour moves in bounds - they will nose up to a hull down firing position, then when given the word to move, will reverse into the dead ground (never straight over the top), then move forward at a different (usually lower)point of the ridge. The same technique for retreating in bounds.
So if there isn't time to take pictures there must be heaps of after action reports about tanks that have just rolled wouldn't there? Tanks are used for training too - often times quite realistic training - yet I still don't see great numbers of tracked vehicles that have rolled onto their sides. About the only photos you will find in any numbers are shots of M113's that have gone end over end due to the driver grabbing the pivots too damn hard or at too high a speed. Again that is a specific well known issue relating to how that vehicle is operated and has little to do with the relative height of the Centre Of Gravity
You could be right here - just the inability to admit when you are wrong, which, because you are still arguing the same dead point, just makes it look like you have certain agendas.
Did you forget that the septics were at a massive numerical inferiority in the Gulf War? They seemed to win pretty decisively there. Past 'losses' such as Vietnam were not lost because the yanks had superior technology rather than superior numbers that battle was lost because the politicians bottled out.
I didn't go into the greater engineering detail as I didn't think it was necessary, and I agree that he train was not a good example. However, it seems to me that locating the engine as close to the centre of gravity of the vehicle as possible significantly aids design efficiency. I even remember an article on it somewhere a few years ago (though not specific to tanks).Excuse me, but physically this is highly incorrect. An engine produces torque, not force. This torque is then transmitted through the drive train to the drive sprocket, where we have a transformation from torque to force via lever. This is where the force is applied. It is then transmitted further through the tracks, which we can think of as a belt transmission, to the ground where it interacts to propel the vehicle.
The efficiency of the engine is an inherent characteristic of its design, the efficiency of the drive train (to the drive sprocket) however is largely dependant on how "long" (figuratively) the drive train is. Yes, there is friction, among other things like torsion and slip. That's why the drive sprocket is in the rear, when the engine is in the rear, or in the front, when the engine is in the front.
This has nothing to do with the distribution of weight. You can place the engine wherever you want, it doesn't matter for its efficiency. It matters for the efficiency of the drive train though, but again, not because of weight distribution.
Considering the tracks I'm pretty much sure that an even weight distribution is the ideal situation for maximum efficiency.
The train example you chose is a bad one, for several reasons, as first of all in the configuration you mentioned the reason a pull configuration can climb steeper hills than a pull configuration has to do with the shift of the center of gravity towards the engine and the fact that a railroad engine has wheels. I won't explain that now, for my (and the other readers') convenience.
Besides that I was under the impression that the bustle is located where it is just because it is best protected there in head-to-head engagements. Would be rather silly to place it in front of the turret, eh
The sense of placing as much mass as possible towards the center of gravity wrt motorized vehicles is that this reduces the moment of inertia when turning. See e.g. sports cars with a mid-engine. And in cars it certainly helps to gain an even weight distribution, if you shift the heavy compact mass of the engine towards the middle.
You are right, but it did make a difference once in tank design history. Remember the BTs based on Christy's ideas? The fast tank never really left the heads of Soviet designers even in the 80s, and the T-90 is a testament to this in a way though it is not a new design.
The Christie tank and BT series had their engine in the rear, turret in the centre and driver at the front - much lke current designs. How does this wash with your assertation that the mass needs to be centralised? One of the fastest tracked vehicles in recent service would be the brits Scimitar/Scorpion varients. Official top speed 80kph, unofficially, quite a bit more - they are front engined.
Welcome to the world of FutureTank... he's ideas are to military science as Scientology is to psychology.
The suggestion is that the Soviet designs do not care about crew survival. However, the design of T-34 clearly was superior in ensuring crew survival because it prevented penetration of armour in a better way.
Care to share why you think the Soviet tanks follow that 'flawed' design philosophy?
Oh really? You don't suppose German tank destroyers were any good in defence during the Second World War?
I don't want to be again accused of semantics, so did you really mean 'warfare', or tactical and operational postures?
Yes, but you never served in Europe, did you?
No, the US Army grossly underestimated the effectiveness of their own and Soviet Artillery for 40 years after the Second World War. This means that they battery would be firing twice as much ground burst HE rather than air burst to keep the tank commanders' heads down. Not that it matters since given the Soviets did understand the true effectiveness of the artillery, they would take measures not to encounter it. However, here again we have the supposed flaw in Soviet tank design, although it is the larger NATO tanks that would, statistically speaking, be more exposed to damage and therefore enforced crew dismounting due to being larger.
Ok, I didn't realise that, so my appologies.
"If done correctly in the right soil conditions"? - no, seriously, you expect someone to jump out and start doing soil testing?
Its not a "hull down" position, but a temporary anti-missile scrape. Believe it or not, the Soviet tankers also train to assume hull down positions. Its not like the European terrain is completely devoid of spots where a Soviet tank does not need to expose itself too much to fire. Nor is the terrain prevalent to allow ubiquitous hull down positions for NATO tanks. All crews are trained to look for most suitable positions.
I didn't say I think these crew survival measures are a bad idea. What I say is that their lack in Soviet tanks is not a design flaw. Even in the Merkava the crew survival philosophy was only brought home by the 1973 war, and was not implemented until 1979 I think, three years after T-80 entered production.
Maybe that was an overly spurious comment to make given lack of statistical evidence. However, based on bustle detonation, even with the blow out panels I think the turret fighting compartment would not be unaffected, which is what most people seem to assume.
Nope. Firepower and protection are both matters of physics. Mobility was determined by the norms guided by doctrine in the Soviet Army that was the design bureaus' sole client. Organisational velocity if you will. What was considered though which was not a matter of science, was the industrial production capacity for a new design. That is where the T-64 came a cropper. The other 'big one' is of course the crews you keep talking about. The Soviet Army found that they just could not allocate enough conscripts to crew the more complex designs in the offing in the 60s, so they reduced the crew and increased the support personnel numbers. I can't remember who, but someone worked out that if the essential field support personnel are added to the tank's crew, then a Soviet 3-crew tank has a crew of 5, while the then new NATO tanks had crews of 7-8. And this just happens to describe the factors that Soviets think are important in considering a tank design, the 'big five': suitability for production, ease of crew and support personnel training, and combat characteristics you mentioned. Again there is no flaw because the Soviet Union was outproducing NATO in tanks, and because NATO designers were attempting to design catch-up models for two decades. Again, no flaw.
But I'm not rebutting. In what way did the Soviets compromise their designs? That they were "cramped/poorly insulated working conditions"? As I understand it the T-54 was a comparative limousine tot he T-34/85, never mind the 76mm armed model. Sure the Americans went from crewing medium M4s to heavy M26s and their M46 redesigns. I suspect that had the Soviet Army chosen to adopt the JS-3 as their point of MBT design origin they too would have had the volume to introduce all sorts of creature comforts. Are you saying that doing more with less in tank warfare is a flaw?
Which electronic equipment? You mean this?
Is it a flaw in the Soviet design that the French electronics don't function in Indian deserts?