I doubt if it is a drill as high precision robots take care of the rivet holes.Rakesh wrote:Excellent find enaiel. I loved the video!
Ten days to paint a Tejas is too long though. F-16 and F-35 take onlee 10 minutes due to robots in the production line
Can someone please look at that video and stop at EXACTLY 8:04! Is that a drill being used to attach that rivet or is he doing it by hand?
How long does the paint take to dry?Rakesh wrote: F-16 and F-35 take onlee 10 minutes due to robots in the production line
The painters then paint the areas with an anti-corrosive paint which, ironically, is made by the Dutch company AkzoNobel.
Saar, you are obviously way more knowledgeable than I am in these matters. I was being sarcastic at folks who claim that Tejas is built by hand! People will say any bakwas and pass it off as truth.Neela wrote:I doubt if it is a drill as high precision robots take care of the rivet holes.
Looks like rivets are attached by air guns. BTW, on the other side, the solid piece of metal being pressed on the frame is called a bucking bar.
Seen similar riveting in a A380 video .The BBC documentary was called "City in the Sky" and the A380 manufacturing was covered in detail.
The rivets were attached manually just as you see in the video above.
Oh..Any idea why that is so? The new one has been in testing for many many months now. Has testing not been completed?Indranil wrote:No. SPs don't sport the new radome yet.Kartik wrote: I somehow believe that the Tejas-LCA admin may have misunderstood the question. The radome in this picture does appear to be the quartz radome.
Where are the domestic orders for 500? As it stands, the orders are for 20 Mk1 IOC and 80 Mk1A. Based on Hal's current manufacturing schedule:Neshant wrote:How do they hope to export any of these planes if they can't even produce it fast enough for domestic needs by a long shot.
Absorb at least 500 of these planes domestically.
Small correction.enaiel wrote: Where are the domestic orders for 500? As it stands, the orders are for 20 Mk1 IOC and 80 Mk1A. Based on Hal's current manufacturing schedule:
Cybaru wrote: Private players aren't going to be sitting like Avadi and HAL, they will want govt to keep buying no matter if they need it or not, isn't that so?
Then you get the situation like USAF, which buys even if it doesn't need and then puts them in the boneyard.
If you watch any of the recent interviews, there is no mention of FOC SoP. I could be wrong, but I don't believe any Mk1 FOC will be manufactured.Cybaru wrote: Small correction.
20 IOC
20 FOC
83 MK1A
---
123
aren't those fuel tanks composite? I am seeing welded joints.enaiel wrote:Not sure if this was posted before: "The making of IAF's Tejas LCA- NEWS9"
Nothing significant changes when we go from fly by wire to light. The end consumption of data and the data produced remain same. The medium carrying the data changes and the speed it is transmitted to and from producers and consumers of the data changes. The connectors that transmit and receive data change (as its optical now), but there is no significant change in upper layers (application layer) if the underlying physical transport layer changes.NRao wrote: WRT the AMCA, it was supposed to be FBL, not FBW. If that is still the game plane, then pretty much everything changes. Nothing in common with the LCA as far as the nerve center is concerned. The AMCA will have no wires to seriously talk about. (On that matter, Dr. A. K. Ghosh has been at it for about 10 years now.)
Weight, EMI and security were known for a very long time. Under security came redundant messaging, thus acting as a second harness - which saved more weight (in addition to the weight saving of going from wire to fiber).Cybaru wrote:Nothing significant changes when we go from fly by wire to light. The end consumption of data and the data produced remain same. The medium carrying the data changes and the speed it is transmitted to and from producers and consumers of the data changes. The connectors that transmit and receive data change (as its optical now), but there is no significant change in upper layers (application layer) if the underlying physical transport layer changes.NRao wrote: WRT the AMCA, it was supposed to be FBL, not FBW. If that is still the game plane, then pretty much everything changes. Nothing in common with the LCA as far as the nerve center is concerned. The AMCA will have no wires to seriously talk about. (On that matter, Dr. A. K. Ghosh has been at it for about 10 years now.)
The MK2 and AMCA will be way more similar than F-16 and F-35.Rakesh wrote:No Neshant you cannot do that. You cannot repurpose a F-16 line and adopt it for F-35.
Perhaps I dont understand what you are saying. Are you just listing the benefits of FBW vs FBL?NRao wrote: Weight, EMI and security were known for a very long time. Under security came redundant messaging, thus acting as a second harness - which saved more weight (in addition to the weight saving of going from wire to fiber).
With recent moves to use more "composites", the hardening that was used in the FBW is no longer needed, thus they can use more "composites" and save more weight.
Then comes bandwidth - the latest pet. Even the F-16 offered to India trumpets this claim. Combined with savings in weight, it allows for more gizmos to be added to a craft - sensors, as an example - which is bound to happen. Note that the IAF was looking for 360 for the FGFA, which it should get in the AMCA (and even perhaps in the LCA in a few years). This means a LOT more lines of code. The LCA app layer cannot be reused, the AMCA will need a brand new set of code.
Where that code resides would depend on the hardware arch they use. Thus this may contribute a major change.
In short, I expect, as compared to the LCA, major changes (which is what I meant by "then pretty much everything changes"). All this assumes that they will use the FBL for the AMCA.
The Japanese X-2, I just found out, uses FBL - articles on that should provide a good feedback. Crafts that do not have FBL, but use larger bandwidths use them for other features. The T-50 uses some of these (force-feedback - as a trainer that is good).
No WIRES? That is a interesting claim and possibly untrue! Its not wireless, its just an optical wire.NRao wrote:The AMCA will have no wires to seriously talk about.
What does that have to do with FBL? If you want 360/DAS/EW, you will need to add software and hardware to support it. How is this connected to the claim that introducing FBL will require a complete rework? They are two different things.NRao wrote:Note that the IAF was looking for 360 for the FGFA, which it should get in the AMCA (and even perhaps in the LCA in a few years).This means a LOT more lines of code. The LCA app layer cannot be reused, the AMCA will need a brand new set of code.
And the Mk1A/Mk-2 design and testing costs are also probably in this number.Sid wrote:It may be 92 mil, as the requested numbers are really low (just 83 for new version). That may include complete infra + integration + certification cost.
As the demand will go high, cost will go down.
Why cant LCA use the paint used in PSLV / GSLV? Any knows any reasons? I thought they were using thatRakesh wrote:Very good question Hakeemji!
Drying is immediate because of the dry heat in the robot factory. Since the paint on the F-Solah is Dutch in origin (see below), the onlee delay is the arrival of the paint from the Netherlands. Because of the global supplier base, the only non-issue is how long it takes the robots at LM to paint. Five robots per plane, ensures quick turnaround.
Dutch F-16s "Go Guard" for new paint job
http://www.f-16.net/f-16-news-article4515.html
The painters then paint the areas with an anti-corrosive paint which, ironically, is made by the Dutch company AkzoNobel.
Not entirely true. There are stuff that only a strand of glass can effectively do. In the short term, look forward to much better sensor fusion and much simpler PVI. Long term, you are gonna see much better sensors to fuse data from. This is apart from the obvious pros of a)Simpler and lighter cable loom b)EMP and lightning immunityCybaru wrote:Nothing significant changes when we go from fly by wire to light. The end consumption of data and the data produced remain same. The medium carrying the data changes and the speed it is transmitted to and from producers and consumers of the data changes. The connectors that transmit and receive data change (as its optical now), but there is no significant change in upper layers (application layer) if the underlying physical transport layer changes.NRao wrote: WRT the AMCA, it was supposed to be FBL, not FBW. If that is still the game plane, then pretty much everything changes. Nothing in common with the LCA as far as the nerve center is concerned. The AMCA will have no wires to seriously talk about. (On that matter, Dr. A. K. Ghosh has been at it for about 10 years now.)
Like this Dileep? Watch from hereDileep wrote: BTW, don't expect to have any 'flying' by light for decades. Glass will poke into the sensor/display area first.
